ABCMdb

ABCC7 p.Ser1235Arg

Admin's notes:	Class III (gating defect) Veit et al.
ClinVar:	c.3705T>G , p.Ser1235Arg N , Benign/Likely benign
CF databases:	c.3705T>G , p.Ser1235Arg N , Non CF-causing ; CFTR1: The S1235R mutation (T->G at nucleotide position 3837) in exon 19 was found in 2 out of 34 unrelated Belgian CF chromosomes (7 [delta]F508 and 27 non-[delta] CF chromosomes.
Predicted by SNAP2:	A: N (61%), C: D (75%), D: D (59%), E: N (57%), F: D (85%), G: D (59%), H: D (53%), I: D (71%), K: N (57%), L: D (59%), M: D (71%), N: N (61%), P: D (63%), Q: N (57%), R: D (75%), T: N (72%), V: D (66%), W: D (91%), Y: D (66%),
Predicted by PROVEAN:	A: N, C: D, D: N, E: N, F: D, G: N, H: N, I: D, K: N, L: N, M: N, N: N, P: N, Q: N, R: N, T: N, V: N, W: D, Y: N,

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III (gating defect) <a href="https://www.ncbi.nlm.nih.gov/pubmed/26823392">Veit et al.</a>
admin on 2016-08-19 15:16:22

Publications
[hide] Two buffer PAGE system-based SSCP/HD analysis: a g... Eur J Hum Genet. 1999 Jul;7(5):590-8. Liechti-Gallati S, Schneider V, Neeser D, Kraemer R
Two buffer PAGE system-based SSCP/HD analysis: a general protocol for rapid and sensitive mutation screening in cystic fibrosis and any other human genetic disease.
Eur J Hum Genet. 1999 Jul;7(5):590-8., [PMID:10439967]

Abstract [show]
The large size of many disease genes and the multiplicity of mutations complicate the design of an adequate assay for the identification of disease-causing variants. One of the most successful methods for mutation detection is the single strand conformation polymorphism (SSCP) technique. By varying temperature, gel composition, ionic strength and additives, we optimised the sensitivity of SSCP for all 27 exons of the CFTR gene. Using simultaneously SSCP and heteroduplex (HD) analysis, a total of 80 known CF mutations (28 missense, 22 frameshift, 17 nonsense, 13 splicesite) and 20 polymorphisms was analysed resulting in a detection rate of 97.5% including the 24 most common mutations worldwide. The ability of this technique to detect mutations independent of their nature, frequency, and population specificity was confirmed by the identification of five novel mutations (420del9, 1199delG, R560S, A613T, T1299I) in Swiss CF patients, as well as by the detection of 41 different mutations in 198 patients experimentally analysed. We present a three-stage screening strategy allowing analysis of seven exons within 5 hours and analysis of the entire coding region within 1 week, including sequence analysis of the variants. Additionally, our protocol represents a general model for point mutation analysis in other genetic disorders and has already been successfully established for OTC deficiency, collagene deficiency, X-linked myotubular myopathy (XLMTM), Duchenne and Becker muscular dystrophy (DMD, BMD), Wilson disease (WD), Neurofibromatosis I and II, Charcot-Marie-Tooth disease, hereditary neuropathy with liability to pressure palsies, and defects in mitochondrial DNA. No other protocol published so far presents standard SSCP/HD conditions for mutation screening in different disease genes.

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20 The distribution of analysed known mutations is similar to that of the total number of mutations in the entire CFTR gene: missense mutations account for 35% (G27E, G85E, R117H, A120T, I148T, H199Y, R334W, T338I, R347P, R347H, A455E, M718K, S5449N, S5449I, G551D, R560T, R560S, S945L, S977P, I1005R, R1066C, R1070Q, M1101K, D1152H, S1235R, R1283M, N1303K, N1303H), followed by 28% of frameshift mutations (175delC, 394delTT, 457TAT- > G, 905delG, 1078delT, I507, F508, 1609delCA, 1677delTA, 2143delT, 2176insC, 218delA, 2184insA, 2869insG, 3659delC, 3732delA, 3821delT, 3905insT, 4016insT, 4172delGC, 4382delA), 21% of nonsense mutations (Q30X, Q39X, Q220X, W401X, Q525X, G542X, Q552X, R553X, V569X, E585X, K710X, R792X, Y1092X, R1162X, S1255X, W1282X, E1371X), and 16% of splice site mutations (621 + 1G- > T, 711 + 1G- > T, 711 + 5G- > A, 1717-1G- > A, 1898 + 1G- > A, 1898 + 5G- > T, 2789 + 5G- > A, 3271 + 1G- > A, 3272-26A- > G, 3601-17T- > C, 3849 + 4A- > G, 3849 + 10kbC- > T, 4374 + 1G- > T). Login to comment
92 The technique developed demonstrates excellent single-strand separation and non-radioactive visualisation on polyacrylamide gels, and is time-saving and directly Table 2 Known mutations identified in 198 CF patients analysed investigatively Exon (E) Number of CFTR mutations intron (I) chromosomes Patient`s nationality Highest prevalence ∆F508 E10 212 miscellaneous 3905insT E20 025 Swiss Swiss, Amish, Arcadian R553X E11 020 Swiss, German German 1717-1G->A I10 017 Swiss, Italian Italian N1303K E21 011 Swiss, French, Italian Italian W1282X E20 014 Swiss, Italian, Israelit Jewish-Askhenazi G542X E11 009 Swiss, Spanish, Italian Spanish 2347delG E13 008 Swiss R1162X E19 006 Swiss, Italian, Russian Italian 3849+10kbC->T I19 005 German, French R347P E07 004 Swiss T5 I08 004 Swiss R334W E07 003 Swiss Q525X E10 003 Swiss 3732delA E19 003 Swiss S1235R E19 003 Italian, Turkish G85E E03 002 Italian, Greek I148T E04 002 Austrian, Turkish French-Canadian 621+1G->T I04 002 French French-Canadian 1078delT E07 002 Swiss E585X E12 002 Italian 2176insC E13 002 Swiss, Italian 2789+5G->A I14b 002 Italian Spanish D1152H E18 002 Swiss, French 4016insT E21 002 Turkish Q39X E02 001 Swiss 394delTT E03 001 Swiss Nordic, Finnish R117H E04 001 Swiss A120T E04 001 Swiss G126D E04 001 Swiss 711+5G->A I05 001 Russian M348K E07 001 Italian L568F E12 001 Italian 2183AA->G E13 001 Italian Italian K710X E13 001 Swiss S945L E15 001 French 3272-26A.->G I17a 001 Swiss M1101K E17b 001 Swiss Huttite 3601-17C->T I18 001 Swiss R1158X E19 001 Swiss 4005+1G-A I20 001 Italian applicable to early diagnostic testing, carrier detection and prenatal diagnosis. Login to comment

[hide] A new approach for identifying non-pathogenic muta... Hum Genet. 2000 Feb;106(2):172-8. Bombieri C, Giorgi S, Carles S, de Cid R, Belpinati F, Tandoi C, Pallares-Ruiz N, Lazaro C, Ciminelli BM, Romey MC, Casals T, Pompei F, Gandini G, Claustres M, Estivill X, Pignatti PF, Modiano G
A new approach for identifying non-pathogenic mutations. An analysis of the cystic fibrosis transmembrane regulator gene in normal individuals.
Hum Genet. 2000 Feb;106(2):172-8., [PMID:10746558]

Abstract [show]
Given q as the global frequency of the alleles causing a disease, any allele with a frequency higher than q minus the cumulative frequency of the previously known disease-causing mutations (threshold) cannot be the cause of that disease. This principle was applied to the analysis of cystic fibrosis transmembrane conductance regulator (CFTR) mutations in order to decide whether they are the cause of cystic fibrosis. A total of 191 DNA samples from random individuals from Italy, France, and Spain were investigated by DGGE (denaturing gradient gel electrophoresis) analysis of all the coding and proximal non-coding regions of the gene. The mutations detected by DGGE were identified by sequencing. The sample size was sufficient to select essentially all mutations with a frequency of at least 0.01. A total of 46 mutations was detected, 20 of which were missense mutations. Four new mutations were identified: 1341+28 C/T, 2082 C/T, L1096R, and I11131V. Thirteen mutations (125 G/C, 875+40 A/G, TTGAn, IVS8-6 5T, IVS8-6 9T, 1525-61 A/G, M470V, 2694 T/G, 3061-65 C/A, 4002 A/G, 4521 G/A, IVS8 TG10, IVS8 TG12) were classified as non-CF-causing alleles on the basis of their frequency. The remaining mutations have a cumulative frequency far exceeding q; therefore, most of them cannot be CF-causing mutations. This is the first random survey capable of detecting all the polymorphisms of the coding sequence of a gene.

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79 Out of the 20 missense mutations, three (G85E, ∆F508, and N1303K) are certainly CF-causing, and several (R31C, K68E, R75Q, I148T, V562L, G576A-R668C, L997F, F1052V, S1235R) have been described in congenital bilateral absence of the vas deferens, in disseminated bronchiectasis, in pancreatitis, or in atypical CF cases mutations as reported in the CFGAC website (). Login to comment
80 Many (13 out of 20) of the missense mutations change highly conserved (5/5 species analyzed) amino acid residues (R75Q, G85E, I148T, I506V, R668C, G622D, L997F, I1027T, F1052V, L1096R, I1131V, R1162L, N1303K); others affect amino acid residues conserved in 4/5 species (K68 E, R170H, M470V, V562L, S1235R), or in 3/5 species (R31C and G576A; Tucker et al. 1992). Login to comment
88 In three further cases where more than one sporadic mutation was observed in the same individual (1341+28 C/T and F1052V and S1235R; ∆F508 and I1027T; 1716G/A and N1303K), data from the literature were not available, and segregation analysis was not possible; thus, their phase could not be established. Login to comment
96 Moreover, 1525-61 A/G (i 9) and 3601-65 C/A (i 18) were detected by SSCA performed in the Spanish sample only (14/82 and 12/80, respectively); these mutations were not identifiable by DGGE as used in the present work The totals are: a378; b362; c380; d356 genes eCertainly a CF-causing mutations fThe most common allele at this site is (TTGA)7 gThe most common allele at this site is T7 hThe frequency shown is that of the M allele Mutation Position North-Central Southern Spain Total East Italy Italy France 82 genes 100 genes 100 genes 100 genes 382 genes % 125 G/C 5`UTR 1 2 7 3 13 3.4 R31C 2 1 1 1 0 3 0.8 K68E 3 1 0 0 0 1 0.3 R75Q 3 1 1 2 0 4 1.0 G85Ee 3 0 1 0 0 1 0.3 406-6 T/C i 3 0 0 1 0 1 0.3 I148T 4 1 0 0 0 1 0.3 621+3 A/G i 4 0 1 0 0 1 0.3 R170H 5 1 0 0 0 1 0.3 875+40 A/G i 6a 11 5 5 2 23 6.0 (TTGA)6 f i 6a 17 11 7 13 48 12.6 1341+28 C/T i 8 1 0 0 0 1 0.3 IVS8-6g T5 i 8 8 2 4 3/78 17a 4.5 IVS8-6g T9 i 8 10 7 10 11/78 38a 10.0 M470Vh 10 42 30 39 27 138 36.1 I506V 10 1 0 0 0 1 0.3 ∆F508e 10 1 0 2 0 3 0.8 1716 G/A 10 2 1 0 5 8 2.1 V562L 12 0 0 1 0 1 0.3 G576A 12 1 0/80 1 0 2b 0.6 G622D 13 0 0/80 1 0 1b 0.3 R668C 13 1 0/80 1 0 2b 0.6 2082 C/T 13 1 0/80 0 0 1b 0.3 2377 C/T 13 0 0/80 0 1 1b 0.3 2694 T/G i 14a 33 23 33 14/80 103c 27.1 2752-15 C/G i 14b 0 3 0 0 3 0.8 3041-71 G/C i 15 0 1 2 0 3 0.8 L997F 17a 0 2 0 0 2 0.5 I1027T 17a 1 0 0 0 1 0.3 F1052V 17b 1 0 0 0 1 0.3 L1096R 17b 0 0 1 0 1 0.3 3417 A/T 17b 1 0 1 0 2 0.5 I1131V 18 0 1 0 0 1 0.3 R1162L 19 0 1 0 0 1 0.3 3690 A/G 19 0 0 0 1/80 1c 0.3 S1235R 19 1 0 0 0 1 0.3 4002 A/G 20 2 3 3 3/80 11c 2.9 4005+28insA i 20 0 1 0 0 0.3 4029 A/G 21 1 0 0 0 1 0.3 N1303Ke 21 1 0 0 0 1 0.3 4404 C/T 24 1 0 1 0 2 0.5 4521 G/A 24 21 16 14/80 15/76 66d 18.5 Total 165 113 137 98 513 encountered in the present survey are possible. Login to comment

[hide] Heterogeneity for mutations in the CFTR gene and c... Hum Reprod. 2000 Jul;15(7):1476-83. Casals T, Bassas L, Egozcue S, Ramos MD, Gimenez J, Segura A, Garcia F, Carrera M, Larriba S, Sarquella J, Estivill X
Heterogeneity for mutations in the CFTR gene and clinical correlations in patients with congenital absence of the vas deferens.
Hum Reprod. 2000 Jul;15(7):1476-83., [PMID:10875853]

Abstract [show]
Congenital absence of the vas deferens (CAVD) is a heterogeneous disorder, largely due to mutations in the cystic fibrosis (CFTR) gene. Patients with unilateral absence of the vas deferens (CUAVD) and patients with CAVD in association with renal agenesis appear to have a different aetiology to those with isolated CAVD. We have studied 134 Spanish CAVD patients [110 congenital bilateral absence of the vas deferens (CBAVD) and 24 CUAVD], 16 of whom (six CBAVD, 10 CUAVD) had additional renal anomalies. Forty-two different CFTR mutations were identified, seven of them being novel. Some 45% of the CFTR mutations were specific to CAVD, and were not found in patients with cystic fibrosis or in the general Spanish population. CFTR mutations were detected in 85% of CBAVD patients and in 38% of those with CUAVD. Among those patients with renal anomalies, 31% carried one CFTR mutation. Anomalies in seminal vesicles and ejaculatory ducts were common in patients with CAVD. The prevalence of cryptorchidism and inguinal hernia appeared to be increased in CAVD patients, as well as nasal pathology and frequent respiratory infections. This study confirms the molecular heterogeneity of CFTR mutations in CAVD, and emphasizes the importance of an extensive CFTR analysis in these patients. In contrast with previous studies, this report suggests that CFTR might have a role in urogenital anomalies.

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98 Vasograms performed in six patients with CUAVD E92K/- 5T/7T 1 not only confirmed ultrasonographic findings, but also showed 711ϩ1G→T/- 5T/7T 1 additional abnormalities at various levels of the seminal tract.R334W/- 5T/7T 1 S549R/- 5T/7T 1 The volume and consistency of testes was normal, except in 1949del84/- 5T/7T 1 patients with other concomitant pathologies, such as crypt- K1060T/- 5T/7T 1 orchidism (n ϭ 6), trauma (n ϭ 2), orchitis (n ϭ 2) orR1162X/- 5T/7T 1 S1235R/- 5T/7T 1 tumour (n ϭ 1). Login to comment

[hide] Distribution of CFTR gene mutations in cystic fibr... J Med Genet. 2000 Aug;37(8):E16. Teder M, Klaassen T, Oitmaa E, Kaasik K, Metspalu A
Distribution of CFTR gene mutations in cystic fibrosis patients from Estonia.
J Med Genet. 2000 Aug;37(8):E16., [PMID:10922396]

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12 Each of these mutations was detected once, except for S1235R, which was found in two heterozygotes. Login to comment
26 The mixture was heated to 80°C, Table 1 Mutations identified in CF patients from Estonia Mutation Exon No of chromosomes Frequency (%) Method Reference F508 10 31 51.7 HA 6 394delTT 3 8 13.3 HA 7 359insT 3 1 SSCP 16 3659delC 19 1 SSCP 17 E217G 6a 1 DGGE 18 H117C 4 1 SSCP 19 I1005R 17a 1 SSCP 19 R1066H 17b 1 DGGE 20 S1196X 19 1 DGGE 21 S1235R 19 2 DGGE 22 Unidentified 12 Total 60 Table 2 Genotypes of the 30 CF patients from Estonia No of patients Genotype 8 F508/ F508 6 F508/394delTT 1 F508/I1005R 1 F508/359insT 1 F508/3659delC 1 F508/H117C 1 F508/R1066H 1 F508/S1196X 1 394delTT/394delTT 2 S1235R/U* 3 F508/U 1 E217G/U 3 U/U *Unidentified mutation Electronic letter of 4 www.jmedgenet.com cooled slowly to 30°C, and then divided into four sets of 60 µl. Login to comment

[hide] Genotype analysis and phenotypic manifestations of... Chest. 2000 Dec;118(6):1591-7. Desmarquest P, Feldmann D, Tamalat A, Boule M, Fauroux B, Tournier G, Clement A
Genotype analysis and phenotypic manifestations of children with intermediate sweat chloride test results.
Chest. 2000 Dec;118(6):1591-7., [PMID:11115444]

Abstract [show]
STUDY OBJECTIVES: Cystic fibrosis (CF) is one of the most common inherited diseases among whites. Since the cloning of the CF transmembrane conductance regulator (CFTR) gene, a number of studies have focused on associations between the genotype and phenotype in CF. This had led to the progressive identification of new groups of patients, including those who have mild lung disease and those who have normal sweat chloride values (< 60 mEq/L). The aim of the present work was to provide information on the genotype and the phenotypic characteristics of children with intermediate-range sweat chloride test results. PATIENTS AND RESULTS: We focused on children referred to the pulmonary department for various types of pulmonary disease and who had several sweat chloride test results with median values in the range of 40 to 60 mEq/L. Twenty-four patients over a 10-year period were enrolled (mean age, 4.8 years). Respiratory manifestations at initial evaluation included recurrent bronchitis, wheezing, chronic cough, and pneumonia. The duration of the follow-up ranged from 0.5 to 10.5 years. Sputum cultures revealed the presence of Haemophilus influenzae (10 children), Staphylococcus aureus (4 children), and Pseudomonas aeruginosa (3 children). Pancreatic insufficiency was found in two patients. Analysis of the entire coding sequence allowed identification of 16 known mutations in CFTR gene. Fifteen chromosomes (31.2%) carried a mutation in CFTR gene and one allele carried two mutations. Three patients were homozygous or double heterozygous (DeltaF508/DeltaF508, DeltaF508/3849 + 10 kb C-->T, S1235R/G551D). The 5-thymidine allele was identified in four children. CONCLUSION: These results indicate an higher frequency of CFTR gene mutations in patients with borderline sweat chloride test results, compared to data reported in the general population. They lead to the recommendations for complete pulmonary and GI investigations in this group of patients, as well as assiduous care and medical follow-up.

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16 Three patients were homozygous or double heterozygous (⌬F508/⌬F508, ⌬F508/3849 ؉ 10 kb C3T, S1235R/G551D). Login to comment
81 One patient carried homozygous ⌬F508, and two patients carried compound heterozygous (⌬F508/3849 ϩ 10 kb C3T, S1235R/G551D). Login to comment
87 Patient 9 carried the 5T allele and the mild mutation S1235R on the same chromosome. Login to comment
92 Genotype Poly T 1 -/- 7T/7T 2 R117C/- 7T/7T 3 R75X-D1270H/- 7T/7T 4 -/- 7T/7T 5 G91R/- 7T/5T 6 ⌬F508/- 7T/9T 7 -/- 7T/7T 8 -/- 7T/7T 9 S1235R/G551D 5T/7T 10 ⌬F508/- 9T/9T 11 7T/7T 12 ⌬F508/⌬F508 9T/9T 13 ⌬F508/- 7T/9T 14 -/- 7T/7T 15 ⌬F508/- 7T/9T 16 -/- 7T/5T 17 -/- 7T/7T 18 -/- 7T/7T 19 -/- 7T/9T 20 ⌬F508/- 7T/9T 21 -/- 7T/7T 22 W1282X/- 7T/5T 23 -/- 7T/7T 24 ⌬F508/3849 ϩ 10 kb C 3 T 7T/7T 1594 Clinical Investigations reported in the general population (frequency of the 5T allele in the general population, 5.2%).26 Based on the results of DNA analysis and according to the consensus statement on the diagnosis of CF, three patients (patients 9, 12, and 24) met the criteria of both respiratory manifestations and identification of two CF mutations.21 For patient 6, there was a diagnostic dilemma. Login to comment
99 It is interesting to point out that two patients were compound heterozygous (⌬F508/ 3849 ϩ 10 kb C3T, S1235R/G551D), and one was homozygous ⌬F508. Login to comment

[hide] CFTR gene mutations--including three novel nucleot... Hum Genet. 2001 Mar;108(3):216-21. Tzetis M, Efthymiadou A, Strofalis S, Psychou P, Dimakou A, Pouliou E, Doudounakis S, Kanavakis E
CFTR gene mutations--including three novel nucleotide substitutions--and haplotype background in patients with asthma, disseminated bronchiectasis and chronic obstructive pulmonary disease.
Hum Genet. 2001 Mar;108(3):216-21., [PMID:11354633]

Abstract [show]
In order to investigate the incidence of cystic fibrosis transmembrane conductance regulator (CFTR) gene mutations and unclassified variants in chronic pulmonary disease in children and adults, we studied 20 patients with asthma, 19 with disseminated bronchiectasis (DB) of unknown aetiology, and 12 patients with chronic obstructive pulmonary disease (COPD), and compared the results to 52 subjects from the general Greek population. Analysis of the whole coding region of the CFTR gene and its flanking intronic regions revealed that the proportion of CFTR mutations was 45% in asthma (P<0.05), 26.3% in DB (P>0.05), 16.7% in COPD (P>0.05), compared to 15.4% in the general population. Seventeen different molecular defects involved in disease predisposition were identified in 16 patients. Three potentially disease-causing mutations, T388 M, M1R and V11I, are novel, found so far only in three asthma patients. The hyperactive M470 allele was found more frequently in COPD patients (frequency 70.8%, P<0.01) than in the controls. The study of the TGmTnM470 V polyvariant CFTR allele revealed the presence of CFTR function-modulating haplotypes TG13/T5/M470, TG11/T5/M470, TG12/T5/V470 and TG12/T7, combined with M470 or V470, in six asthma patients, four DB patients (P<0.01), and two COPD patients (P<0.05). These results confirm the involvement of the CFTR gene in asthma, DB and possibly in COPD.

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47 Of the 17 mutations in the patients, 9 (Y301C, I148T, R297Q, S1235R, T896I, S977F, L997F, F1052 V, A120T) have been listed by the Cystic Fibrosis Genetic Analysis Consortium (see website: http://www.cf.genet.sickkids. Login to comment
60 of CFTR gene IVS8-(T)n IVS8-(TG)m M470 V tested cases mutationa Asthma 20 1 L997F, T338Mb 9/7 10/12 M/V 1 Y301C 7/7 11/11 V/V 1 M1Rb, V11Ib 7/7 12/10 M/M 1 I148T/- 9/9 10/10 M/V 1 L997F/- 9/9 11/9 M/V 1 R297Q/- 5/5 13/11 M/M 1 R297Q/- 7/7 11/11 V/V 1 R75Q/- 7/7 11/11 V/V 1 A120T/ 5/7 11/11 V/V 1 -/- 7/7 11/12 M/V 1 -/- 7/9 11/11 M/M 2 -/- 7/7 12/10 M/V 7 -/- 7/7 11/11 V/V DB 19 1 F508del, I1027T 9/9 10/10 M/M 1 D565G, R668C 7/7 11/11 M/V 1 T896I/- 7/7 11/10 M/V 1 I148T/- 7/9 11/10 M/V 1 F508del/S977F 5/9 12/10 M/V 1 -/- 7/9 12/10 V/V 1 -/- 7/9 10/10 M/V 1 -/- 7/7 11/12 M/M 2 -/- 7/7 11/10 1 M/V, 1 V/V 2 -/- 7/7 12/10 1 V/V, 1 M/M 3 -/- 7/9 11/10 1 M/M, 2 V/V 4 -/- 7/7 11/11 1 V/V, 3 M/V COPD 12 1 F1052 V/- 7/7 11/10 M/V 1 S1235R/- 7/9 12/10 M/M 1 -/- 5/5 11/12 M/V 1 -/- 7/9 10/10 M/M 2 -/- 7/9 11/10 1 M/M,1 M/V 3 -/- 7/7 11/10 M/V 3 -/- 7/7 11/11 1 M/V, 2 M/M Controls 52 1 F508del/- 7/9 10/10 M/M 1 F1052 V/- 5/7 10/11 M/V 1 F1052 V/- 7/7 11/11 M/M 1 R668C, D565G/- 7/7 11/11 M/M 1 R688C, D565G/- 7/7 11/10 M/V 1 R75Q/- 7/7 11/11 V/V 1 R297Q/- 7/7 11/10 M/V 1 L997F/- 7/9 10/10 M/V 1 -/- 7/7 10/10 M/V 1 -/- 7/9 10/10 M/M 1 -/- 7/9 12/10 M/M 4 -/- 7/9 11/10 1 M/M, 1 V/V, M/V 15 -/- 7/7 11/10 13 M/V, 2 V/V 22 -/- 7/7 11/11 18 V/V, 3 M/V, 1 M/M been found that affect the same codon, of which M1 K affects the same nucleotide (T>A) (Cystic Fibrosis Genetic Analysis Consortium website). Login to comment
72 The proportion of CFTR alleles in each group is expressed as c/d (e), where c indicates the number of alleles with the genotype indicated at left, d indicates the number of total alleles examined in each group and e represents the percentage aMutation name according to the Cystic Fibrosis Genetic Analysis Consortium bNovel mutations, reported for the first time in this study Mutationa Control Pulmonary disease patients Greek CF population patients (PS; PI) (n=52) Asthma DB COPD (n=426) (n=20) (n=19) (n=12) R75Q (356 G/A, exon 3) 1 (0.96%) 1 (2.5%) - - 1 (0.1%) R668C (2134 C/T, exon 13) 2 (1.9%) - 1 (2.6%) - 1 (0.1%) L997F (3123 G>C, exon 17a) 1 (0.96%) 2 (5%) - - - F508del 1 (0.96%) - 2 (5.3%) - 465 (54.6%) D565G (A>G at 1825, exon 12) 2 (1.9%) - 1 (2.6%) - 1 (0.1%) F1052 V (T>G at 3286, exon 17b) 2 (1.9%) - - 1 (4.2%) 1 (0.1%) R297Q (G>A at 1022, exon 7) 1 (0.96%) 2 (5%) - - - Y301C (A>G at 1034, exon 7) - 1 (2.5%) - - - I148T (T>C at 575, exon 4) - 2 (5%) - - 1 (0.1%) T388Mb (C>T at 1295, exon 8) - 1 (2.5%) - - - M1Rb (T>G at 134, exon 1) - 1 (2.5%) - - - V11Ib (G>A at 163, exon 1) - 1 (2.5%) - - - I1027T (3212 T/C, exon 17a) - - 1 (2.6%) - 1 (0.1%) T896I (C>T at 2819, exon 15) - - 1 (2.6%) - - S977F (C>T at 3062, exon 16) - - 1 (2.6%) - - A120T (G>A at 490, exon 4) - 1 (2.5%) - - - S1235R (T>G at 3837, exon 19) - - - 1 (4.2%) - Table 3 Frequency of M470 and (TG)mTn alleles in pulmonary disease patients and controls (DB disseminated bronchiectasis, COPD chronic obstructive pulmonary disease, n number of cases, ND not detected) Clinical status Allele M470 TG11/T7 TG10/T7 TG12/T7 TG10/T9 TG11/T5 TG12/T5 TG13/T5 Asthmaa (n=20) 13 (32.5%) 23 (57.5%) 3 (7.5%) 5 (12.5%) 3 (7.5%) 2 (5%) ND 1 (2.5%) DB (n=19) 17 (44.7) 18 (47.4%) 6 (15.8%) 4 (10.5%) 9 (23.7%) ND 1 (2.6%) ND COPD (n=12) 17 (70.8) 12 (50%) 5 (20.8%) 1 (4.2%) 4 (16.7%) 1 (4.2%) 1 (4.2%) ND Controls (n=52) 37 (35.5%) 71 (68.%) 23 (22.1%) 1 (0.96%) 6 (5.8%) 1 (0.96%) ND ND aAlleles TG11/T9 (2) and TG9/T9 (1) also detected alleles, P<0.01) were both found more frequently in patients with COPD. Login to comment
96 COPD patients Amongst the 12 COPD patients, two carried mutations F1052 V and S1235R. Login to comment

[hide] Analysis of the entire coding region of the cystic... Hum Mutat. 2001 Aug;18(2):166. Castellani C, Gomez Lira M, Frulloni L, Delmarco A, Marzari M, Bonizzato A, Cavallini G, Pignatti P, Mastella G
Analysis of the entire coding region of the cystic fibrosis transmembrane regulator gene in idiopathic pancreatitis.
Hum Mutat. 2001 Aug;18(2):166., [PMID:11462247]

Abstract [show]
Many Cystic Fibrosis (CF) carriers have been detected testing some subjects with chronic pancreatitis for a limited number of mutations. The aim of this study was to find out if some subjects with pancreatitis and a CFTR mutation actually carry another, undetected mutation. We screened for 18 CFTR mutations plus the CFTR intron 8 poly(T) tract length a population of 67 patients suffering from idiopathic either acute, or recurrent acute, or chronic pancreatitis. Three of them were diagnosed as affected by CF. Among the others, a subset of 14 (8 CFTR mutation carriers, 4 5T carriers, and 2 sweat chloride borderliners) was selected and analyzed by denaturing gradient gel electrophoresis. Six possibly CF-related mutations were detected: L997F and 3878delG were found in two of the subjects already carrying another mutation, S1235R and L997F in one patient carrying the 5T, and L997F and D614G in the two patients with borderline sweat chloride. Among the 14 selected cases a total of 11 patients carried at least one mutation, and three of them were compound heterozygotes. Though it is debatable whether these three individuals can be considered affected by CF, their pancreatitis is possibly a clinical manifestation of some CFTR-related disease. Hum Mutat 18:166, 2001.

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7 Six possibly CF-related mutations were detected: L997F and 3878delG were found in two of the subjects already carrying another mutation, S1235R and L997F in one patient carrying the 5T, and L997F and D614G in the two patients with borderline sweat chloride. Login to comment
73 Six possibly CF-related mutations were detected: L997F and 3878delG (the latter described here for the first time) were found in two of the subjects already carrying another mutation, S1235R and L997F in one patient carrying the 5T allele, and L997F and D614G in two of the three patients with borderline sweat chloride. Login to comment
77 Sex (m/f) Age (yr) Pancreatitis CFTR Testing for 18 mutations Newly found mutations after DGGE PolyT Splice Variant Sweat Cl- (mEq/l) Nasal Potential Difference CF-compatible anamnestical and clinical features Sputum culture FEV1 (%) 1 m 17 ICP F508del L997F 7/9 23.5 n.a. - neg. 141 2 m 33 ICP F508del 7/9 n.a. n.a. - n.a. n.a. 3 m 45 ICP 2789+5G→A 7/7 59.5 n.a. - neg. 71 4 f 52 ICP F508del 7/9 28.5 basal and activated: negative - neg. 107 5 m 18 IRAP R1162X 7/7 n.a. n.a. sinusitis n.a. n.a. 6 m 45 ICP F508del 7/9 55.5 basal negative diabetes 7 m 50 ICP F508del 7/9 n.a. n.a. - n.a. n.a. 8 m 14 IAP 3849+10KbC→T 3878delG* 7/7 n.a. n.a. - n.a. n.a. 9 m 27 ICP - S1235R L997F 5/7 24.5 basal and activated: negative - neg. n.a. 10 m 32 IRAP - 5/7 n.a. n.a. - n.a. n.a. 11 f 24 ICP - 5/7 57.5 basal and activated: negative - neg. n.a. 12 f 7 IRAP - 5/7 9.5 basal negative - n.a. n.a. 13 m 28 ICP - L997F 7/9 49.5 n.a. chronic cough n.a. n.a. 14 f 27 IRAP - D614G 7/7 56 n.a. chronic cough, sinusitis neg. 117 n.a. : not available * : novel mutation DISCUSSION There is general agreement that a diagnosis of CF can be formulated in presence of one or more consistent phenotypic features (including pancreatitis) plus the evidence of CFTR dysfunction as documented by elevated sweat chloride concentrations, or identification of two CF-causing mutations, or the in vivo demonstration of abnormal ion transport across the nasal epithelium (Rosenstein et al, 1998). Login to comment
105 As for the other mutations found in phase 2, 3878delG had not been described previously, D614G had been found in exon 13 of a CF patient from Italian origin, and S1235R in exon 19 in two out of 34 unrelated Belgian CF chromosomes (Cystic Fibrosis Genetic Analysis Consortium, http://www.genet.sickkids.on.ca./cftr). Login to comment

[hide] Involvement of CFTR gene alterations in obstructiv... Genet Test. 2001 Fall;5(3):243-7. Ravnik-Glavac M, Svetina N, Zorn B, Peterlin B, Glavac D
Involvement of CFTR gene alterations in obstructive and nonobstructive infertility in men.
Genet Test. 2001 Fall;5(3):243-7., [PMID:11788091]

Abstract [show]
There have not been many studies concerning CFTR gene alterations in nonobstructive causes of male infertility and subfertility, and in those that have been published, the results reported are not concordant. Therefore, we proposed to determine, in a representative unselected sample of men who were sent for microsurgical epididymal sperm aspiration, if different types of male infertility and impaired fertility were associated with CFTR gene alterations. We screened 80 men with idiopathic azoospermia, 50 men with severe oligozoospermia, 70 men with oligoasthenoteratozoospermia, and 7 men with congenital bilateral absence of the vas deferens (CBAVD), as well as 95 controls from Slovenia, for mutations in 10 CFTR exons that include the majority of the most common cystic fibrosis (CF) disease causing mutations. We also wanted to evaluate the risk for CF in children born after the intracytoplasmic sperm injection (ICSI) method of in vitro fertilization (IVF). No tested individual had mutations in both CFTR alleles. Altogether 13 different nucleotide alterations were identified. The frequencies of both CFTR gene alterations and polymorphisms did not differ significantly between the control group and men with idiopathic nonobstructive azoospermia and subfertility, but were significantly increased in men with CBAVD (DeltaF508, p = 0.039; IVS8-5T, p = 0.006). Our results suggest that CFTR mutations are not associated with errors in spermatogenesis and nonobstructive pathology of urogenital tract in men with any frequency. However, genetic counseling and CFTR mutation screening continue to be recommended for men with obstructive azoospermic conditions and their female partners.

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55 The second, S1235R, was previously shown to cause 'hyper`-active chloride chan- nels (Wei et al., 2000). Login to comment
58 R297Q and S1235R were each detected as a single allele in men with oligoas- thenoteratozoospermiaand oligozoospermia, respectively. Login to comment
66 DETECTED NUCLEOTIDE ALTERATIONS IN CFTR GENES AND THEIR FREQUENCY IN MEN WITH INFERTILITY AND SUBFERTILITY AND IN CONTROL POPULATION CFTR Nucleotide Amino acid Type of Azoo Oligo OAT CBAVD Controls gene change change change (n 5 160) (n 5 100) (n 5 140) (n 5 14) (n 5 190) Ex 3 356G ® A R75Q P 2 0 1 0 1 Int 3 405 1 35C ® T / V 1 0 0 0 0 405 1 46G ® T / P 4 0 3 0 1 Ex 4 519T ® A L129L V 0 1 0 0 0 549C ® T H139H V 0 1 0 0 0 Ex 7 1022G ® A R297Q M 0 0 1 0 0 Int 8 IVS8-5T / P 8 4 10 3 8 Ex 10 1652del3 DF508 M 1 2 0 2 3 Int17a 3272-93T ® Ca / P 6 2 4 0 4 Ex17b 3417A ® T T1095T P 2 0 1 0 3 Ex 19 3837T ® G S1235R M 0 1 0 0 0 Ex 20 4002A ® G P1290P P 6 2 4 0 4 Ex 21 4029A ® G T1299T P 0 0 1 0 1 Abbreviations: P, Polymorphism; Azoo, azoospermia; V, variation; Oligo, oligozoospermia; M, pathogenic mutation; OAT, oligoasthenoteratozoospermia CBAVD, congenital bilateral absence of the vas deferens; Ex, exon; Int, intron. Login to comment

[hide] Mutations of the cystic fibrosis gene and intermed... Am J Respir Crit Care Med. 2002 Mar 15;165(6):757-61. Lebecque P, Leal T, De Boeck C, Jaspers M, Cuppens H, Cassiman JJ
Mutations of the cystic fibrosis gene and intermediate sweat chloride levels in children.
Am J Respir Crit Care Med. 2002 Mar 15;165(6):757-61., 2002-03-15 [PMID:11897640]

Abstract [show]
The incidence of mutations of the cystic fibrosis transmembrane conductance regulator (CFTR) gene in children with intermediate sweat chloride levels is unknown. The results of 2,349 sweat tests performed at two Belgian university hospitals were reviewed. Intermediate chloride concentrations were observed in 98 subjects (4.2%), 68 being younger than 18 years of age. Forty-three children could be traced and their parents agreed to take part in the study. Exhaustive analysis of the CFTR gene disclosed a total of 24 putative mutations (27.9%). Three subjects were found to carry only one CFTR mutation, whereas 10 harbored one mutation on both CFTR genes. These 10 children were investigated in detail. At the time of writing, the mean age (+/-SD) of this group is 8.9 years (+/-4.2 years). Nine children are pancreatic sufficient. Three have been asymptomatic for more than two years, whereas the others display, to different degrees, clinical features suggestive of CF. The sweat chloride concentration is slightly higher in this group (39.4 +/- 5.4 mM) than in subjects without CFTR mutation (35.2 +/- 4.4 mM, p < 0.05). The nasal potential difference was abnormal in five of the nine subjects tested. In this study, 23% of children displaying intermediate sweat chloride levels were found to carry a putative mutation on both CFTR genes.

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75 Age at First Sweat Test (yr) Clin Sweat (mM) Nasal Potential (mV) Bacteriology (Throat Swab or Sputum Culture) GenotypePDmax ⌬Iso ϩ Cl-free 1 2.5 34 -15 -7* Staphylococcus aureus ⌬F508/D1152H 2 2.8 36 -21 -10 - ⌬F508/R117H, 7T 3 0.3 33 ND ND - ⌬F508/R117H, 7T 4 0.7 43 -51* -7* S. aureus S977F, 5T/2789 ϩ 5G→A 5 0.1 39 -16 -4* Haemophilus influenzae, S. aureus ⌬F508/R117C 6 0.1 37 -48* -9* H. influenzae, S. aureus ⌬F508/R117C 7 0.7 48 -15 -12 Pseudomonas aeruginosa, S. aureus R553X/R117H, 7T 8 6 34 -30 -10 H. influenzae 5T/5T 9 7 45 -24 -15 S. aureus ⌬F508/S1235R 10 9.5 45 -47* -11 P. aeruginosa ⌬F508/D1152H Definition of abbreviations: PDmax ϭ maximum basal nasal potential difference; ⌬Iso ϩ Cl-free ϭ cumulative change in PD after perfusion with chloride-free solution plus isoproterenol in the presence of amiloride. Login to comment
96 Little is known about the S1235R mutation (Subject 9) (35, 36). Login to comment

[hide] DHPLC screening of cystic fibrosis gene mutations. Hum Mutat. 2002 Apr;19(4):374-83. Ravnik-Glavac M, Atkinson A, Glavac D, Dean M
DHPLC screening of cystic fibrosis gene mutations.
Hum Mutat. 2002 Apr;19(4):374-83., [PMID:11933191]

Abstract [show]
Denaturing high performance liquid chromatography (DHPLC) using ion-pairing reverse phase chromatography (IPRPC) columns is a technique for the screening of gene mutations. In order to evaluate the potential utility of this assay method in a clinical laboratory setting, we subjected the PCR products of 73 CF patients known to bear CFTR mutations to this analytic technique. We used thermal denaturation profile parameters specified by the MELT program tool, made available by Stanford University. Using this strategy, we determined an initial analytic sensitivity of 90.4% for any of 73 known CFTR mutations. Most of the mutations not detected by DHPLC under these conditions are alpha-substitutions. This information may eventually help to improve the MELT algorithm. Increasing column denaturation temperatures for one or two degrees above those recommended by the MELT program allowed 100% detection of CFTR mutations tested. By comparing DHPLC methodology used in this study with the recently reported study based on Wavemaker 3.4.4 software (Transgenomic, Omaha, NE) [Le Marechal et al., 2001) and with previous SSCP analysis of CFTR mutations [Ravnik-Glavac et al., 1994] we emphasized differences and similarities in order to refine the DHPLC system and discuss the relationship to the alternative approaches. We conclude that the DHPLC method, under optimized conditions, is highly accurate, rapid, and efficient in detecting mutations in the CFTR gene and may find high utility in screening individuals for CFTR mutations. Hum Mutat 19:374-383, 2002. Published 2002 Wiley-Liss, Inc.

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42 The following mutations have been studied: exon 3: W57G, R74W, R75Q, G85E, 394delTT, 405+ 1G>A; exon 4: E92X, P99L, 441delA, 444delA, 457TAT>G, D110H, R117C, R117H, A120T, 541delC, 544delCA, Q151X, 621+1G>T, 662- 2A>C; exon 7: 1078delT, F331L, R334W, I336K, R347C, R347P, A349V, R352Q, 1221delCT; exon 10: S492F, Q493X, 1609delCA, deltaI507, deltaF508; exon 11: G542X, S549N, G551D, R553X, A559T, R560K, R560T; exon 13: K716X, Q685X, G628R, L719X; exon 17b: H1054D, G1061R, 3320ins5, R1066H, R1066L, R1070Q, 3359delCT, L1077P, H1085R, Y1092X; exon 19: R1162X, 3659delC, 3662delA, 3667del4, 3737delA, I1234V, S1235R, 3849G>A; exon 20: 3860ins31,S1255X,3898insC,3905insT,D1270N, W1282X, Q1291R; and exon 21: N1303H, N1303K, W1316X. Login to comment

[hide] Cystic fibrosis: a worldwide analysis of CFTR muta... Hum Mutat. 2002 Jun;19(6):575-606. Bobadilla JL, Macek M Jr, Fine JP, Farrell PM
Cystic fibrosis: a worldwide analysis of CFTR mutations--correlation with incidence data and application to screening.
Hum Mutat. 2002 Jun;19(6):575-606., [PMID:12007216]

Abstract [show]
Although there have been numerous reports from around the world of mutations in the gene of chromosome 7 known as CFTR (cystic fibrosis transmembrane conductance regulator), little attention has been given to integrating these mutant alleles into a global understanding of the population molecular genetics associated with cystic fibrosis (CF). We determined the distribution of CFTR mutations in as many regions throughout the world as possible in an effort designed to: 1) increase our understanding of ancestry-genotype relationships, 2) compare mutational arrays with disease incidence, and 3) gain insight for decisions regarding screening program enhancement through CFTR multi-mutational analyses. Information on all mutations that have been published since the identification and cloning of the CFTR gene's most common allele, DeltaF508 (or F508del), was reviewed and integrated into a centralized database. The data were then sorted and regional CFTR arrays were determined using mutations that appeared in a given region with a frequency of 0.5% or greater. Final analyses were based on 72,431 CF chromosomes, using data compiled from over 100 original papers, and over 80 regions from around the world, including all nations where CF has been studied using analytical molecular genetics. Initial results confirmed wide mutational heterogeneity throughout the world; however, characterization of the most common mutations across most populations was possible. We also examined CF incidence, DeltaF508 frequency, and regional mutational heterogeneity in a subset of populations. Data for these analyses were filtered for reliability and methodological strength before being incorporated into the final analysis. Statistical assessment of these variables revealed that there is a significant positive correlation between DeltaF508 frequency and the CF incidence levels of regional populations. Regional analyses were also performed to search for trends in the distribution of CFTR mutations across migrant and related populations; this led to clarification of ancestry-genotype patterns that can be used to design CFTR multi-mutation panels for CF screening programs. From comprehensive assessment of these data, we offer recommendations that multiple CFTR alleles should eventually be included to increase the sensitivity of newborn screening programs employing two-tier testing with trypsinogen and DNA analysis.

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109 Mutational Arrays, Detection Rates and Methods by Region* Estimated Projected detection of Number of Number of Country/ allele two CFTR mutations chromosomes Region Mutation array detectiona mutationsb includedc (max/min)d Reference Europe Albania ∆F508 (72.4%) C276X (0.7%) 74.5 55.5 4 270/146 CFGAC [1994]; Macek et al. G85E (0.7%) R1070Q (0.7%) [2002] Austria ∆F508 (62.9%) 457TAT→G (1.2%) 76.6 58.7 11 1516/580 Estiville et al. [1997]; Dörk et al. (total) G542X (3.3%) 2183AA→G (0.7%) [2000]; Macek et al. [2002] CFTRdele2,3 (2.1%) N1303K (0.6%) R1162X (1.9%) I148T (0.5%) R553X (1.7%) R117H (0.5%) G551D (1.2%) Austria ∆F508 (74.6%) 2183AA→G (2.4%) 95.3 90.8 8 126 Stuhrmann et al. [1997] (tyrol) R1162X (8.7%) G551D (1.6%) G542X (2.4%) R347P (1.6%) 2789+5G→A (2.4%) Q39X (1.6%) Belarus ∆F508 (61.2%) R553X (0.5%) 75.2 56.6 9 278/188 Dörk et al. [2000]; Macek et al. G542X (4.5%) R334W (0.5%) [2002] CFTRdele2,3 (3.3%) R347P (0.5%) N1303K (3.2%) S549N (0.5%) W1282X (1.0%) Belgium ∆F508 (75.1%) 622-1A→C (0.5%) 100.0 100.0 27 1504/522 Cuppens et al. [1993]; Mercier et G542X (3.5%) G458V (0.5%) al. [1993]; CFGAC [1994]; N1303K (2.7%) 1898+G→C (0.5%) Estivill et al.[1997] R553X (1.7%) G970R (0.5%) 1717-1G→A (1.6%) 4218insT (0.5%) E60X (1.6%) 394delTT (0.5%) W1282X (1.4%) K830X (0.5%) 2183A→G+2184delA (1.2%) E822K (0.5%) W401X (1.0%) 3272-1G→A (0.5%) A455E (1.0%) S1161R (0.5%) 3272-26A→G (1.0%) R1162X (0.5%) S1251N (1.0%) 3750delAG (0.5%) S1235R (0.8%) S1255P (0.5%) ∆I507 (0.6%) Bulgaria ∆F508 (63.6%) R75Q (1.0%) 93.0 86.5 21 948/432 Angelicheva et al. [1997]; (total) N1303K (5.6%) 2183AA→G (0.9%) Estivill et al. [1997]; Macek G542X (3.9%) G1244V+S912L (0.9%) et al. [2002] R347P (2.2%) G85E (0.9%) 1677delTA (2.1%) 2184insA (0.9%) R1070Q (1.8%) L88X+G1069R (0.8%) Q220X (1.2%) 2789+5G→A (0.8%) 3849+10KbC→T (1.1%) G1244E (0.8%) W1282X (1.0%) 1717-1G→A (0.8%) 2176insC (1.0%) Y919C (0.7%) G1069R (1.0%) WORLDWIDEANALYSISOFCFTRMUTATIONS581 Bulgaria 1) DF508 4) 1677delTA - - 6 13 Angelicheva et al. [1997] (ethnic 2) R347P 5) Q493R Turks) 3) G542X 6) L571S - - 1 30 Angelicheva et al. [1997] Bulgaria 1) DF508 (100.0%) (Gypsy) Croatia ∆F508 (64.5%) G551D (1.1%) 72.5 52.6 5 276 Macek et al. [2002] G542X (3.3%) 3849+10KbC→T (0.7%) N1303K (2.9%) Czech ∆F508 (70.0%) 1898+1G→T (2.0%) 89.6 80.3 10 2196/628 CFGAC [1994]; Estiville et al. Republic CFTRdele2,3 (5.5%) 2143delT (1.2%) [1997]; Dörk et al. [2000]; G551D (3.8%) R347P (0.8%) Macek et al. [2002] N1303K (2.9%) 3849+10KbC→T (0.6%) G542X (2.2%) W1282X (0.6%) Denmark ∆F508 (87.5%) G542X (0.7%) 92.3 85.2 6 1888/678 CFGAC [1994]; Schwartz et al. (excluding 394delTT (1.8%) 621+1G→T (0.6%) [1994]; Estiville et al. [1997] Faroe) N1303K (1.1%) 3659delC (0.6%) Estonia ∆F508 (51.7%) R117C (1.7%) 80.2 64.3 10 165/80 Estivill et al. [1997]; Klaassen et 394delTT (13.3%) E217G (1.7%) al. [1998]; Macek et al. S1235R (3.3%) R1066H (1.7%) [2002] 359insT (1.7%) 3659delC (1.7%) I1005R (1.7%) S1169X (1.7%) Finland ∆F508 (46.2%) G542X (1.9%) 78.8 62.1 4 132/52 CFGAC [1994]; Kere et al. 394delTT (28.8%) 3372delA (1.9%) [1994]; Estivill et al. [1997] France ∆F508 (67.7%) 2789+5G→T (0.79%) 79.7 63.6 12 17854/7420 Chevalier-Porst et al. [1994]; (total) G542X (2.94%) 2184delA+2183A→G (0.77%) Estivill et al. [1997]; Claustres et al. [2000]; Guilloud-Bataille N1303K (1.83%) G551D (0.74%) et al. [2000] 1717-1G→A (1.35%) 1078delT (0.63%) W1282X (0.91%) ∆I507 (0.62%) R553X (0.86%) Y122K (0.59%) France ∆F508 (75.8%) R297Q (0.8%) 98.7 97.4 18 599/365 Férec et al. [1992]; Scotet et al. (Brittany) 1078delT (4.0%) R347H (0.8%) [2000] G551D (3.6%) I1234V (0.8%) N1303K (3.0%) R553X (0.8%) R117H (1.7%) 2789+5G→A (0.8%) 3272-26A→G (1.3%) 4005+1G→A (0.7%) G542X (1.1%) 621+1G→T (0.6%) 1717-1G→A (1.0%) ∆I507 (0.6%) G1249R (0.8%) W846X (0.5%) France ∆F508 (70.0%) N1303K (0.8%) 90.4 81.7 16 250 Claustres et al. [1993] (southern) G542X (6.4%) 3737delA (0.8%) 1717-1G→A (1.6%) R1162X (0.8%) L206W (1.2%) Y1092X (0.8%) R334W (1.2%) S945L (0.8%) ∆I507 (1.2%) K710X (0.8%) 2184delA (1.2%) 1078delT (0.8%) R1158X (1.2%) Y122X (0.8%) (Continued) BOBADILLAETAL. Login to comment

[hide] Analysis by mass spectrometry of 100 cystic fibros... Hum Reprod. 2002 Aug;17(8):2066-72. Wang Z, Milunsky J, Yamin M, Maher T, Oates R, Milunsky A
Analysis by mass spectrometry of 100 cystic fibrosis gene mutations in 92 patients with congenital bilateral absence of the vas deferens.
Hum Reprod. 2002 Aug;17(8):2066-72., [PMID:12151438]

Abstract [show]
BACKGROUND: Limited mutation analysis for congenital bilateral absence of the vas deferens (CBAVD) has revealed only a minority of men in whom two distinct mutations were detected. We aimed to determine whether a more extensive mutation analysis would be of benefit in genetic counselling and prenatal diagnosis. METHODS: We studied a cohort of 92 men with CBAVD using mass spectrometry and primer oligonucleotide base extension to analyse an approximately hierarchical set of the most common 100 CF mutations. RESULTS: Analysis of 100 CF mutations identified 33/92 (35.9%) patients with two mutations and 29/92 (31.5%) with one mutation, compound heterozygosity accounting for 94% (31/33) of those with two mutations. This panel detected 12.0% more CBAVD men with at least one mutation and identified a second mutation in >50% of those considered to be heterozygotes under the two routine 25 mutation panel analyses. CONCLUSION: Compound heterozygosity of severe/mild mutations accounted for the vast majority of the CBAVD patients with two mutations, and underscores the value of a more extensive CF mutation panel for men with CBAVD. The CF100 panel enables higher carrier detection rates especially for men with CBAVD, their partners, partners of known CF carriers, and those with 'mild' CF with rarer mutations.

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20 Given the frequency of CF mutations, especially in the Caucasian population ( in 25), and the common request by CBAVD men to sire their own offspring by using surgical Table I. The 100 most common cystic fibrosis mutations listed by exon Mutationa Exonb Frequency (%)c G85E 3 0.1 394delTT 3 Swedish E60X 3 Belgium R75X 3 405ϩ1G→A Int 3 R117H 4 0.30 Y122X 4 French 457TAT→G 4 Austria I148T 4 Canada (French Canadian) 574delA 4 444delA 4 R117L 4 621ϩ1G→T Int 4 0.72 711ϩ1G→T Int 5 Ͼ0.1 712-1G→T Int 5 711ϩ5G→A Int 5 Italy (Caucasian) L206W 6a R347P 7 0.24 1078delT 7 Ͼ0.1 R334W 7 Ͼ0.1 1154InsTC 7 T338I 7 Italy R347H 7 Turkey Q359K/T360K 7 Israel (Georgian Jews) I336K 7 R352Q 7 G330X 7 S364P 7 A455E 9 0.20 I507 10 0.21 F508 10 66.02 1609delCA 10 Spain (Caucasian) V520F 10 Q493X 10 C524X 10 G480C 10 Q493R 10 1717-1G→A Int 10 0.58 R553X 11 0.73 G551D 11 1.64 G542X 11 2.42 R560T 11 Ͼ0.1 S549N 11 Q552X 11 Italy S549I 11 Israel (Arabs) A559T 11 African American R553G 11 R560K 11 1812-1G→A Int 11 A561E 12 E585X 12 Y563D 12 Y563N 12 1898ϩ1G→A Int 12 0.22 1898ϩ1G→C Int 12 2183AA→G 13 Italian 2184delA 13 Ͻ0.1 K710X 13 2143delT 13 Moscow (Russian) 2184InsA 13 1949del84 13 Spain (Spanish) 2176InsC 13 2043delG 13 2307insA 13 2789ϩ5G→A Int 14b Ͼ0.1 2869insG 15 S945L 15 Q890X 15 3120G→A 16 2067 Table I. continued Mutationa Exonb Frequency (%)c 3120ϩ1G→A Int 16 African American 3272-26A→G Int 17a R1066C 17b Portugal (Portugese) L1077P 17b R1070Q 17b Bulgarian W1089X 17b M1101K 17b Canada (Hutterite) R1070P 17b R1162X 19 0.29 3659delC 19 Ͼ0.1 3849G→A 19 3662delA 19 3791delC 19 3821delT 19 Russian Q1238X 19 S1235R 19 France, South S1196X 19 K1177R 19 3849ϩ10kbC→T Int 19 0.24 3849ϩ4A→G Int 19 W1282X 20 1.22 S1251N 20 Dutch, Belgian 3905insT 20 Swiss, Acadian, Amish G1244E 20 R1283M 20 Welsh W1282R 20 D1270N 20 S1255X 20 African American 4005ϩ1G→A Int 20 N1303K 21 1.34 W1316X 21 aMutations were chosen according to their frequencies (Cystic Fibrosis Genetic Analysis Consortium, 1994; Zielenski and Tsui, 1995; Estivill et al., 1997). Login to comment

[hide] Highest heterogeneity for cystic fibrosis: 36 muta... Am J Med Genet. 2002 Dec 1;113(3):250-7. Kilinc MO, Ninis VN, Dagli E, Demirkol M, Ozkinay F, Arikan Z, Cogulu O, Huner G, Karakoc F, Tolun A
Highest heterogeneity for cystic fibrosis: 36 mutations account for 75% of all CF chromosomes in Turkish patients.
Am J Med Genet. 2002 Dec 1;113(3):250-7., 2002-12-01 [PMID:12439892]

Abstract [show]
We analyzed the CFTR locus in 83 Turkish cystic fibrosis patients to identify mutations, haplotypes, and the carrier frequency in the population. We detected 36 different mutations in 125 (75%) of the total 166 CF chromosomes. Seven novel mutations were identified: four missense (K68E, Q493P, E608G, and V1147I), two splice-site (406 -3T > C and 3849 +5G > A), and one deletion (CFTRdele17b,18). The data showed that the Turkish population has the highest genetic heterogeneity at the CFTR locus reported so far. The results of this thorough molecular analysis at the CFTR locus of a population not of European descent shows that CF is not uncommon in all such populations. The large number of mutations present, as well as the high heterogeneity in haplotypes associated with the mutations suggests that most of the mutations have persisted for a long time in the population. Consistently, the carrier frequency is assessed to be high, indicating that the disease in the population is ancient.

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80 Haplotypes Associated With the Mutations Identified in 83 Turkish CF Patients* Mutation Total number of alleles Number of alleles Number of patients Haplotypes Homo Hetero DF508 39 (23.5) 6 7 23 M 28 13 1 0 1 6 7 23 M 30 13 1 0 1 6 9 23 M 31 13 1 0 1 6 7 23 M 31 13 11 4 3 6 7 23 M 7 17 2 0 2 6 7 16 M 31 13 3 1 1 6 7 17 M 31 13 17 5 7 6 7 17 M 32 13 3 1 1 1677delTA 12 (7.2) 7 7 16 V 30 13 12 5 2 2183AA > G 7 (4.2) 7 7 16 M 30 13 1 0 1 7 9 16 M 31 13 4 2 0 7 7 16 M 32 13 2 1 0 G542X 6 (3.6) 6 7 23 M 32 13 6 3 0 F1052V 5 (3.0) 6 7 17 M 7 13 4 1 2 7 5 17 M 7 17 1 0 1 W1282X 5 (3.0) 7 7 17 M 7 17 4 1 2 7 7 17 M 7 18 1 0 1 E92K 4 (2.4) 7 7 16 V 46 13 3 1 1 7 7 17 V 46 13 1 0 1 1525 À 1G > A 4 (2.4) 7 7 17 M 7 17 4 2 0 2789 þ 5G > A 4 (2.4) 7 9 17 M 7 17 3 1 1 7 5 17 M 7 17 1 0 1 N1303K 4 (2.4) 7 7 23 M 31 13 2 0 2 6 7 22 M 30 13 1 0 1 6 7 23 M 30 13 1 0 1 A46D 3 (1.8) 6 9 23 M 31 13 1 0 1 6 7 23 M 31 13 2 1 0 2184insA 3 (1.8) 7 5 17 V 30 13 1 0 1 7 7 16 V 30 13 2 0 2 R1070Q 3 (1.8) 7 7 16 M 31 13 1 0 1 7 7 17 M 31 13 2 0 2 Q493Pa 2 (1.2) 6/7 5 16 M 46 13 2 1 0 3849 þ 5G > Aa 2 (1.2) 7 7 16 M 31 13 2 1 0 CFTRdele17b,18a 2 (1.2) 6 9 16 V - - 2 1 0 K68Ea 1 (0.6) 6 9 17 M 7 13 1 0 1 R74W 1 (0.6) 6 7 16 M 32 16 1 0 1 306delTAGA 1 (0.6) 7 7 16 M 7 17 1 0 1 D110H 1 (0.6) 7 9 16 V 30 13 1 0 1 I125T 1 (0.6) 6 7 23 V 7 16 1 0 1 406 À 3T > Ca 1 (0.6) 7 7 16 V 33 17 1 0 1 I148T 1 (0.6) 6/7 7 16/17 M 7 17/23 1 0 1 621 þ 1G > T 1 (0.6) 6 7 21 V 31 13 1 0 1 R347P 1 (0.6) 7 9 17 V 30 13 1 0 1 S466X 1 (0.6) 7 7 23 M 33 13 1 0 1 L571S 1 (0.6) 7 7 16 V 29 13 1 0 1 1717 À 1G > A 1 (0.6) 7 9 17 M 7 16 1 0 1 E608Ga 1 (0.6) 7 9 16 M/V 29/31 13 1 0 1 2043delG 1 (0.6) 7 9 17 M 7 17 1 0 1 P1013L 1 (0.6) 6 5 16 M 21 18 1 0 1 R1066L 1 (0.6) 7 7 17 M 7 13 1 0 1 3129del4 1 (0.6) 7 7 16 V 29 13 1 0 1 V1147Ia 1 (0.6) 6 7 17 M 33 17 1 0 1 S1235R 1 (0.6) 6 7 17 M 39 13 1 0 1 CFTRdele2,3 1 (0.6) 7 7 16 V 33 13 1 0 1 Total 125 (75) 125 32 61 *The order of the polymorphisms is IVS6GATT, Tn, IVS8CA, M470V, IVS17BTA and IVS17BCA. Login to comment

[hide] Atypical cystic fibrosis--diagnostic and managemen... J R Soc Med. 2003;96 Suppl 43:2-10. Wallis C
Atypical cystic fibrosis--diagnostic and management dilemmas.
J R Soc Med. 2003;96 Suppl 43:2-10., [PMID:12906319]

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112 If co-inherited, it appears to act in a dominant fashion over deltaF508, causing less severe lung disease.28 The clinical significance of polymorphisms such as the missense mutation S1235R is also generating interest. Login to comment

[hide] CFTR genotypes in patients with normal or borderli... Hum Mutat. 2003 Oct;22(4):340. Feldmann D, Couderc R, Audrezet MP, Ferec C, Bienvenu T, Desgeorges M, Claustres M, Mittre H, Blayau M, Bozon D, Malinge MC, Monnier N, Bonnefont JP, Iron A, Bieth E, Dumur V, Clavel C, Cazeneuve C, Girodon E
CFTR genotypes in patients with normal or borderline sweat chloride levels.
Hum Mutat. 2003 Oct;22(4):340., [PMID:12955726]

Abstract [show]
In recent years, some patients bearing "atypical" forms of cystic fibrosis (CF) with normal sweat chloride concentrations have been described. To identify the spectrum of mutant combinations causing such atypical CF, we collected the results of CFTR (ABCC7) mutation analysis from 15 laboratories. Thirty patients with one or more typical symptoms of the disease associated with normal or borderline sweat chloride levels and bearing two CFTR mutations were selected. Phenotypes and genotypes of these 30 patients are described. A total of 18 different CFTR mutations were observed in the 60 chromosomes analysed. F508del was present in 31.6 % of the mutated chromosomes and 3849+10kbC>T in 13.3 %. R117H, D1152H, L206W, 3272-26A>G, S1235R, G149R, R1070W, S945L, and the poly-T tract variation commonly called IVS8-5T were also observed. The relative frequency of CFTR mutations clearly differed from that observed in typical CF patients or in CBAVD patients with the same ethnic origin. A mild genotype with one or two mild or variable mutations was observed in all the patients. These findings improve our understanding of the distribution of CFTR alleles in CF with normal or borderline sweat chloride concentrations and will facilitate the development of more sensitive CFTR mutation screening.

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8 R117H, D1152H, L206W, 3272-26A>G, S1235R, G149R, R1070W, S945L, and the poly-T tract variation commonly called IVS8-5T were also observed. Login to comment
44 Table 1 : Genotypes and Phenotypes of Patients with Normal or BordIerline Sweat Tests Patient Age at diagnosis (years) CFTR GENOTYPE* Allele 1 Allele 2 SWEAT CL- MEAN (MMOL/L) PHENOTYPE 1 0.2 F508del G149R 38 P+PI, neonatal hypertrypsinemia, 2 0.3 G551D R117H-7T 31 neonatal hypertrypsinemia 3 0.4 F508del R1070W 30.5 neonatal hypertrypsinemia 4 0.4 F508del R117H-7T 52 P 5 0.6 F508del 3849+10kbC>T 48 P 6 0.11 F508del S945L 58 P+PI 7 1 F508del 5T 40 P+CBAVD 8 2 F508del L206W 53 P 9 2 W1282X 5T 42.5 P 10 5 F508del 3849+10kbC>T 55.5 P 11 5 F508del L206W 55 P 12 5 G91R 5T 47.5 P 13 6 G551D S1235R+5T 49.5 P, neonatal hypertrypsinemia 14 7 F508del 3849+10kb 50 P, nasal popyposis 15 13 F508del R117H-7T 58 P, nasal polyposis 16 18 F508del 5T 60.5 P 17 20 G542X 3849+10kbC>T 52 P+PI 18 21 I507del 3849+10kbC>T 54 P, bronchiectasis 19 30 R347P 3849+10kbC>T 43 P, Pseudomonas colonisation 20 30 I507del L206W 57.5 CBAVD, chronic cough 21 31 F508del R117H-7T 60 CBAVD 22 32 G542X 3849+10kbC>T 30 P, Pseudomonas colonisation 23 34 F508del 3272-26A>G 64 P, CBAVD 24 37 R1070Q D1152H 56 CBAVD, bronchectasis 25 46 F508del D1152H 43 P 26 55 F508del D1152H 48 P, Pseudomonas colonisation 27 56 I507del S1235R 53 P 28 >18 F508del D1152H 60 P+PI 29 >20 F508del 3849+10kbC>T 18 P, bronchiectasis 30 >20 F508del 3272-26A>G 61 P *All mutations are named in accordance with the numbering used in the CFTR Mutation Database: http://www.genet.sickkids.on.ca/cftr/. Login to comment
56 One patient had a complex allele with S1235R and IVS8(5T). Login to comment
92 We have observed four patients with the IVS8(5T) variant and a severe mutation in trans and one patient with the complex allele S1235R-5T. Login to comment
101 The other mutations observed in trans of severe mutations were G149R, R1070W, S945L and S1235R. Login to comment
102 G149R and R1070W mutations have been previously described in CBAVD patients [Mercier et al., 1995; Jezequel et al., 2000] and S1235R have been described associated with variable pulmonary symptoms and occasionally borderline sweat tests [Monagham et al., 2000]. Login to comment

[hide] Isolated idiopathic chronic pancreatitis associate... Gastroenterol Clin Biol. 2003 Aug-Sep;27(8-9):821-4. Reboul MP, Laharie D, Amouretti M, Lacombe D, Iron A
Isolated idiopathic chronic pancreatitis associated with a compound heterozygosity for two mutations of the CFTR gene.
Gastroenterol Clin Biol. 2003 Aug-Sep;27(8-9):821-4., [PMID:14586256]

Abstract [show]
We report the case of a patient suffering from idiopathic chronic pancreatitis (ICP) and compound heterozygous for mutations G542X and S1235R of the cystic fibrosis transmembrane regulator (CFTR) gene. The patient had normal sweat test and no other clinical sign usually linked with a typical or moderate pathology (bronchiectasis, nasal polyposis, congenital absence of the vas deferens) of the CFTR gene. G542X is a severe mutation, which is usually found in classical cystic fibrosis when associated with other severe mutations. S1235R is a quite rare abnormality recently reported as being potentially pathogenic when combined in trans with a second CF mutation. Our case is quite similar to the only other six patients in the literature in whom only the pancreas is affected and who bear a rare mutation with moderate effect. The history and the clinical features of our patient indicate an unambiguous isolated ICP in which the presence of the S1235R mutation--in trans with regard to G542X--is likely responsible for the ICP phenotype. This case could throw light on some of the as yet poorly known abnormalities of the CFTR gene in the ICP phenotype.

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1 SUMMARY We report the case of a patient suffering from idiopathic chronic pancreatitis (ICP) and compound heterozygous for mutations G542X and S1235R of the cystic fibrosis transmembrane regulator (CFTR) gene. Login to comment
4 S1235R is a quite rare abnormality recently reported as being potentially pathogenic when combined in trans with a second CF mutation. Login to comment
6 The history and the clinical features of our patient indicate an unambiguous isolated ICP in which the presence of the S1235R mutation - in trans with regard to G542X - is likely responsible for the ICP phenotype. Login to comment
8 RE´SUME´ Pancréatite chronique idiopathique isolée associée à une hétérozygotie composite pour deux mutations du gène CFTR Marie-Pierre REBOUL, David LAHARIE, Michel AMOURETTI, Didier LACOMBE, Albert IRON (Gastroenterol Clin Biol 2003;27:821-824) Nous rapportons le cas d`un malade souffrant de pancréatite chronique idiopathique (PCI) hétérozygote composite pour les mutations G542X et S1235R du gène CFTR. Login to comment
11 S1235R est une anomalie assez rare, rapportée récemment comme étant potentiellement délétère quand elle est associée en trans à une autre mutation du gène CFTR. Login to comment
13 L`histoire et le tableau clinique de la maladie chez notre malade évoquent de manière complète et sans ambiguïté une PCI isolée dans laquelle la présence de la mutation S1235R - en position trans par rapport à G542X - est très vraisemblablement responsable du phénotype de pancréatite chronique idiopathique. Login to comment
23 He had an original compound heterozygosity for the severe G542X mutation and the mild S1235R mutation. Login to comment
46 This revealed the presence of the S1235R mutation in exon 19 (T>G at nucleotide 3837). Login to comment
67 In five patients (no 5, 9, 10, 11, 15) who bear a frequent mutation well known for its severity (F508del or G542X), the involvement of the ICP phenotype could lie in their "second" missense mutation, i.e. L997F in exon 17b (Patient no 5), I1027T in exon 17a (Patient no 9), D1152H in exon 18 (Patients no 10 and 11) and S1235R in exon 19 (Patient no 15); and the presence of 2 of these 4 missense mutations in patient no 7 could actually strengthen this hypothesis but to date little is known about the possible impact of his 5T allele on the phenotype (possible sterility). Login to comment
74 Particular interest should be paid to the S1235R mutation of our patient. Login to comment
75 It is a rare moderate mutation recently studied by Cuppens`s team [16] who showed that the deleterious character Fig. 2 - Pedigree of the family (limited to the subjects investigated) with mention of the haplotypes IVS8CA-TGm-Tn-M470V-IVS17bTA-IVS17bCA and the presence or absence (-) of the 2 familial mutations G542X (exon 10) and S1235R (exon 19). Login to comment
76 ↑ proband Arbre généalogique de la famille (limité aux sujets analysés) avec mention des haplotypes IVS8CA-TGm-Tn-M470V-IVS17bTA-IVS17bCA et de la présence ou de l`absence (-) des 2 mutations familiales G542X (exon 10) et S1235R (exon 19). Login to comment
80 Patient CFTR no PolyT genotype Sex genotype Age (years) Sweat chloride (mmol/L) Anamnestic features known to be associated with atypical CF Reference 1 F508del/R117H 9T/7T M 45 29 CBAVD [4] 2 N1303K/R117H 9T/7T F n.a. 37 bronchiectasis, sinusitis, positive NPD [5] 3 R1162X/2789+5G>A 7T/7T F n.a. 108 chronic cough [5] 4 I336K/R75Q 7T/7T F 26 26 nasal polyposis [7] 5 F508del/L997F 9T/7T M 17 24 none [11] 6 3849+10kbC>T/3878delG 7T/7T M 14 n.a. none [11] 7 S1235R/L997F 5T/7T M 27 25 none [11] 8 F508del/R117H n.a. M 45 29 CBAVD, smooth P. aeruginosa [12] 9 F508del/I1027T n.a. F 32 59 none [12] 10 F508del/D1152H n.a. M 8 62 none [12] 11 F508del/D1152H n.a. F 15 32 none [12] 12 F508del/P574H n.a. F 26 81 sinus surgery, S. aureus, S. maltophilia [12] 13 F508del/3120G>A n.a. F 40 n.a. n.a. [12] 14 F508del/G1069R n.a. M 16 n.a. n.a. [12] 15 G542X/S1235R 7T/7T M 35 15 none [this study] n.a.: not available. Login to comment
86 At the same time, Monaghan et al. [17] considered that S1235R - when combined with a second CF mutation - may be pathogenic. Login to comment
87 In conclusion, among the 7 PCI patients so far reported as compound heterozygous for two mutations of the CFTR gene and bearers of a pathology limited to the pancreas, our patient, with his detailed clinical investigation showing the isolated nature of the pancreas damage, could be one of the most interesting cases of compound heterozygosity for two mutations of the CFTR gene, including one (S1235R), which is not very common in the different forms of cystic fibrosis. Login to comment
90 If so, this would deprive us of information about rare mutations which - like the S1235R mutation in the patient reported here - could explain more specifically the ICP phenotype. Login to comment

[hide] Different CFTR mutational spectrum in alcoholic an... Pancreas. 2004 May;28(4):374-9. Casals T, Aparisi L, Martinez-Costa C, Gimenez J, Ramos MD, Mora J, Diaz J, Boadas J, Estivill X, Farre A
Different CFTR mutational spectrum in alcoholic and idiopathic chronic pancreatitis?
Pancreas. 2004 May;28(4):374-9., [PMID:15097853]

Abstract [show]
OBJECTIVE: Cystic fibrosis transmembrane conductance regulator (CFTR) mutations are responsible for cystic fibrosis (CF) and have been postulated as a predisposing risk factor to chronic pancreatitis (CP), but controversial results demand additional support. We have therefore investigated the role of the CFTR gene in a cohort of 68 CP patients. METHODS: We have performed the CFTR gene analysis using 2 screening techniques. Fragments showing abnormal migration patterns were characterized by sequencing. Patients were classified in alcoholic (ACP) (n = 37) and idiopathic (ICP) (n = 31) chronic pancreatitis. Clinical features of CP and CF were evaluated. RESULTS: Sixteen mutations/variants were identified in 27 patients (40%), most of them (35%) presenting a single CFTR mutant gene. The 1716G/A variant showed the highest frequency accounting for 22% in ICP and 5% in ACP, in contrast with other more common mutations such as F508del found in 8% of ACP and the 5T variant identified in 7% of patients. Acute pancreatitis, abdominal pain, tobacco, pancreatic calcifications, and pancreatic pseudocysts showed significant higher values in ACP than ICP patients. No significant differences were found between patients with and without CFTR mutations. CONCLUSIONS: Apart from reinforcing previous findings our data highlight the increased susceptibility of CFTR heterozygous to developing CP. Heterozygosity, combined with other factors, places these individuals at greater risk.

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63 Time Years BMI Alcohol Alcohol Time Years Tobacco Pancreatic Features Hepatobiliary Disease CFTR Genotype Sweat Test mmol/L FEV1/FVC % Predicted Male Fertility Alcoholic Chronic Pancreatitis (n = 15) 1 M/52 15 24.5 110g/d 27 yes AP, P, Ps, DM, PI Chronic hepatitisa F508del/S1235R 18 105/107 yes 2 M/72 15 23.4 85g/d 22 yes AP, P, C, PS no F508del/1716G/A 72 90/104 yes 3 M/53 10 21.9 135g/d 20 yes P, C, DM, PI no F508del/- 54 71/89 yes 4 M/64 18 20.7 250g/d 27 yes AP, P, C, Ps, DM, PI cirrhosis, lithiasis W1282X/- 68 71/78 unproved 5 M/44 13 22.0 95g/d 6 yes AP, P, C, Ps, DM, PI lithiasis R170C/- 16 105/111 yes 6 M/62 12 22.1 >60g/d >5 yes AP, P, C, Ps, DM, PS no R258G/- 82 73/82 yes 7 M/38 9 18.0 210g/d 15 yes AP, P, C, Ps, PS no M281T/- 62 132/126 yes 8 M/40 11 - >60g/d >5 yes AP, P, C, Ps, PS lithiasis R297Q/- 46 103/99 yes 9 M/42 2 21.4 150g/d 20 yes AP, P, C, Ps, PS no 1716G/A/- 19 93/102 yes 10 M/44 3 22.2 95g/d 22 yes AP, P, DM, PS no R668C/- 58 105/102 yes 11 M/59 6 21.8 90g/d 18 yes PS lithiasis L997F/- 85 69/84 nd 12 M/72 16 - >60g/d >5 no P, C, DM, PI lithiasis R1162L/- - - yes 13 M/35 8 21.0 90g/d 7 yes AP, P, C, PS no 5T-12TG-V470/- 13 106/114 unproved 14 M/60 14 28.0 80g/d 20 no AP, P, C, Ps, DM, PI no 5T-11TG/- 28 80/77 yes 15 M/65 12 24.4 100g/d 23 yes AP, P, C, DM, PS no 5T-11TG/ 40 86/110 yes Idiopathic Chronic Pancreatitis (n = 12) 16 M/21 5 - no - yes AP, P, PS no 1716G/A/R170H 40 normal yes 17 M/59 4 24.2 no - no PS chronic hepatitisb 1716G/A/- 40 146/128 yes 18 M/63 14 21.4 no - no DM, PI no 1716G/A/- 34 144/126 yes 19 M/70 18 19.9 no - yes AP, P, DM, PI chronic hepatitisa 1716G/A/- 60 36/47 yes 20 M/65 1 27.7 no - yes P, Ps, DM, PI no 1716G/A/- 38 79/78 yes 21 M/76 8 24.1 no - no AP, P, DM, PS no 1716G/A/- 60 81/109 yes 22 M/25 2 25.0 no - yes AP, P, PS no 1716G/A/- 48 94/86 nd 23 F/42 10 22.6 no - yes P, C, PS lithiasis P205S/- 72 111/109 - 24 F/81 21 34.6 no - no P, C, DM, PI lithiasis D443Y+G+R*/- 42 121/108 - 25 F/72 8 23.3 no - yes AP, C, PS no L997F/- 40 100/93 - 26 M/9 2 19.2 no - no AP, P, PS no 5T-11TG/- 30 101/110 nd 27 M/63 6 - no - no C, DM, PI cirrhosis 5T-11TG/- - - yes a C virus hepatitis. Login to comment

[hide] Atypical sinusitis in adults must lead to looking ... Laryngoscope. 2004 May;114(5):839-43. Coste A, Girodon E, Louis S, Pruliere-Escabasse V, Goossens M, Peynegre R, Escudier E
Atypical sinusitis in adults must lead to looking for cystic fibrosis and primary ciliary dyskinesia.
Laryngoscope. 2004 May;114(5):839-43., [PMID:15126740]

Abstract [show]
HYPOTHESES/OBJECTIVES:: In adults, purulent pansinusitis or nasal polyposis starting early in life or that is permanently infected or associated either with chronic bronchial infection, infertility, or situs inversus are uncommon. In these atypical cases of chronic sinusitis (ACS), a primary dysfunction of the mucociliary clearance can be suspected. Adult patients with ACS were therefore investigated to detect primary ciliary dyskinesia (PCD) or cystic fibrosis (CF). STUDY DESIGN: Open, prospective study. PATIENTS AND METHODS: Forty-two patients with ACS were investigated with ciliary beat frequency and ultrastructure analysis in nasal cells and cystic fibrosis transmembrane conductance regulator (CFTR) gene mutation analysis in blood leukocytes. RESULTS: The diagnosis of PCD was confirmed in seven (17%) patients. At least one CFTR gene mutation was detected in 16 (38%) patients. The diagnosis of CF was suggested in three (7%) compound heterozygous patients. Another 13 (31%) patients were heterozygous for a CFTR gene mutation or a complex allele. Comparison of clinical features of ACS showed that only a family history of chronic sinusitis (P <.01) or chronic bronchitis (P <.02) and the presence of diffuse bronchiectasis (P <.0001) or serous otitis media (P <.0001) were significantly more frequent in PCD patients than in patients carrying CFTR gene mutations or those without PCD or CFTR gene mutations. CONCLUSIONS: ACS should be considered a remarkable entity in which congenital abnormalities of epithelial cells are frequently detected (55% of patients). The higher frequency of mutations in ACS patients compared with the general population suggests that heterozygoty for CFTR gene mutation could be a sinusitis-causing status.

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85 Patients CFTR Gene Mutation(s) Sweat Test (mmol/L) CFTR 1 ⌬F508* 3849 ؉ 10kbC3T* 97 CFTR 2 ⌬F508* 3272-26A3G NA CFTR 3 2143delT S1235R NA CFTR 4 R74W-D1270N - NA CFTR 5 G576A-R668C - NA CFTR 6 IVS8-5T - NA CFTR 7 IVS8-5T - NA CFTR 8 R170C - 32 CFTR 9 ⌬F508* - NA CFTR 10 IVS8-5T - 44 CFTR 11 G1069R - 52 CFTR 12 IVS8-5T - 36 CFTR 13 IVS8-5T - NA CFTR 14 G551D* - NA CFTR 15 G542X* - Ͻ40 CFTR 16 F1074L - NA *Mutations detected with the CF-oligonulcleotide ligation assay kit. Login to comment

[hide] Population-based newborn screening for genetic dis... Pediatrics. 2004 Jun;113(6):1573-81. Comeau AM, Parad RB, Dorkin HL, Dovey M, Gerstle R, Haver K, Lapey A, O'Sullivan BP, Waltz DA, Zwerdling RG, Eaton RB
Population-based newborn screening for genetic disorders when multiple mutation DNA testing is incorporated: a cystic fibrosis newborn screening model demonstrating increased sensitivity but more carrier detections.
Pediatrics. 2004 Jun;113(6):1573-81., [PMID:15173476]

Abstract [show]
OBJECTIVES: Newborn screening for cystic fibrosis (CF) provides a model to investigate the implications of applying multiple-mutation DNA testing in screening for any disorder in a pediatric population-based setting, where detection of affected infants is desired and identification of unaffected carriers is not. Widely applied 2-tiered CF newborn screening strategies first test for elevated immunoreactive trypsinogen (IRT) with subsequent analysis for a single CFTR mutation (DeltaF508), systematically missing CF-affected infants with any of the >1000 less common or population-specific mutations. Comparison of CF newborn screening algorithms that incorporate single- and multiple-mutation testing may offer insights into strategies that maximize the public health value of screening for CF and other genetic disorders. The objective of this study was to evaluate technical feasibility and practical implications of 2-tiered CF newborn screening that uses testing for multiple mutations (multiple-CFTR-mutation testing). METHODS: We implemented statewide CF newborn screening using a 2-tiered algorithm: all specimens were assayed for IRT; those with elevated IRT then had multiple-CFTR-mutation testing. Infants who screened positive by detection of 1 or 2 mutations or extremely elevated IRT (>99.8%; failsafe protocol) were then referred for definitive diagnosis by sweat testing. We compared the number of sweat-test referrals using single- with multiple-CFTR-mutation testing. Initial physician assessments and diagnostic outcomes of these screened-positive infants and any affected infants missed by the screen were analyzed. We evaluated compliance with our screening and follow-up protocols. All Massachusetts delivery units, the Newborn Screening Program, pediatric health care providers who evaluate and refer screened-positive infants, and the 5 Massachusetts CF Centers and their affiliated genetic services participated. A 4-year cohort of 323 506 infants who were born in Massachusetts between February 1, 1999, and February 1, 2003, and screened for CF at approximately 2 days of age was studied. RESULTS: A total of 110 of 112 CF-affected infants screened (negative predictive value: 99.99%) were detected with IRT/multiple-CFTR-mutation screening; 2 false-negative screens did not show elevated IRT. A total of 107 (97%) of the 110 had 1 or 2 mutations detected by the multiple- CFTR-mutation screen, and 3 had positive screens on the basis of the failsafe protocol. In contrast, had we used single-mutation testing, only 96 (87%) of the 110 would have had 1 or 2 mutations detectable by single-mutation screen, 8 would have had positive screens on the basis of the failsafe protocol, and an additional 6 infants would have had false-negative screens. Among 110 CF-affected screened-positive infants, a likely "genetic diagnosis" was made by the multiple-CFTR-mutation screen in 82 (75%) versus 55 (50%) with DeltaF508 alone. Increased sensitivity from multiple-CFTR-mutation testing yielded 274 (26%) more referrals for sweat testing and carrier identifications than testing with DeltaF508 alone. CONCLUSIONS: Use of multiple-CFTR-mutation testing improved sensitivity and postscreening prediction of CF at the cost of increased referrals and carrier identification.

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133 † An additional 2 infants have been shown to have 2 CFTR DNA variants when mother`s prenatal DNA testing on a subsequent pregnancy prompted infant genotyping; neither infant meets CFF criteria for diagnosis (one is ⌬F508/S1235R, has sweat-test-negative results, and is well; the other is ⌬F508/R117H 7T/7T, has sweat-test-borderline results, and is well). Login to comment

[hide] Characterization of cystic fibrosis conductance tr... Hum Reprod. 2004 Nov;19(11):2502-8. Epub 2004 Aug 27. Grangeia A, Niel F, Carvalho F, Fernandes S, Ardalan A, Girodon E, Silva J, Ferras L, Sousa M, Barros A
Characterization of cystic fibrosis conductance transmembrane regulator gene mutations and IVS8 poly(T) variants in Portuguese patients with congenital absence of the vas deferens.
Hum Reprod. 2004 Nov;19(11):2502-8. Epub 2004 Aug 27., [PMID:15333598]

Abstract [show]
BACKGROUND: Cystic fibrosis conductance transmembrane regulator (CFTR) gene mutations and IVS8 poly(T) variants in Portuguese patients with bilateral (CBAVD) and unilateral (CUAVD) congenital absence of the vas deferens remain to be evaluated. METHODS: Patient screening was carried out by PCR, denaturing gradient gel electrophoresis and DNA sequencing. RESULTS: CFTR mutations were found in 18 out of 31 (58.1%) CBAVD and in three of four (75%) CUAVD patients. The most frequent mutations were F508del and R334W in CBAVD and G542X in CUAVD, with the allelic frequencies of R334W (6.5%) and G542X (25%) being particular to the Portuguese population. The 5T allelic frequency was 3.5% in the fertile male population, 25% in CUAVD and 27.4% in CBAVD patients. The combined frequency of mutations (CFTR+5T) was increased in CBAVD to 22 out of 31 (71%). The frequency of CFTR mutations was compared with that of patients with secondary obstructive azoospermia (OAZ; one out of 16, 6.3%) and non-obstructive azoospermia (NOAZ; two out of 22, 9.1%) with conserved spermatogenesis, which were similar to the general population. However, whereas the 5T allelic frequency in OAZ was similar to that of the general population (3.1%), it was increased in NOAZ cases (14.3%). CONCLUSIONS: Data confirm that CFTR+5T mutations represent the most common genetic abnormality in CAVD, and suggest that cases of NOAZ may be associated with the 5T allele.

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93 A, S1235R, I507del and 3272-26A ! Login to comment
105 A/S1235R 1 1 - 5/7 F508del/- 6 - 6 5/9 (£6) I507del/- 1 - 1 7/9 G576A-R668C/- 1 - 1 5/7 P205S/- 1 - 1 5/5 R334W/- 1 - 1 7/7 G576A/- 1 - 1 7/7 3272-26A ! Login to comment

[hide] Genotype-phenotype correlation and frequency of th... Genet Med. 2004 Sep-Oct;6(5):421-5. Monaghan KG, Highsmith WE, Amos J, Pratt VM, Roa B, Friez M, Pike-Buchanan LL, Buyse IM, Redman JB, Strom CM, Young AL, Sun W
Genotype-phenotype correlation and frequency of the 3199del6 cystic fibrosis mutation among I148T carriers: results from a collaborative study.
Genet Med. 2004 Sep-Oct;6(5):421-5., [PMID:15371907]

Abstract [show]
PURPOSE: We expect that the mutation panel currently recommended for preconception/prenatal CF carrier screening will be modified as new information is learned regarding the phenotype associated with specific mutations and allele frequencies in various populations. One such example is the I148T mutation, originally described as a severe CF mutation. After implementation of CF population-based carrier screening, we learned that I148T exists as a complex allele with 3199del6 in patients with clinical CF, whereas asymptomatic compound heterozygotes for I148T and a second severe CF mutation were negative for 3199del6. METHODS: We performed reflex testing for 3199del6 on 663 unrelated specimens, including I148T heterozygotes, compound heterozygotes, and a homozygous individual. RESULTS: Less than 1% of I148T carriers were also positive for 3199del6. Excluding subjects tested because of a suspected or known CF diagnosis or positive family history, 0.6% of I148T-positive individuals were also positive for 3199del6. We identified 1 I148T homozygote and 6 unrelated compound heterozygous individuals with I148T and a second CF variant (2 of whom also carried 3199del6). In addition, one fetus with echogenic bowel and one infertile male were heterozygous for I148T (3199del6 negative). CONCLUSIONS: Reflex testing for 3199del6 should be considered whenever I148T is identified. Reflex testing is of particular importance for any symptomatic patient or whenever one member of a couple carries a deleterious CF mutation and the other member is an I148T heterozygote. Further population data are required to determine if I148T, in the absence of 3199del6, is associated with mild or atypical CF or male infertility.

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48 An unaffected I148T homozygote (Case 1) was detected during routine prenatal screening. Three males (cases 2-4) with congenital bilateral absence of the vas deferens (CBAVD) (I148T/ ⌬F508), obstructive azoospermia (I148T carrier), and infertility (I148T/S1235R) were identified, the latter 2 negative for 5T at the intron 8 polyT locus. Login to comment
111 A male with unspecified infertility was compound heterozygous for I148T and S1235R (7T/9T)20 and a male with CBAVD was compound heterozygous for I148T and ⌬F508 (polyT status not determined). Login to comment

[hide] A large-scale study of the random variability of a... Eur J Hum Genet. 2005 Feb;13(2):184-92. Modiano G, Bombieri C, Ciminelli BM, Belpinati F, Giorgi S, Georges M, Scotet V, Pompei F, Ciccacci C, Guittard C, Audrezet MP, Begnini A, Toepfer M, Macek M, Ferec C, Claustres M, Pignatti PF
A large-scale study of the random variability of a coding sequence: a study on the CFTR gene.
Eur J Hum Genet. 2005 Feb;13(2):184-92., [PMID:15536480]

Abstract [show]
Coding single nucleotide substitutions (cSNSs) have been studied on hundreds of genes using small samples (n(g) approximately 100-150 genes). In the present investigation, a large random European population sample (average n(g) approximately 1500) was studied for a single gene, the CFTR (Cystic Fibrosis Transmembrane conductance Regulator). The nonsynonymous (NS) substitutions exhibited, in accordance with previous reports, a mean probability of being polymorphic (q > 0.005), much lower than that of the synonymous (S) substitutions, but they showed a similar rate of subpolymorphic (q < 0.005) variability. This indicates that, in autosomal genes that may have harmful recessive alleles (nonduplicated genes with important functions), genetic drift overwhelms selection in the subpolymorphic range of variability, making disadvantageous alleles behave as neutral. These results imply that the majority of the subpolymorphic nonsynonymous alleles of these genes are selectively negative or even pathogenic.

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33 In the Tajima`s test,19 the null hypothesis of neutrality is rejected if a statistically significant difference between p Common and rare nonsynonymous and synonymous cSNSs G Modiano et al European Journal of Human Genetics Table 1 List of the 61 cSNSsa encountered in the present survey The random samples of genes (and the technique utilized) cSNS variants found NE Italy (DGGE) Central Italy (DGGE) Southern France (DGGE) Northern France (DHPLC) Spain (SSCA) Czechia (DGGE) Hb Â 104 Exon Exon Length (bp) Ref. no. SNS SASc 1st 100d 2nd 500 1st 100d 2nde 1st 100d 2nd 500 1st 100 2nde 82d 72 Abs. Freq. Total sample size q Â 104 se Â 104 NSf Sf 1g 53 0 0 0 0 0/452 0 924 2 111 1 223C4T R31C 1 1 1/500 1 1 0 0/450 0 5 (11) 1 932 (2 432) 45.23 13.61 90 2 224G4T R31L 0 0 0/500 0 0 0 1/450 0 1 1 932 5.17 5.17 10 3 257C4T S42F 0 0 1/500 0 0 0 0/450 0 1 1 932 5.17 5.17 10 3 109 4 334A4G K68E 1 0 0 0/498 0 0 0 0/452 0 0 1 2 504 3.99 3.99 8 5 352C4T R74W 0 0 0 0/498 0 0 0 1/452 0 0 1 2 504 3.99 3.99 8 6 356G4A R75Q 1 7 1 7/498 2 9 2 9/452 0 2 40 (40) 2 504 (2 544) 157.23 24.66 310 7 386G4A G85E 0 0 1 1/498 0 0 0 0/452 0 0 2 2 504 7.99 5.65 16 4 216 8 482G4A R117H 0 0 0 0/292 0 2 0 1/456 0 0 3 2 302 13.03 7.52 26 9 528T4G I132M 0 0 0 0/292 0 0 0 1/456 0 0 1 2 302 4.34 4.34 8 10 575T4C I148T 1 2 0 1/292 0 0 0 1/456 0 1 6 2 302 26.06 10.63 52 5 90 11 640C4T R170C 0 0 0 0/6 0 0 1/448 0 1 1 436 6.96 6.96 14 12 641G4A R170H 1 1 0 0/6 0 0 2/448 0 4 (4) 1 436 (1 930) 20.73 10.35 41 6a 164 0 0 0/6 0 0 0/432 0 0 992 6b 126 0 0 0/6 0 0 0/454 0 942 7 247 0 0 0/6 0 0 0/796 0 1 284 8 93 13 1281G4A L383 0 0 0 0/6 0 0 1/456 0 0 1 1 516 6.60 6.60 13 9 183 14 1402G4A G424S 0 0 0/6 0 0 1/454 0 1 940 10.64 10.64 21 15 1459G4T D443Y 0 0 0/6 0 0 1/454 0 1 940 10.64 10.64 21 10 192 16 1540A4G M470Vh 42 197 30 37/96 39 199 (i) (i) 27 571(736) 1 484 (1 912) 3849.37 111.28 4 735 17 1598C4A S489X 0 0 0 0/96 0 0 0 1/796 0 1 2 374 4.21 4.21 8 18 1648A4G I506V 1 0 0 0/96 0 0 0 0/796 0 1 2 374 4.21 4.21 8 19 1655T4G F508C 0 1 0 0/96 0 0 0 1/796 0 2 2 038 8.42 5.96 17 20 1716G4A Q528 2 16 1 0/96 0 19 i I 5 43 (58) 1 478 (2 024) 286.56 37.08 557 11 95 21 1756G4T G542X 0 2 0 0/134 0 0 0/796 0 0 2 1 984 10.08 7.12 20 22 1764T4G G544 0 0 0 0/134 0 0 1/796 0 0 1 1 984 5.04 5.04 10 23 1784G4A G551D 0 0 0 0/134 0 0 1/796 0 0 1 1 984 5.04 5.04 10 12 87 24 1816G4A V562I 0 0 0 0 1 0 0/450 0 0 1 (1) 2 004 (2 504) 3.99 3.99 8 25 1816G4C V562L 0 0 0 1 0 0 1/450 0 0 2 (3) 2 004 (2 504) 11.98 6.91 24 26 1859G4C G576A 1 2 0 1 11 0 8/450 0 0 23 (27) 2 004 (2 538) 106.38 20.36 213 13 724j 449 27 1997G4A G622D 0 0 0/80 0/96 1 0 0 0/444 0 1 2 002 5.00 5.00 10 28 2082C4T F650 1 0 0/80 0/20 0 0 0 0/444 0 1 (1) 1 926 (2 412) 4.15 4.15 8 29 2134C4T R668C 1 2 0/80 0/96 1 11 0 12/444 0 27(32) 2 002 (2 558) 125.10 21.98 247 275 30 2377C4T L748 0 0 0/6 0 1 1 388 25.77 25.77 52 14a 129 31 2670G4A W846X 0 0 0/6 0 1 0/452 0/80 0 1 1 010 9.90 9.90 20 32 2694T4G T854 33 23 0/6 33 38 149/452 14/80 11 301 1 010 2980.20 143.92 4 184 33 2695G4A V855I 0 0 0/6 0 0 1/452 0/80 0 1 1 010 9.90 9.90 20 14b 38 0 0 0 0/520 0 0 0 0/446 0 2 448 15 251 34 2816G4C S895T 0 0 0/6 0 0 2/436 0 0 2 996 20.08 14.18 40 35 2831A4C N900T 0 0 0/6 0 0 1/436 0 0 1 996 10.04 10.04 20 36 2988G4C M952I 0 0 0/6 0 0 1/436 0 0 1 996 10.04 10.04 20 37 3030G4A T966 (2)k (1)k 0 6/436 0 6 (25)k 618 (1814)k 137.82 27.37 272 38 3032T4C L967S 0 0 0/6 0 0 1/436 0 0 1 996 10.04 10.04 20 16 80 0 0 0/498 0 0 0/450 0 0 1 502 17a 151 39 3123G4C L997F 0 2 2 1/494 0 7 1 4/454 0 0 17 2 502 67.95 16.42 135 40 3157G4A A1009T 0 2 0 0/494 0 0 0 0/454 0 0 2 2 502 7.99 5.65 16 41 3212T4C I1027T 1 0 0 0/494 0 0 0 0/454 0 0 1 2 502 4.00 4.00 8 17b 228 42 3286T4G F1052V 1 1 0 1/194 0 0 0 0/452 0 0 3 (3) 2 200 (2 240) 13.39 7.73 27 43 3337G4A G1069R 0 1 0 0/194 0 0 0 0/452 0 0 1 2 200 4.55 4.55 9 CommonandrarenonsynonymousandsynonymouscSNSs GModianoetal 186 EuropeanJournalofHumanGenetics 44 3345G4T Q1071H 0 0 0 0/194 0 1 0 0/452 0 0 1 2 200 4.55 4.55 9 45 3417A4T T1995 1 3 0 0/194 1 1 0 0/452 0 0 6 (8) 2 200 (2 506) 31.92 11.27 64 46 3419T4G L1096R 0 0 0 0/194 1 0 0 0/452 0 0 1 2 200 4.55 4.55 9 47 3477C4A T1115 0 0 0 0/194 0 0 0 1/452 0 0 1 2 200 4.55 4.55 9 18 101 48 3523A4G I1131V 0 0 1 0/10 0 0 0/448 0 0 1 (2) 1 512 (1 908) 10.48 7.07 21 49 3586G4C D1152H 0 0 0 0/10 0 0 1/448 0 0 1 1 512 6.61 6.61 13 19 249 50 3617G4T R1162L 0 0 1 1/494 0 0/260 0 0/454 0 0 2 2 262 8.84 6.25 18 51 3690A4G Q1186 0 0 0 0/494 0 0/260 0 0/454 1 0 1 2 262 4.42 4.42 9 52 3813A4G L1227 0 1 0 0/494 0 0/260 0 0/454 0 0 1 2 262 4.42 4.42 9 53 3837T4G S1235R 1 1 0 1/494 0 4/260 0 7/454 0 1 15 (15) 2 262 (2 310) 69.94 16.71 140 20 156 54 4002A4G P1290 2 3 0/6 3 5 18/454 3/80 2 36 1 012 357.73 58.22 690 21 90 55 4009G4A V1293I 0 0 0/6 0 0/300 0 1/456 0 0 1 1 316 7.60 7.60 15 56 4029A4G T1299 1 0 0/6 0 1/300 0 1/456 0 0 3 (8) 1 316 (2 330) 34.33 12.12 69 57 4041C4G N1303K 1 0 0/6 0 0/300 0 0/456 0 0 1 1 316 7.60 7.60 15 58 4085T4C V1318A 0 0 0/6 0 0/300 0 1/456 0 0 1 1 316 7.60 7.60 15 22 173 0 0 0/18 0 0 0/450 0 0 1 022 23 106 0 0 0 0/6 0 0 0/448 0 1 436 24l 198+3 59 4404C4T Y1424 1 0 0/6 1 2 5/420 0 2 11 (32) 980 (2 516) 127.19 22.34 251 60m 4521G4A Q1463 (21) (16) (3/32) (14/80) (30) (94/420) 15/76 (17) 15 (227) 76 (1052) 2142.86 131.07 3 367 61 4563T4C D1477 0 0 0/6 0 1 0/420 0 0 1 980 10.20 10.20 20 Totals 6 525 9 584 16 109 The bracketed figures include also the RFLP analysis data (see Materials and methods); the NE Italy, Central Italy, Southern and Northern France are each subdivided into two samples where the 1st is made up of 100 genes. 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[hide] Lack of association of common cystic fibrosis tran... Am J Gastroenterol. 2005 Apr;100(4):874-8. Gallegos-Orozco JF, E Yurk C, Wang N, Rakela J, Charlton MR, Cutting GR, Balan V
Lack of association of common cystic fibrosis transmembrane conductance regulator gene mutations with primary sclerosing cholangitis.
Am J Gastroenterol. 2005 Apr;100(4):874-8., [PMID:15784035]

Abstract [show]
BACKGROUND: Primary sclerosing cholangitis (PSC) is a chronic progressive cholestatic liver disease of uncertain etiology. However, the histologic features of PSC liver disease can resemble those in cystic fibrosis (CF), an inherited disorder caused by mutations in the CF transmembrane conductance regulator (CFTR) gene. We sought to determine if PSC patients have a higher frequency of common CF alleles than disease controls. METHODS: DNA was extracted from peripheral lymphocytes of patients with end-stage liver disease. Samples were obtained before liver transplantation from 59 PSC patients and from three groups of control patients (20 each with primary biliary cirrhosis, autoimmune hepatitis, or hepatitis C). DNA samples were genotyped for 32 common CF mutations, the intron 8 T tract variants, and the M470V variant. RESULTS: One of 59 PSC patients (1.7%) had the common CF mutation (DeltaF508) in one CFTR gene. Two controls (3.3%) carried a single CF mutation (DeltaF508 in one primary biliary cirrhosis patient; W1282X in one hepatitis C patient). These rates do not differ from expected in the general population. The frequency of CFTR variants (5T and M470V) was also similar between PSC patients and controls. CONCLUSIONS: Despite anatomical similarities between CF liver disease and PSC, we could not confirm that PSC patients carried common CF mutations or common CFTR variants in higher than expected frequencies. These data suggest that CFTR dysfunction does not influence the pathogenesis of PSC.

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99 Three of the mutations identified in the PSC patients were previously reported to cause mild disease in CF patients (L997F, S1235R, and D1270N). Login to comment
106 of Classic CF Nonclassic CFTR Mutations Reference PSC Patients Mutations CF Mutations IVS8-5T of Unknown Effect McGill (1996) (21) 19 1 (G551D) 1 (R117H) NA NA Girodon (2002)(19) 29 0 3 (L997F, S1235R, D1270N) 2 1 (N782K) Sheth (2003)* (18) 19 0 3 (2752-26A→G, 3849 + 10kbC→T, I1139V) 1 3 (S686Y, I1366F, R75Q) Gallegos-Orozco (2004) 59 1 ( F508) 0 2 NA Total, no. Login to comment

[hide] Complete cystic fibrosis transmembrane conductance... Gut. 2005 Oct;54(10):1456-60. Epub 2005 Jun 29. Weiss FU, Simon P, Bogdanova N, Mayerle J, Dworniczak B, Horst J, Lerch MM
Complete cystic fibrosis transmembrane conductance regulator gene sequencing in patients with idiopathic chronic pancreatitis and controls.
Gut. 2005 Oct;54(10):1456-60. Epub 2005 Jun 29., [PMID:15987793]

Abstract [show]
BACKGROUND: Mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene-many of which cause cystic fibrosis-have also been reported in patients with chronic pancreatitis. The authors examine whether mild or severe CFTR mutations, homozygous or compound heterozygous CFTR mutations, or even simple cystic fibrosis carrier status alone increases the risk of developing pancreatitis. METHODS: After exclusion of patients with trypsinogen (PRSS1) mutations, cystic fibrosis, or pulmonary disease, and with known risk factors for pancreatitis 67 patients with idiopathic chronic pancreatitis (ICP) from northwest Germany and 60 geographically and ethnically matched controls were recruited. The entire coding region of the CFTR gene was sequenced in all patients and controls. ICP patients were also analysed for serine protease inhibitor Kazal type 1 (SPINK1) gene mutations. RESULTS: Abnormal CFTR alleles were found to be twice as frequent in ICP patients as in controls (25/134 v 11/120; p<0.05). Three of four severe CFTR mutations detected in patients were compound heterozygous with another abnormal CFTR allele, whereas among controls three severe CFTR mutations were found in heterozygous cystic fibrosis carriers. In ICP patients 19 uncommon/mild mutations, including combinations of the 5T allele with 12TG repeats, were identified compared with only five in controls (p = 0.012). Heterozygous SPINK1 mutations were detected in eight ICP patients (15% v 1% in controls) but only one also carried an additional mild CFTR mutation. CONCLUSIONS: These data show that not only compound heterozygosity, but also cystic fibrosis carrier status for different types of CFTR mutations, including uncommon/mild mutations, significantly increase the risk of developing pancreatitis. Although 45% of the study's ICP patients carried predisposing genetic risk factors (for example, mutations in CFTR or SPINK1), the authors found no evidence that the risk conveyed by CFTR mutations depends on co-inherited SPINK1 mutations.

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233 CFTR mutations in idiopathic pancreatitis www.gutjnl.com Three of the four compound heterozygous ICP patients carried one severe DF508 mutation (genotypes: DF508/ R117H, DF508/A1087P, DF508/D1152H) and one carried two mild mutations (S1235R/R668C). Login to comment
237 In the group of ICP patients being heterozygous for a single CFTR mutation one severe (2184insA, this insertion causes a frame shift) and eight mild/uncommon mutations (26 S1235R, R31C, R75Q, R347P, G576A, M348V, and V754M) were identified. Login to comment
256 The reason why numbers for compound heterozygous ICP patients in these studies are diverse (4/67 = 6% in our study) may be due to differences Table 1 CFTR and SPINK1 sequence variations identified in 30 of the 67 ICP patients PatientSex CFTR mutation T allele TG repeats PSTI mutation 1 M DF508/R117H 7/7 9/10 -/- 2 W DF508/A1087P 7/9 10/11 -/- 3 M DF508/D1152H 7/9 10/10 -/- 4 M S1235R/R668C 7/7 11/12 -/- 5 M 2184insA/- 7/7 10/12 -/- 6 M R31C/- 7/7 10/11 -/- 7 M R75Q/- 7/7 11/11 -/- 8 M R347P/- 7/7 11/12 -/- 9 M S1235R/- 7/7 11/12 -/- 10 W S1235R/- 7/7 11/12 -/- 11 M G576A/- 7/7 10/10 -/- 12 W M348V/- 7/9 10/10 -/- 13 M V754M/- 7/7 10/11 -/- 14 M -/- 5/7 11/12 -/- 15 W -/- 5/7 11/12 -/- 16 M -/- 5/7 11/12 -/- 17 W -/- 5/9 11/12 -/- 18 M -/- 5/7 11/12 -/- 19 M -/- 5/7 10/10 -/- 20 W -/- 5/7 10/10 -/- 21 W -/- 5/7 11/12 N34S/- 22 W -/- 7/7 10/11 N34S/- 23 M -/- 7/9 10/11 N34S/- 24 M -/- 7/7 11/11 N34S/- 25 M -/- 7/7 11/11 N34S/- 26 W -/- 7/7 11/11 N34S/- 27 M -/- 7/7 11/11 N34S/- 28 W -/- 7/7 10/11 N34S/- 29 W -/- 7/7 11/11 P55S/- 30 W -/- 7/7 11/11 IVS3+2TC/- Table 2 CFTR sequence variations identified in 11 of 60 healthy controls Control group Number DF508/- 3 R117H/- 2 I148T/- 1 L997F/- 1 5T/12TG 1 5T/11TG 3 in patient recruitment, the catchment populations, or the stringency with which cystic fibrosis patients were excluded. Login to comment

[hide] Genetics of cystic fibrosis. Semin Respir Crit Care Med. 2003 Dec;24(6):629-38. Gallati S
Genetics of cystic fibrosis.
Semin Respir Crit Care Med. 2003 Dec;24(6):629-38., [PMID:16088579]

Abstract [show]
Cystic fibrosis (CF) is caused by mutations in the CF transmembrane conductance regulator (CFTR) gene, which encodes a protein expressed in the apical membrane of exocrine epithelial cells. CFTR functions principally as a cyclic adenosine monophosphate (cAMP)-induced chloride channel and appears capable of regulating other ion channels. Mutations affect CFTR through a variety of molecular mechanisms, which can produce little or no functional gene product at the apical membrane. More than 1000 different disease-causing mutations within the CFTR gene have been described. The potential of a mutation to contribute to the phenotype depends on its type, localization in the gene, and the molecular mechanism as well as on interactions with secondary modifying factors. Genetic testing can confirm a clinical diagnosis of CF and can be used for infants with meconium ileus, for carrier detection in individuals with positive family history and partners of proven CF carriers, and for prenatal diagnostic testing if both parents are carriers. Studies of clinical phenotype in correlation with CFTR genotype have revealed a very complex relationship demonstrating that some phenotypic features are closely determined by the underlying mutations, whereas others are modulated by modifier genes, epigenetic mechanisms, and environment.

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50 In effect, virtually no func- Table 2 Unusually Common Cystic Fibrosis Mutations in Specific Populationsa Total Exon/ Number Number Frequency Mutation Intron Ethnic Origin Observed Screened (%) 296+12T→C intron 02 Pakistani 02 24 8.33 E60X exon 03 Belgian 06 394 1.52 G91R exon 03 French 04 266 1.50 394delTT exon 03 Scandinavian 78 1588 4.91 457TAT→G exon 04 Austrian 04 334 1.20 Y122X exon 04 Réunion Island 14 29 48.27 I148T exon 04 French Canadian 06 66 9.09 711+5G→A intron 05 Italian (North East) 06 225 2.67 1078delT exon 07 Celtic 27 475 5.68 1161delC exon 07 Pakistani 02 24 8.33 T338I exon 07 Italian, Sardinian 04 86 4.65 Q359K/T360K exon 07 Georgian Jews 07 8 87.50 R347H exon 07 Turkish 04 134 2.98 1609delCA exon 10 Spanish 03 96 3.12 1677delTA exon 10 Bulgarian 05 222 2.25 S549I exon 11 Arabs 02 40 5.00 Q552X exon 11 Italian (North East) 03 225 1.33 A559T exon 11 African-American 02 79 2.53 1811+1.2kbA→G intron 11 Spanish 22 1068 2.06 1898+5G→T intron 12 Chinese 03 10 30.00 1949del84 exon 13 Spanish 02 136 1.47 2143delT exon 13 Russian 04 118 3.39 2183AA→G exon 13 Italian (North East) 21 225 9.33 2184insA exon 13 Russian 03 118 2.54 3120+1G→A intron 16 African-American 14 112 12.50 3272-26A→G intron 17a Portugese, French 06 386 1.55 R1066C exon 17b Portugese 05 105 4.76 R1070Q exon 17b Bulgarian 04 166 2.41 Y1092X exon 17b French Canadian, 11 725 1.52 French M1101K exon 17b Hutterite 22 32 68.75 3821delT exon 19 Russian 03 118 2.54 S1235R exon 19 French (South) 04 340 1.18 S1251N exon 20 Dutch, Belgian 11 792 1.39 S1255X exon 20 African-American 02 79 2.53 3905insT exon 20 Swiss 45 982 4.58 Amish, Arcadian 13 86 15.12 W1282X Exon 20 Jewish-Ashkenazi 50 95 52.63 R1283M exon 20 Welsh 03 183 1.64 aAccording to the Cystic Fibrosis Genetic Analysis Consortium, http://www.genet.sickkids.on.ca/cftr/. Login to comment
68 ss, single strands; ds, double strands; C, control samples; lanes 1, 3, 6: CF patients without any sequence variants within exon 19; lane 2: CF patient homozygous for the intronic polymorphism nt3600-65 A/A; lane 4: CF patient heterozygous for the nonsense mutation R1162X; lane 5: CF patient heterozygous for the polymorphism nt3690 A/G; lane 7: CF patient heterozygous for the missense mutation S1235R. Login to comment

[hide] The cystic fibrosis transmembrane conductance regu... Hum Genet. 2005 Dec;118(3-4):372-81. Epub 2005 Sep 29. Bishop MD, Freedman SD, Zielenski J, Ahmed N, Dupuis A, Martin S, Ellis L, Shea J, Hopper I, Corey M, Kortan P, Haber G, Ross C, Tzountzouris J, Steele L, Ray PN, Tsui LC, Durie PR
The cystic fibrosis transmembrane conductance regulator gene and ion channel function in patients with idiopathic pancreatitis.
Hum Genet. 2005 Dec;118(3-4):372-81. Epub 2005 Sep 29., [PMID:16193325]

Abstract [show]
Cystic fibrosis transmembrane conductance regulator (CFTR) gene mutations are associated with cystic fibrosis (CF)-related monosymptomatic conditions, including idiopathic pancreatitis. We evaluated prospectively enrolled patients who had idiopathic recurrent acute pancreatitis or idiopathic chronic pancreatitis, healthy controls, CF heterozygotes, and CF patients (pancreatic insufficient or sufficient) for evidence of CFTR gene mutations and abnormalities of ion transport by sweat chloride and nasal potential difference testing. DNA samples from anonymous blood donors were controls for genotyping. At least one CFTR mutation or variant was carried in 18 of 40 patients (45%) with idiopathic chronic pancreatitis and in 6 of 16 patients (38%) with idiopathic recurrent acute pancreatitis but in only 11 of the 50 controls (22%, P=0.005). Most identified mutations were rare and would not be identified in routine genetic screening. CFTR mutations were identified on both alleles in six patient (11%). Ion transport measurements in patients with pancreatitis showed a wide range of results, from the values in patients with classically diagnosed CF to those in the obligate heterozygotes and healthy controls. In general, ion channel measurements correlated with the number and severity of CFTR mutations. Twelve of 56 patients with pancreatitis (21%) fulfilled current clinical criteria for the diagnosis of CF, but CFTR genotyping alone confirmed the diagnosis in only two of these patients. We concluded that extensive genotyping and ion channel testing are useful to confirm or exclude the diagnosis of CF in the majority of patients with idiopathic pancreatitis.

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80 Of the 50 random blood donors, none carried two mutations and 11 (22%) had mutations, with an allelic frequency of 11%, as follows: R117H in one blood donor, 1716A fi G in two, R75Q in two, and S1235R in one. Login to comment
85 Sex Type of pancreatitis Age, years CFTR genotype TG repeata Sweat chloride, mmol/lb NTPD DClÀ free+ Iso, mVc Normal Borderline Abnormal Normal Abnormal 1 F Chronic 19 F508deld /L206W 63 Not done 2 M Acute 16 F508deld /R117H(7T)d 10 60 5.0 3 F Chronic 43 F508deld /L967S 46 À2.5 4 F Acute 16 W1282Xd /5T 12 38 1.0 5 F Acute 10 F508deld /D1152H 33 17.0 6 F Chronic 19 5T/5T 11/11 6 15.0 7 F Chronic 33 F508deld /À 69 7.4 8 M Chronic 25 F508deld /À 54 7.0 9 M Chronic 15 F508deld /À 33 14.0 10 F Chronic 33 F508deld /À 26 7.0 11 M Chronic 12 F508deld /À 24 6.0 12 M Chronic 21 2183AA fi G/À 124 Not done 13 F Acute 19 5T/À 11 71 11.0 14 M Chronic 71 5T/À 11 39 19.0 15 F Chronic 38 5T/À 11 20 30.0 16 F Chronic 21 5T/À 11 18 Not done 17 F Chronic 17 5T/À 11 17 Not done 18 F Chronic 26 5T/À No DNA 12 38.0 19 F Chronic 45 5T/À 11 5 34.0 20 F Chronic 40 R75Q/À 32 16.0 21 F Chronic 11 S1235R/À 31 46.0 22 F Acute 1 R170H/À 19 Not done 23 F Acute 14 1716G fi A/À 14 26.0 24 F Chronic 23 1716G fi A/À 12 12.0 25 M Acute 8 À/À 51 15.0 26 M Chronic 67 À/À 46 11.0 27 M Acute 13 À/À 44 36.0 28 F Acute 28 À/À 35 3.0 29 F Chronic 21 À/À 22 6.0 TG12. Login to comment

[hide] Haplotype block structure study of the CFTR gene. ... Eur J Hum Genet. 2006 Jan;14(1):85-93. Pompei F, Ciminelli BM, Bombieri C, Ciccacci C, Koudova M, Giorgi S, Belpinati F, Begnini A, Cerny M, Des Georges M, Claustres M, Ferec C, Macek M Jr, Modiano G, Pignatti PF
Haplotype block structure study of the CFTR gene. Most variants are associated with the M470 allele in several European populations.
Eur J Hum Genet. 2006 Jan;14(1):85-93., [PMID:16251901]

Abstract [show]
An average of about 1700 CFTR (cystic fibrosis transmembrane conductance regulator) alleles from normal individuals from different European populations were extensively screened for DNA sequence variation. A total of 80 variants were observed: 61 coding SNSs (results already published), 13 noncoding SNSs, three STRs, two short deletions, and one nucleotide insertion. Eight DNA variants were classified as non-CF causing due to their high frequency of occurrence. Through this survey the CFTR has become the most exhaustively studied gene for its coding sequence variability and, though to a lesser extent, for its noncoding sequence variability as well. Interestingly, most variation was associated with the M470 allele, while the V470 allele showed an 'extended haplotype homozygosity' (EHH). These findings make us suggest a role for selection acting either on the M470V itself or through an hitchhiking mechanism involving a second site. The possible ancient origin of the V allele in an 'out of Africa' time frame is discussed.

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30 The T2A rate was much lower than 1 Frequencies of the CFTR variants within the M or the V alleles exon or intron VARIANT SITES in the M genes (MM subjects) in the V genes (VV subjects) A 5' UTR 125 g/c 8/144 (0.056) 3/356 (0.008) -80 1 2 R31C 5/226 (0.004) 1/576 (0.002) -56 in M genes in V genes 6 2 R75Q 1/226 (0.004) 15/576 (0.026) -51 M V (ttga)n 0.461 0.017 7 3 G85E 0/226 (0) 1/576 (0.002) -51 2.214 0.362 (tg)n 0.616 0.114 B i 3 406-6 t/c 0/226 (0) 6/576 (0.010) -29 (t)n 0.499 0.036 8 4 R117H 2/226 (0.009) 0/576 (0) -29 10 4 I148T 3/224 (0.013) 0/576 (0) -29 C i 4 621+3 a/g 1/224 (0.004) 0/576 (0) -29 12 5 R170H 1/158 (0.006) 0/402 (0) -26 D i 6a 875+40 a/g 6/36 (0.167)c 0/118 (0)c -25 i 6b (ttga)6 13/36 (0.361) 1/118 (0.008) -23 E i 6b 1001+11 c/t 5/60 (0.083) 0/166 (0) -23 F i 8 1341+28 c/t 1/152 (0.007) 0/464 (0) -18 i 8 (tg)10 39/76 (0.513) 5/218 (0.023) -11 i 8 (tg)11 21/76 (0.276) 205/218 (0.940) -11 i 8 (tg)12 16/76 (0.211) 8/218 (0.037) -11 i 8 t5 4/76 (0.053) 2/218 (0.009) -11 i 8 t7 48/76 (0.632) 214/218 (0.982) -11 i 8 t9 24/76 (0.316) 2/218 (0.009) -11 16 10 M470V H ex 10 F508del 3/226 (0.013) 0/572 (0) 0 19 10 F508C 0/226 (0) 1/572 (0.002) 0 20 10 1716g/a 15/226 (0.066) 0/572 (0) 0 21 11 G542X 1/158 (0.006) 0/400 (0) +28 24 12 V562I 1/226 (0.004) 0/576 (0) +30 25 12 V562L 1/226 (0.004) 0/576 (0) +30 26 12 G576A 3/226 (0.013) 0/576 (0) +30 28 13 2082c/t 1/104 (0.010) 0/226 (0) +32 29 13 R668C 3/224 (0.013) 0/562 (0) +32 32 14a 2694t/g 45/70 (0.643) 9/208 (0.043) +35 I i 14a 2752-15 c/g 0/226 (0) 5/576 (0.009) +44 37 15 3030g/a 1/158 (0.006) 7/402 (0.017) +44 O i 15 3041-71 g/c 5/226 (0.022) 0/576 (0) +47 39 17a L997F 1/226 (0.004) 4/576 (0.007) +51 40 17a A1009T 0/226 (0) 1/572 (0.002) +51 42 17b F1052V 1/226 (0.004) 0/572 (0) +52 43 17b G1069R 1/226 (0.004) 0/572 (0) +52 44 17b Q1071H 1/226 (0.004) 0/572 (0) +52 45 17b 3417a/t 0/226 (0) 4/572 (0.007) +52 46 17b L1096R 1/226 (0.004) 0/572 (0) +52 52 19 3813a/g 0/118 (0) 1/484 (0.002) +68 53 19 S1235R 3/100 (0.030) 0/294 (0) +68 54 20 4002a/g 5/56 (0.089) 1/168 (0.006) +83 q in the M alleles q in the V alleles 56 21 4029a/g 0/194 (0) 3/506 (0.006) +93 57 21 N1303K 1/92 (0.011) 0/272 (0) +93 59 24 4404c/t 3/226 (0.013) 14/576 (0.024) +107 60 24 4521g/a 21/56 (0.375) 2/172 (0.012) +107 "slow evolution" markers "fast evolution" markers (i.e. STRs) H is the sum of the degrees of heterozygosity of all the markers Ref.No.a ABSOLUTE AND RELATIVE FREQUENCIES distance from the M470V siteb (Kb) H associated with the…. Login to comment

[hide] Novel and recurrent rearrangements in the CFTR gen... Hum Genet. 2006 Mar;119(1-2):126-36. Epub 2005 Dec 17. Hantash FM, Redman JB, Starn K, Anderson B, Buller A, McGinniss MJ, Quan F, Peng M, Sun W, Strom CM
Novel and recurrent rearrangements in the CFTR gene: clinical and laboratory implications for cystic fibrosis screening.
Hum Genet. 2006 Mar;119(1-2):126-36. Epub 2005 Dec 17., [PMID:16362824]

Abstract [show]
Because standard techniques used to detect mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene do not detect single or multiple exonic rearrangements, the importance of such rearrangements may be underestimated. Using an in-house developed, single-tube, semi-quantitative fluorescent PCR (SQF PCR) assay, we analyzed 36 DNA samples submitted for extensive CFTR sequencing and identified ten samples with rearrangements. Of 36 patients with classic CF, 10 (28%) harbored various deletions in the CFTR gene, accounting for 14% of CF chromosomes. A deletion encompassing the CFTR promoter and exons 1 and 2 was detected in a sample from one proband, and in the maternal DNA as well. In another family, a deletion of the promoter and exon 1 was detected in three siblings. In both of these cases, the families were African American and the 3120+1G > A splice site mutation was also identified. These promoter deletions have not been previously described. In a third case, a deletion of exons 17a, 17b, and 18 was identified in a Caucasian female and the same mutation was detected in the paternal DNA. In the other seven cases, we identified the following deletions: exons 2 and 3 (n = 2); exons 4, 5, and 6a; exons 17a and 17b; exons 22 and 23; and exons 22, 23, and 24 (n = 2). In our series, the frequency of CFTR rearrangements in classic CF patients, when only one mutation was identified by extensive DNA sequencing, was >60% (10/16). Screening for exon deletions and duplications in the CFTR gene would be beneficial in classic CF cases, especially when only one mutation is identified by standard methodologies.

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124 The asterisk indicates the presence in the proband of the F508del mutation (3 bp deletion of the faster migrating band) exon 11) and S1235R (in exon 19). Login to comment
125 The severity of the S1235R mutation is not well established (Monaghan, 2000; Castellani, 2001; Reboul, 2003). Login to comment

[hide] Congenital bilateral absence of the vas deferens a... Eur J Hum Genet. 2006 Jul;14(7):801; author reply 801. Epub 2006 Apr 26. Haig D
Congenital bilateral absence of the vas deferens and recombination at CFTR.
Eur J Hum Genet. 2006 Jul;14(7):801; author reply 801. Epub 2006 Apr 26., [PMID:16639412]

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1 A conservative estimate of the region of 'extended haplotype homozygosity` that they report would extend from I148T (29 kb 50 of V470) to S1235R (68 kb 30 of V470). Login to comment

[hide] Comprehensive genetic analysis of the cystic fibro... Genet Med. 2006 Sep;8(9):557-62. Kammesheidt A, Kharrazi M, Graham S, Young S, Pearl M, Dunlop C, Keiles S
Comprehensive genetic analysis of the cystic fibrosis transmembrane conductance regulator from dried blood specimens--implications for newborn screening.
Genet Med. 2006 Sep;8(9):557-62., [PMID:16980811]

Abstract [show]
PURPOSE: In the United States, approximately 1/3,700 babies is born with cystic fibrosis each year. The >1,300 documented sequence variants pose a challenge for detection of cystic fibrosis through genetic screening. To investigate whether comprehensive characterization of the cystic fibrosis gene is feasible using dried newborn blood specimens, we modified the whole blood Ambry Test: CF and determined its sensitivity by testing DNA from individuals with cystic fibrosis who still had unknown mutations after commercial mutation panel testing. METHODS: DNA from 42 archived newborn dried blood specimens of affected Hispanic, African-American and Caucasian individuals in California was analyzed by temporal temperature gradient electrophoresis screening and targeted sequencing, and by gross deletion analysis. RESULTS: Excluding two specimens that could not be analyzed due to poor DNA quality, we report a 100% sensitivity and clinical detection rate in the remaining 40 patients. Eighty-three mutations representing 40 different variants were detected, including 8 novel mutations. CONCLUSIONS: This study demonstrates the feasibility of temporal temperature gradient electrophoresis-based full sequence analysis and targeted sequencing from DNA in newborn blood specimens. The Ambry Test: CF, as an additional step in cystic fibrosis newborn screening models, can be used to dramatically reduce the number of cystic fibrosis carrier sweat test referrals.

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98 In states with single specimenmodels,originalspecimensaretestedforthepresenceof themostcommonmutation,deltaF508,and/orotherdeleterious Table 1 Genotype data from panel testing and comprehensive Ambry TestTM : CF analysis Case Ethnicity ABI-31 Mutation 1 ABI-31 Mutation 2 Genzyme-87 Mutation 1 Genzyme-87 Mutation 2 Ambry Mutation 1 Ambry Mutation 2 Ambry Mutation 3 1 Hispanic delF508a 4382delAa 2 Hispanic delF508 N/I delF508 N/I delF508a 1248ϩ1GϾAa 3 African-American N/I N/I N/I N/I M150K CFTRdele17A,17Bb 4 Hispanic G542X N/I G542X N/I G542Xa 1288insTAa 5 African-American N/I N/I 3120ϩ1GϾA N/I 3120ϩ1GϾAa Q98Xa 3849؉72G>A 6 Hispanic delF508 N/I delF508 N/I delF508a 2289del10ins5a 7c Hispanic N/I N/I N/I N/I H199Ya 406-1GϾAa 8 Hispanic delF508 N/I delF508 N/I delF508a CFTRdele2,3(21kbb 9 Hispanic delF508 N/I delF508 N/I delF508a 2105-2117del13insAGAAAa 10 Hispanic G542X N/I G542X N/I G542X M952I Y914X 11 Hispanic N/I N/I N/I N/I 663delT L558S 12 Hispanic N/I N/I delF311 N/I delF311a 406-1GϾAa 13 Hispanic N/I N/I 2055del9insAa 2055del9insAa 14 Hispanic delF508 N/I delF508 N/I delF508 2055del9insA 15 Hispanic delF508 N/I delF508 N/I delF508 E257X 16 Hispanic N/I N/I N/I N/I V232D V232D 17 Hispanic delF508 N/I delF508 N/I delF508 H199Y 18 Hispanic delF508 N/I delF508 4160insGGGG 19 Caucasian delF508 N/I delF508 297-1GϾA 20 Hispanic 2183delAAϾG N/I 2183delAAϾG N/I 2183de1AAϾG 3500-2AϾG 21 Hispanic delF508 N/I delF508 S492F 22 Hispanic delF508 N/I delF508 N/I delF508 935delA 23 Caucasian R1162X N/I R1162X N/I R1162X 3940delG 24 Hispanic 711ϩ1GϾT N/I 711ϩ1GϾT T465N 25 Hispanic delF508 N/I delF508 N/I delF508 406-1GϾA 26 Hispanic delF508 N/I delF508 2055del9insA 27 Hispanic delF508 N/I delF508 N/I delF508 V232D 28 Hispanic delF508 N/I delF508 N/I delF508 S1235R 29 Hispanic G542X N/I G542X N/I G542X 297-1GϾA 30 Hispanic delF508 N/I delF508 N/I delF508 Q1100P 31 Hispanic delF508 N/I delF508 W216X 32 Hispanic N/I N/I N/I N/I 406-1GϾA H199Y 33 Hispanic N/I N/I N/I N/I 3272-26AϾG R75X 34 Hispanic N/I N/I Q890X N/I Q890X 2055del9insA 35 Hispanic delF508 N/I delF508 N/I delF508 W216X 36 Hispanic delF508 N/I delF508 N/I delF508 H199Y 37 Hispanic delF508 N/I delF508 N/I delF508 1288insTA I1027T 38 Hispanic G542X N/I G542X N/I G542X 663delT 39 Hispanic delF508 N/I delF508 N/I delF508 1288insTA 40 Hispanic delF508 N/I delF508 1288insTA mutations using mutation panels. Login to comment

[hide] Identification of CFTR, PRSS1, and SPINK1 mutation... Pancreas. 2006 Oct;33(3):221-7. Keiles S, Kammesheidt A
Identification of CFTR, PRSS1, and SPINK1 mutations in 381 patients with pancreatitis.
Pancreas. 2006 Oct;33(3):221-7., [PMID:17003641]

Abstract [show]
OBJECTIVES: Chronic pancreatitis is a progressive inflammatory disorder leading to irreversible exocrine and/or endocrine impairment. It is well documented that mutations in the cationic trypsinogen (PRSS1) gene can cause hereditary pancreatitis. Mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) and the serine protease inhibitor Kazal type 1 (SPINK1) genes are also associated with pancreatitis. METHODS: We analyzed 381 patients with a primary diagnosis of chronic or recurrent pancreatitis using the Ambry Test: Pancreatitis to obtain comprehensive genetic information for the CFTR, SPINK1, and PRSS1 genes. RESULTS: The results identified 32% (122/381) of patients with 166 mutant CFTR alleles, including 12 novel CFTR variants: 4375-20 A>G, F575Y, K598E, L1260P, G194R, F834L, S573C, 2789 + 17 C>T, 621+83 A>G, T164S, 621+25 A>G, and 3500-19 G>A. Of 122 patients with CFTR mutations, 5.5% (21/381) also carried a SPINK1 mutation, and 1.8% (7/381) carried a PRSS1 mutation. In addition, 8.9% (34/381) of all patients had 1 of 11 different SPINK1 mutations. Another 6.3% (24/381) of the patients had 1 of 8 different PRSS1 mutations. Moreover, 1.3% of the patients (5/381) had 1 PRSS1 and 1 SPINK1 mutation. A total 49% (185/381) of the patients carried one or more mutations. CONCLUSIONS: Comprehensive testing of the CFTR, PRSS1, and SPINK1 genes identified genetic variants in nearly half of all subjects considered by their physicians as candidates for genetic testing. Comprehensive test identified numerous novel variants that would not be identified by standard clinical screening panels.

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71 Patients With 1 CFTR Mutation CFTR Mutation 1 No. of Patients 1717-1 G9A 1 2789+5 G9A 1 3849+10kb C9T 2 3849+45 G9A 1 621+3 A9G 2 A1364V 1 A349V 1 A455E 1 D1152H 1 D1445N 1 deltaF508 16 E217G 1 F1286C 1 F316L 1 G542X 1 G551D 1 I148T 1 I807M 1 L206W 1 L967S 2 L997F 2 P55S 1 Q179K 1 Q220X 1 R117H 3 R1453W 1 R297Q 1 R31C 1 R668C 2 S1235R 1 S573C 1 S945L 1 V562A 1 V754M 2 Y1092X 1 Total patients 58 MutationsinboldfacewouldnothavebeendetectedbytheACOG/ACMGmutationpanel. Login to comment
83 Patients With SPINK1 and CFTR Mutations SPINK Mutation 1 SPINK Mutation 2 SPINK1 Mutation 3 CFTR Mutation 1 CFTR Mutation 2 No. of Patients 5¶UTR-147 A9G W1282X 1 5¶UTR-41 G9A 5¶UTR-41 G9A D1445N 1 5¶-41 G9A D1270N R74W 1 5¶UTR-81 C9T deltaF508 5T 1 IVS3+184 T9A S1235R 1 IVS3+184 T9A 5T 1 IVS3+184 T9A deltaF508 5T 1 IVS-72delCT R75X 1 L12F IVS3+90 A9T 296+28 A9G 1 L12F IVS3+90 A9T 4375-20 A9G 1 M1R 5¶UTR-147 A9G 5T 1 N34S IVS3-66-65insTTTT N37S Q1352H 1 N34S IVS3-66-65insTTTT L997F 1 N34S 5T 1 N34S IVS3-66-65insTTTT 5T 3 N34S IVS3-66-65insTTTT IVS1-37T 9C deltaF508 R117H 1 N34S IVS3-66-65insTTTT IVS1-37T9C R117H 5T 1 N34S IVS3-66-65insTTTT 621+83 A9G 1 N34S IVS3-66-65insTTTT IVS1-37T9C deltaF508 S1235R 1 Total patients 21 CFTR mutations in boldface would not have been detected by the ACOG/ACMG mutation panel. Login to comment

[hide] Prospective analysis of cystic fibrosis transmembr... Chest. 2006 Oct;130(4):995-1002. Ziedalski TM, Kao PN, Henig NR, Jacobs SS, Ruoss SJ
Prospective analysis of cystic fibrosis transmembrane regulator mutations in adults with bronchiectasis or pulmonary nontuberculous mycobacterial infection.
Chest. 2006 Oct;130(4):995-1002., [PMID:17035430]

Abstract [show]
BACKGROUND: Bronchiectasis and pulmonary infection with nontuberculous mycobacteria (NTM) may be associated with disease-causing mutations in the cystic fibrosis transmembrane regulator (CFTR). METHODS: Fifty adult patients at Stanford University Medical Center with a diagnosis of bronchiectasis and/or pulmonary NTM infection were prospectively characterized by sweat chloride measurement, comprehensive mutational analysis of CFTR, and sputum culture results. RESULTS: A de novo diagnosis of cystic fibrosis (CF) was established in 10 patients (20%). Patients with CF were more likely than those without CF to have mucus plugging seen on chest high-resolution CT, and women with a CF diagnosis were thinner, with a significantly lower mean body mass index than the non-CF subjects. Thirty CFTR mutations were identified in 24 patients (50% prevalence). Sweat chloride concentration was elevated > 60 mEq/dL (diagnostic of CF) in seven patients (14%), and from 40 to 60 mEq/dL in eight patients (16%). The frequency of CFTR mutations was elevated above that expected in the general population: heterozygous DeltaF508 (12% vs 3%), R75Q (14% vs 1%), and intron 8 5T (17% vs 5 to 10%). Other known CFTR mutations identified were V456A, G542X, R668C, I1027T, D1152, R1162L, W1282X, and L183I. Three novel CFTR mutations were identified: A394V, F650L, and C1344S. CONCLUSIONS: Mutations in CFTR that alter RNA splicing and/or functional chloride conductance are common in this population, and are likely to contribute to the susceptibility and pathogenesis of adult bronchiectasis and pulmonary NTM infection. Careful clinical evaluation for disease cause should be undertaken in this clinical context.

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124 The most phenotypically severe CFTR mutation, ⌬F508, was present in 12% of subjects in this study, compared to the general frequency of 3% in the white population in the United States.39,40 The R75Q mutation frequency was 14% in this study, compared to the general frequency of 1% in Northern Europeans.41 The intron 8 5T polymorphism was present in 17% of subjects in this study, compared to 5 to 10% in the general population.42,43 CFTR mutations identified in this study, including ⌬F508, R75Q, R117H, S1235R, D1152, L183I, and IVS8 5T, have been associated with mild symptoms of CF41,44-46 or with atypical manifestations of CF, such as isolated bronchiectasis14-17,19,20,22,23,25-27 and CBAVD.42,43,47 This study also reports three novel CFTR mutations, each in a separate patient with normal sweat chloride level: A394V, C1344S, and F650L. Login to comment

[hide] Molecular characterization of the cystic fibrosis ... Genet Med. 2007 Mar;9(3):163-72. Grangeia A, Sa R, Carvalho F, Martin J, Girodon E, Silva J, Ferraz L, Barros A, Sousa M
Molecular characterization of the cystic fibrosis transmembrane conductance regulator gene in congenital absence of the vas deferens.
Genet Med. 2007 Mar;9(3):163-72., [PMID:17413420]

Abstract [show]
PURPOSE: Approximately 20% of patients with congenital absence of the vas deferens remain without two mutations identified. We applied a strategy of serial screening steps to 45 patients with congenital absence of the vas deferens and characterized cystic fibrosis transmembrane conductance regulator gene mutations in all cases. METHODS: DNA samples of 45 patients with congenital absence of the vas deferens were screened by successive different molecular genetics approaches. RESULTS: Initial screening for the 31 most frequent cystic fibrosis mutations, IVS8 poly(TG)m, poly(T)n, and M470V polymorphisms, identified 8 different mutations in 40 patients (88.9%). Extensive cystic fibrosis transmembrane conductance regulator gene analysis by denaturing gradient gel electrophoresis, denaturing high-performance liquid chromatography, and DNA sequencing detected 17 further mutations, of which three were novel. Cystic fibrosis transmembrane conductance regulator gene rearrangements were searched by semiquantitative fluorescent multiplex polymerase chain reaction, which detected a CFTRdele2,3 (21 kb) large deletion and confirmed two homozygous mutations. Overall, 42 patients (93.3%) had two mutations and 3 patients (6.7%) had one mutation detected. CONCLUSIONS: The present screening strategy allowed a higher mutation detection rate than previous studies, with at least one cystic fibrosis transmembrane conductance regulator gene mutation found in all patients with congenital absence of the vas deferens.

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80 Patients with two detected mutations were mostly compound heterozygotes (38/42, 90.5%), whereas four patients (9.5%) were homozygotes for T5 allele (two cases), R334W, and S1235R (Table 2). Login to comment
85 Three mutations were found as complex alleles (two or three sequence alterations associated in cis on the same allele), each in two patients, G576A-R668C, D443Y-G576A-R668C, and S1235R-T5 (one patient with T5 in homozygosity) (Table 2). Login to comment
93 DeltaF508 was the second most common mutation, representing 21 (23.3%) of total alleles, followed by R334W (6, Table 1 CFTR gene mutations and polymorphisms in patients with congenital absence of the vas deferens Mutation Location Nucleotide alteration Effect Method 1 CFTRdele2,3 Exons 2-3 Deletion of exons 2 and 3 Frameshift QFM-PCR 2 R117H Exon 4 G¡A at 482 AA substitution 31 mutation panel 3 P205S Exon 6a C¡T at 745 AA substitution DGGE/dHPLC 4 L206W Exon 6a T¡G at 749 AA substitution DGGE/dHPLC 5 R258G Exon 6b A¡G at 904 AA substitution DGGE/dHPLC 6 R334W Exon 7 C¡T at 1132 AA substitution 31 mutation panel 7 T5 allele Intron 8 Deletion of 2T at 1342-12 to -6 Aberrant splicing DGGE/DNA sequencing 8 P439S Exon 9 C¡T at 1447 AA substitution DGGE/dHPLC 9 D443Ya Exon 9 G¡T at 1459 AA substitution DGGE/dHPLC 10 I507del Exon 10 Deletion of 3 bp at 1648-1653 AA deletion 31 mutation panel 11 DeltaF508 Exon 10 Deletion of 3 bp at 1652-1655 AA deletion 31 mutation panel 12 G542X Exon 11 G¡T at 1756 Truncation 31 mutation panel 13 V562I Exon 12 G¡A at 1816 AA substitution DGGE/dHPLC 14 G576Aa Exon 12 G¡C at 1859 Aberrant splicing DGGE/dHPLC 15 D614G Exon 13 A¡G at 1973 AA substitution DGGE/dHPLC 16 R688Ca Exon 13 C¡T at 2134 AA substitution DGGE/dHPLC 17 V754M Exon 13 G¡A at 2392 AA substitution DGGE/dHPLC 18 E831X Exon 14a G¡T at 2623 Truncation DGGE/dHPLC 19 3272-26AϾG Intron 17a A¡G at 3272-26 Aberrant splicing DGGE/dHPLC 20 2789ϩ5G¡A Intron 14b G¡A at 2789ϩ5 Aberrant splicing 31 mutation panel 21 V1108L Exon 17b G¡C at 3454 AA substitution DGGE/dHPLC 22 L1227S Exon 19 T¡C at 3812 AA substitution DGGE/dHPLC 23 S1235R Exon 19 T¡G at 3837 AA substitution DGGE/dHPLC 24 P1290S Exon 20 C¡T at 4000 AA substitution DGGE/dHPLC 25 N1303K Exon 21 C¡G at 4041 AA substitution 31 mutation panel 26 E1401K Exon 23 G¡A at 4333 AA substitution DGGE/dHPLC Polymorphisms 1 TG repeats Intron 8 9-13 copies at 1342-12 to -35 Sequence variation DGGE/DNA sequencing 2 M470V Exon 10 A or G at 1540 Sequence variation DNA sequencing 3 125G/C Exon 1 G¡C at 125 Sequence variation DGGE/dHPLC 4 1001ϩ11T/C Intron 6b C¡4T at 1001ϩ11 Sequence variation DGGE/dHPLC 5 1716G/A Exon 10 G¡A at 1716 Sequence variation DGGE/dHPLC 6 1899-136T/G Intron 12 T¡G at 1899-136 Sequence variation DGGE/dHPLC 7 T854T Exon 14a T¡G at 2694 Sequence variation DGGE/dHPLC 8 3601-65C/A Intron 18 C¡A at 3601-65 Sequence variation DGGE/dHPLC 9 4521G/A Exon 24 G¡A at 4521 Sequence variation DGGE/dHPLC QFM-PCR, semiquantitative fluorescent multiplex polymerase chain reaction; bp, base pair; DGGE, denaturing gradient gel electrophoresis; dHPLC, denaturing high-performance liquid chromatography. Login to comment
97 The allelic frequency of the other mutations was 4.4% for R117H, G576A, and R668C, 3.3% for S1235R and 3272-26A¡G, and 2.2% for P205S, L206W, D443Y, G542X, D614G, and N1301K, whereas the remaining 12 mutations were present in single patients (Table 3). Login to comment
101 The missense M470V polymorphism was evaluated in all 45 pa- tientswithCAVD(Table2).TheallelicfrequencyoftheM470variant Table 2 CFTR genotypes identified in patients with congenital absence of the vas deferens CFTR mutation genotypes [(TG)mTn] genotype M470V Patients N % DeltaF508 (TG)10T9 (TG)12T5 M V 11 24.4 DeltaF508 (TG)10T9 (TG)11T5 M M 1 2.2 DeltaF508 R117H (TG)10T9 (TG)10T7 M M 2 4.4 G542X (TG)10T9 (TG)12T5 M V 2a 4.4 DeltaF508 R334W (TG)10T9 (TG)11T7 M V 1 2.2 DeltaF508 D443Y-G576A-R668C (TG)10T9 (TG)10T7 M M 1 2.2 DeltaF508 D614G (TG)10T9 (TG)11T7 M V 1 2.2 DeltaF508 E831X (TG)10T9 (TG)11T7 M V 1 2.2 DeltaF508 L1227S (TG)10T9 (TG)11T7 M M 1 2.2 DeltaF508 E1401K (TG)10T9 (TG)11T7 M V 1 2.2 I507del D614G (TG)11T7 (TG)10T7 M V 1 2.2 N1303K L206W (TG)10T9 (TG)9T9 M M 1 2.2 R117H P205S (TG)11T7 (TG)10T7 M V 1 2.2 R117H R334W (TG)10T7 (TG)11T7 M V 1 2.2 R334W P439S (TG)11T7 (TG)11T7 M V 1 2.2 R334W R334Wb (TG)11T7 (TG)11T7 V V 1 2.2 R334W V562I (TG)11T7 (TG)11T5 V M 1 2.2 D443Y-G576A-R668C 3272-26A¡G (TG)10T7 (TG)10T7 M M 1 2.2 G576A-R668C V754Mb (TG)10T7 (TG)11T7 M M 1 2.2 S1235R S1235Rb (TG)13T5 (TG)13T5 M M 1 2.2 2789ϩ5G¡A S1235Rb (TG)10T7 (TG)13T5 M M 1 2.2 3272-26A¡G P1290S (TG)11T7 (TG)10T7 M V 1 2.2 P205S (TG)11T7 (TG)12T5 V V 1 2.2 G576A-R668C b (TG)10T7 (TG)11T5 M M 1 2.2 V1108L b (TG)11T7 (TG)11T5 V M 1 2.2 N1303K (TG)10T9 (TG)12T5 M V 1 2.2 3272-26A¡G b (TG)10T7 (TG)12T5 M V 1 2.2 CFTRdele2,3 b (TG)11T7 (TG)13T5 V M 1 2.2 b (TG)11T5 (TG)12T5 M V 1 2.2 b (TG)13T5 (TG)12T5 M V 1 2.2 DeltaF508 - (TG)10T9 (TG)11T7 M V 1a 2.2 L206W -b (TG)9T9 (TG)11T7 M V 1 2.2 R258G -b (TG)11T7 (TG)11T7 V V 1 2.2 a CUAVD. Login to comment
110 Large Table 3 Allelic frequencies of CFTR mutations in patients with congenital absence of the vas deferens CBAVD CUAVD Total Patients 42 3 45 Alleles 84 6 90 Mutations N % N % N % 1 T5 allele 26a 31 2 33.3 28 31.1 2 DeltaF508 20 23.8 1 16.7 21 23.3 3 R334W 6a 7.1 0 0 6 6.7 4 R117H 4 4.8 0 0 4 4.4 5 G576A 4b 4.8 0 0 4 4.4 6 R688C 4b 4.8 0 0 4 4.4 7 S1235R 3a 3.6 0 0 3 3.3 8 3272-26A¡G 3 3.6 0 0 3 3.3 9 P205S 2 2.4 0 0 2 2.2 10 L206W 2 2.4 0 0 2 2.2 11 D443Y 2b 2.4 0 0 2 2.2 13 D614G 2 2.4 0 0 2 2.2 14 N1303K 2 2.4 0 0 2 2.2 12 G542X 0 0 2 33.3 2 2.2 15 R258G 1 1.2 0 0 1 1.1 16 P439S 1 1.2 0 0 1 1.1 17 I507del 1 1.2 0 0 1 1.1 18 V562I 1 1.2 0 0 1 1.1 19 V754M 1 1.2 0 0 1 1.1 20 E831X 1 1.2 0 0 1 1.1 21 2789ϩ5G¡A 1 1.2 0 0 1 1.1 22 V1108L 1 1.2 0 0 1 1.1 23 L1227S 1 1.2 0 0 1 1.1 24 P1290S 1 1.2 0 0 1 1.1 25 E1401K 1 1.2 0 0 1 1.1 26 CFTRdele2,3 1 1.2 0 0 1 1.1 CBAVD, congenital bilateral absence of the vas deferens; CUAVD, congenital unilateral absence of the vas deferens. Login to comment
144 In regard to the S1235R mutation, in this study it was found in homozygosity in one patient (2.2%) and in compound heterozygosity with a mild CFTR mutation (2789 ϩ 5G¡A/S1235R) in one patient (2.2%). Login to comment
145 In both cases, S1235R was in cis with the haplotype (TG)13T5. Login to comment
146 Homozygosity for the S1235R mutation is first described here, whereas compound heterozygosity between S1235R and another CFTR mutation (DeltaF508del) was previously described with a frequency of 0.08% in patients with variable CF phenotypic manifestations6 or of 0.12% to 0.98% in pa- tientswithCAVD.2,6 Althoughthereissomecontroversywhether T5 homozygosity explains the CAVD phenotype, the T5/T5 genotype was found with a frequency of 6.7% (Table 2), similar to that previously reported (1.1%-10.4%).2,5,30,33,35,37,41 Because the penetrance of the T5 allele might be increased when there is an association between the T5 allele and the (TG)13 tract, the combination of S1235R with (TG)13T5 in homozygosity or in compound heterozygosity with another CFTR mutation might be responsible for the CBAVD phenotype, although the primary pathogenic factor, the T5 allele or the S1235R mutation, remains to be evaluated. Login to comment

[hide] Does cystic fibrosis neonatal screening detect aty... Clin Genet. 2007 Jul;72(1):39-46. Narzi L, Ferraguti G, Stamato A, Narzi F, Valentini SB, Lelli A, Delaroche I, Lucarelli M, Strom R, Quattrucci S
Does cystic fibrosis neonatal screening detect atypical CF forms? Extended genetic characterization and 4-year clinical follow-up.
Clin Genet. 2007 Jul;72(1):39-46., [PMID:17594398]

Abstract [show]
The neonatal screening protocol for cystic fibrosis (CF) is based on a first determination of blood immunoreactive trypsin (IRT1), followed by a first level genetic test that includes the 31 worldwide most common mutations of the cystic fibrosis transmembrane conductance regulator (CFTR) gene (DNA31), and a second determination of blood immunoreactive trypsin (IRT2). This approach identifies, in addition to affected subjects, a high proportion of newborns with hypertrypsinaemia at birth, in whom only one mutation is identified and who have a negative or borderline sweat test and pancreatic sufficiency. Although it has been suggested that hypertrypsinaemia may be caused by a single CFTR mutation, whether such neonates should be merely considered as healthy carriers remains a matter of debate as hypertrypsinaemia at birth may be a biochemical marker of a CFTR malfunction because of a second mild mutation. We analyzed, by means of an extended sequencing protocol, 32 newborns who tested positive at an IRT1/DNA31/IRT2 screening protocol and in whom only one CFTR mutation was found. The results obtained demonstrate that 62.5% of these newborns were also carrying a second mild CFTR mutation. The high proportion of compound heterozygous subjects, combined with the results of a 4-year follow-up in nine of these subjects all of whom displaying initial CF clinical symptoms, suggest that it may be possible to use the IRT1/DNA31/IRT2 protocol of neonatal screening to identify newborns with atypical forms of CF. In view of these findings, an extended genetic search for subjects with compound heterozygosity and a periodic clinical assessment should be considered.

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48 CFTR genotypes, IRT2 and sweat test values of the 32 newborns analyzed Newborn CFTR genotype IRT2 Sweat test (mmol/l [Cl2 ]) at enrolment True heterozygous subjects 1 N1303K/1 Negative 18 2 2183AAtoG/1 Negative 11 3 G85E/1 Positive 19 4 F508del/1 Negative 21 5 F508del/1 Negative 20 6 R117H/1 Negative 6 7 1717-1GtoA/1 Positive 7 8 W1282X/1 Negative 14 9 278915GtoA/1 Negative 23 10 N1303K/1 Negative 19 11 F508del/1 Negative 14 12 G542X/1 Negative 39 % of positivity ¼ 16.7% Average Æ SD ¼ 18 Æ 9 Compound heterozygous subjects 13 F508del/D806G Positive 24 14 F508del/D836Y Negative 12 15 R347P/R1162L Negative 18 16 F508del/P5L (TG)11T5 Negative 16 17 F508del/L997F Positive 32 18 R347P/D1152H Positive 42 19 F508del/P5L Negative 42 20 278915GtoA/71113AtoG Positive 33 21 F508del/P5L Positive 39 22 F508del (TG)12T7/(TG)12T5 Negative 23 23 N1303K/S1235R (TG)12T7 Negative 30 24 F508del/L997F Positive 34 25 F508del/(TG)12T5 Negative 34 26 R117H/(TG)12T7 Positive 22 27 F508del/P1013L Positive 8 28 F508del/L997F Negative 28 29 N1303K/(TG)12T5 Positive 13 30 F508del/L997F Positive 50 31 R1162X/P5L Negative 31 32 L997F/S549R(AtoC) Positive 38 % of positivity ¼ 55.0% Average Æ SD ¼ 29 Æ 12 CFTR, cystic fibrosis transmembrane conductance regulator. Login to comment
56 This type of analysis has already been performed for some of the uncommon mutations found in this work (R1162L, S1235R and L997F, see Discussion), while we performed frequency studies for D836Y, P1013L, P5L and D806G. Login to comment
59 In addition, an extended genetic analysis did not detect any other mutations in the alleles carrying the seven mutations listed above (with the exception of S1235R, which was found in a complex allele with the (TG)12T7 variant tract). Login to comment
77 By contrast, the pathogenic role of some of the uncommon mutations found (P5L, D836Y, P1013L, D806G, L997F, S1235R, and R1162L) is still a matter of debate (15, 17, 28, 32, 48-58). Login to comment
79 L997F, S1235R and Table2.Clinicalfeaturesoftheninenewbornsfollowedupfor4years NewbornGenotype First sweattest (atbirth) Average sweattest (1-4years) Symptomsat screening Symptomsduring 4-yearfollow-upChestX-ray Chrispin score Weight (centiles) Height (centiles) Abdominal ultrasonography Bacterial isolates 28F508del/L997F2843NegativeChronicrhinosinusitis andpharyngitis; sinusdisease Positive610094Positive(initialfocal biliarycirrhosis) Negativeculture 24F508del/L997F3469NegativeHospitalizationfor severebronchiolitis; recurrentrhino- pharyngitis,sometimes productivecough Positive63243Positive (hepatomegaly) Negativeculture 30F508del/L997F5062NegativePharyngitis,recurrent abdominalpain Positive42079Positive (thickeningof portalspaces) Negativeculture 27F508del/P1013L820NegativeNegativeNegative29976Positive (hepatomegaly) Negativeculture 31R1162X/P5L3171NegativeProductivecough, widespread osteoporosis, nasalobstruction Positive (bronchiectasis) 71898Positive (initialfocal biliarycirrhosis) Staphylococcus aureus 23N1303K/ S1235R(TG)12T7 3018NegativeSometimesrhinitisNegative26496NDNegativeculture 29N1303K/(TG)12T51328NegativeBronchiolitis,chronic rhinitis,sporadic episodesofcough Positive45921NDNegativeculture 32L997F/S549R(A-.C)3841NegativeEpisodicallyproductive cough,chronicrhinitis, bronchitis Positive75667NDNegativeculture 18R347P/D1152H4244NegativeNegativePositive104456NDS.aureus AverageÆSD¼30Æ1344Æ205Æ355Æ3070Æ26 ND,notdetermined. Login to comment
81 The absence or lower frequency of L997F, S1235R and R1162L in the general population than in our target group is compatible with a possible pathogenic role of these mutations. Login to comment
83 In all our subjects, each of these seven mutations was found as a unique mutation of the allele studied, with the exception of S1235R, for which a cis-acting effect by the (TG)12T7 variant tract found on the same allele may be hypothesized. Login to comment

[hide] Primary sclerosing cholangitis in childhood is ass... J Pediatr. 2007 Sep;151(3):255-9. Epub 2007 Jul 24. Pall H, Zielenski J, Jonas MM, DaSilva DA, Potvin KM, Yuan XW, Huang Q, Freedman SD
Primary sclerosing cholangitis in childhood is associated with abnormalities in cystic fibrosis-mediated chloride channel function.
J Pediatr. 2007 Sep;151(3):255-9. Epub 2007 Jul 24., [PMID:17719933]

Abstract [show]
OBJECTIVE: To determine whether primary sclerosing cholangitis (PSC) in childhood is associated with abnormalities in cystic fibrosis transmembrane conductance regulator (CFTR). STUDY DESIGN: Subjects with PSC diagnosed in childhood (n = 20) were recruited from Children's Hospital. Subjects had testing with sweat chloride concentration, nasal transmembrane potential difference, and extensive genetic analysis of the CFTR gene. Disease control subjects consisted of 14 patients with inflammatory bowel disease alone and no liver disease. t tests were performed to determine statistical significance. RESULTS: In the PSC group, CFTR chloride channel function (deltaChloride free + isoproterenol) was markedly diminished at -8.6 +/- 8.2 mV (reference range: -24.6 +/- 10.4 mV). In contrast, disease control subjects had normal function, at -17.8 +/- 9.7 mV (P = .008). Sweat chloride concentration in subjects with PSC was greater than in disease control subjects (20.8 +/- 3.4 mmol/L vs 12.0 +/- 1.6 mmol/L, P = .045). Comprehensive CFTR genotyping revealed that 5 of 19 (26.3%) subjects with PSC had a CFTR mutation or variant, compared with 6 of 14 (42.9%) disease control subjects. CONCLUSIONS: There is a high prevalence of CFTR-mediated ion transport dysfunction in subjects with childhood PSC.

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90 Mutations/Variants Polymorphism 1540 locus T Tract Sweat chloride (mmol/L) ⌬Cl ؉ Iso (mV)* PSC 1 GG 7/7 20.2 -1.2 2 GG 7/7 19.7 -17.3 3 R75Q AA 7/7 14.8 -3.9 4 4521G/A(8T/9T) AA 7/7 19.4 -13.3 5 2694T/G AG 7/7 NP NP 6 GG 7/7 5.1 -12.5 7 NP 5.8 -17.8 8 AA 7/7 9.9 -12.8 9 E725K AG 7/7 56.3 -5.1 10 R75Q AA 7/7 30.3 -5.5 11 4006 - 200G/A, 1233A/T AA 7/9 32.1 -29 12 2694T/G AG 7/7 8.7 -2.4 13 4521G/A, 4700T8/9 AG 7/7 4.8 -3.8 14 1525 - 61A/G AG 7/9 45.3 -2.2 15 3030G/A GG 7/7 18.6 -0.45 16 AA 7/7 7.6 -4.5 17 R75Q AG 7/9 21.6 -1.8 18 1001 ϩ 11C/T AG 7/9 45 1.2 19 AA 7/7 11 -11.5 20 1716G ¡ A AG 7/7 18.9 -20.1 IBD 21 1001 ϩ 11C/T AG 7/9 8.9 -13 22 S1235R/2752 - 26A ¡ G 185 ϩ 324C/T AG 7/7 15 -15 23 AG 7/7 17.8 -20 24 IVS8T5 AA 5/7 4.8 -10.4 25 875 ϩ 40A/G, 125G/C GG 7/7 10.8 -30 26 AG 7/7 22.9 -10.5 27 IVS8T5 AG 5/7 15.1 NP 28 AG 7/7 20.1 -8 29 R75Q GG 7/7 10.1 -17 30 AA 7/7 14 NP 31 Q1352H 4521A(hom), 4700T8/8 AG 7/7 3.5 -35 32 AA 7/7 11.8 -8 33 125G/C AG 7/7 9.4 -33 34 R75Q/IVS8T5 1898 ϩ 152T/A AG 5/7 4 -14 Subjects with IBD were disease control subjects. Login to comment
91 CFTR mutations shown in bold are E725K, S1235R, and 2752 - 26A ¡ G. Login to comment

[hide] A novel computational and structural analysis of n... Genomic Med. 2008 Jan;2(1-2):23-32. Epub 2008 May 14. George Priya Doss C, Rajasekaran R, Sudandiradoss C, Ramanathan K, Purohit R, Sethumadhavan R
A novel computational and structural analysis of nsSNPs in CFTR gene.
Genomic Med. 2008 Jan;2(1-2):23-32. Epub 2008 May 14., [PMID:18716917]

Abstract [show]
Single Nucleotide Polymorphisms (SNPs) are being intensively studied to understand the biological basis of complex traits and diseases. The Genetics of human phenotype variation could be understood by knowing the functions of SNPs. In this study using computational methods, we analyzed the genetic variations that can alter the expression and function of the CFTR gene responsible candidate for causing cystic fibrosis. We applied an evolutionary perspective to screen the SNPs using a sequence homology-based SIFT tool, which suggested that 17 nsSNPs (44%) were found to be deleterious. The structure-based approach PolyPhen server suggested that 26 nsSNPS (66%) may disrupt protein function and structure. The PupaSuite tool predicted the phenotypic effect of SNPs on the structure and function of the affected protein. Structure analysis was carried out with the major mutation that occurred in the native protein coded by CFTR gene, and which is at amino acid position F508C for nsSNP with id (rs1800093). The amino acid residues in the native and mutant modeled protein were further analyzed for solvent accessibility, secondary structure and stabilizing residues to check the stability of the proteins. The SNPs were further subjected to iHAP analysis to identify htSNPs, and we report potential candidates for future studies on CFTR mutations.

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125 The nsSNPs which were predicted to be Table 1 List of nsSNPs that were predicted to be deleterious by SIFT and PolyPhen SNPs ID Alleles AA change Tolerance index PSIC rs1800072 G/A V11C 1.00 0.150 rs1800073 C/T R31C 0.18 2.288 rs1800074 A/T D44V 0.01 2.532 rs1800076 G/A R75Q 0.03 1.754 rs1800078 T/C L138P 0.01 2.192 rs35516286 T/C I148T 0.41 1.743 rs1800079 G/A R170H 0.05 1.968 rs1800080 A/G S182G 0.03 1.699 rs1800086 C/G T351S 0.30 1.600 rs1800087 A/C Q353H 0.03 2.093 rs4727853 C/A N417K 1.00 0.015 rs11531593 C/A F433L 0.65 0.694 rs1800089 C/T L467F 0.15 1.568 rs213950 G/A V470M 0.17 1.432 rs1800092 C/A/G I506M 0.00 1.574 rs1801178 A/G I507V 0.38 0.314 rs1800093 T/G F508C 0.00 3.031 rs35032490 A/G K532E 1.00 1.525 rs1800097 G/A V562I 0.13 0.345 rs41290377 G/C G576A 0.33 1.262 rs766874 C/T S605F 0.03 2.147 rs1800099 A/G S654G 0.03 1.611 rs1800100 C/T R668C 0.01 2.654 rs1800101 T/C F693L 0.61 0.895 rs1800103 A/G I807M 0.01 1.554 rs1800106 T/C Y903H 0.52 0.183 rs1800107 G/T S909I 0.10 1.624 rs1800110 T/C L967S 0.07 1.683 rs1800111 G/C L997F 0.24 1.000 rs1800112 T/C I1027T 0.03 1.860 rs1800114 C/T A1067V 0.04 1.542 rs36210737 T/A M1101K 0.05 2.637 rs35813506 G/A R1102K 0.52 1.589 rs1800120 G/T R1162L 0.00 2.038 rs1800123 C/T T1220I 0.22 0.059 rs34911792 T/G S1235R 0.45 1.483 rs11971167 G/A D1270N 0.12 1.739 rs4148725 C/T R1453W 0.00 2.513 Highly deleterious by SIFT and damaging by PolyPhen are indicated as bold deleterious in causing an effect in the structure and function of the protein by SIFT, PolyPhen and Pupasuite correlated well with experimental studies (Tsui 1992; Ghanem et al. 1994; Bienvenu et al. 1998) (Table 3). Login to comment

[hide] Localization studies of rare missense mutations in... Hum Mutat. 2008 Nov;29(11):1364-72. Krasnov KV, Tzetis M, Cheng J, Guggino WB, Cutting GR
Localization studies of rare missense mutations in cystic fibrosis transmembrane conductance regulator (CFTR) facilitate interpretation of genotype-phenotype relationships.
Hum Mutat. 2008 Nov;29(11):1364-72., [PMID:18951463]

Abstract [show]
We have been investigating the functional consequences of rare disease-associated amino acid substitutions in the cystic fibrosis transmembrane conductance regulator (CFTR). Mutations of the arginine residue at codon 1070 have been associated with different disease consequences; R1070P and R1070Q with "severe" pancreatic insufficient cystic fibrosis (CF) and R1070W with "mild" pancreatic sufficient CF or congenital bilateral absence of the vas deferens. Intriguingly, CFTR bearing each of these mutations is functional when expressed in nonpolarized cells. To determine whether R1070 mutations cause disease by affecting CFTR localization, we created polarized Madin Darby canine kidney (MDCK) cell lines that express either wild-type or mutant CFTR from the same genomic integration site. Confocal microscopy and biotinylation studies revealed that R1070P was not inserted into the apical membrane, R1070W was inserted at levels reduced from wild-type while R1070Q was present in the apical membrane at levels comparable to wild-type. The abnormal localization of CFTR bearing R1070P and R1070W was consistent with deleterious consequences in patients; however, the profile of CFTR R1070Q was inconsistent with a "severe" phenotype. Reanalysis of 16 patients with the R1070Q mutation revealed that 11 carried an in cis nonsense mutation, S466X. All 11 patients carrying the complex allele R1070Q-S466X had severe disease, while 4 out of 5 patients with R1070Q had "mild" disease, thereby reconciling the apparent discrepancy between the localization studies of R1070Q and the phenotype of patients bearing this mutation. Our results emphasize that localization studies in relevant model systems can greatly assist the interpretation of the disease-causing potential of rare missense mutations.

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142 [Arg668Cys,Lys710X]); N1303 K (c.3909C4G, p.Asn1303Lys); and S1235R (c.3705T4G, p.Ser1235Arg). Login to comment

[hide] Phenotypic characterisation of patients with inter... Thorax. 2009 Aug;64(8):683-91. Epub 2009 Mar 23. Goubau C, Wilschanski M, Skalicka V, Lebecque P, Southern KW, Sermet I, Munck A, Derichs N, Middleton PG, Hjelte L, Padoan R, Vasar M, De Boeck K
Phenotypic characterisation of patients with intermediate sweat chloride values: towards validation of the European diagnostic algorithm for cystic fibrosis.
Thorax. 2009 Aug;64(8):683-91. Epub 2009 Mar 23., [PMID:19318346]

Abstract [show]
BACKGROUND: In patients with symptoms suggestive of cystic fibrosis (CF) and intermediate sweat chloride values (30-60 mmol/l), extensive CFTR gene mutation analysis and nasal potential difference (NPD) measurement are used as additional diagnostic tests and a positive result in either test provides evidence of CFTR dysfunction. To define the phenotype of such patients and confirm the validity of grouping them, patients with intermediate sweat chloride values in whom either additional CF diagnostic test was abnormal were compared with subjects in whom this was not the case and patients with classic CF. METHODS: The phenotypic features of four groups were compared: 59 patients with CFTR dysfunction, 46 with an intermediate sweat chloride concentration but no evidence of CFTR dysfunction (CF unlikely), 103 patients with CF and pancreatic sufficiency (CF-PS) and 62 with CF and pancreatic insufficiency (CF-PI). RESULTS: The CFTR dysfunction group had more lower respiratory tract infections (p = 0.01), more isolation of CF pathogens (p<0.001) and clubbing (p = 0.001) than the CF unlikely group, but less frequent respiratory tract infections with CF pathogens than the CF-PS group (p = 0.05). Patients in the CF-PS group had a milder phenotype than those with PI. Many features showed stepwise changes through the patient groups. CONCLUSION: Patients with intermediate sweat chloride values and two CFTR mutations or an abnormal NPD measurement have a CF-like phenotype compatible with CFTR dysfunction and, as a group, differ phenotypically from patients with intermediate sweat chloride values in whom further CF diagnostic tests are normal as well as from CF-PS and CF-PI patients.

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60 Table 2 CFTR mutations in the patient subgroups CF-PS CFTR dysfunction CF unlikely Genotype Subjects (n) Genotype Subjects (n) Genotype Subjects (n) F508del*/Not found 12 F508del*/3849+10 kb(C.T){ 11 Not found/Not found 39 Not found/Not found 10 F508del*/R117H{ 7 F508del*/Not found 4 F508del*/3849+10 kb(C.T){ 7 F508del*/Not found 7 IVS8-5T{/Not found 1 F508del*/R347P{ 5 Not found/Not found 5 S1235E/E528E 1 F508del*/R117H{ 4 F508del*/D1152H{ 4 No mutation analysis 1 F508del*/2789+5G.A{ 4 F508del*/IVS8-5T{ 4 Total 46 F508del*/S945L* 3 F508del*/S945L* 2 2789+5G.A{/Not found 3 W1282X*/IVS8-5T{ 2 F508del*/3272-26 A.G{ 2 F508del*/R1070W{ 1 F508del*/A455E{ 2 F508del*/L159S 1 F508del*/711+5G.A 2 F508del*/T1246I 1 F508del*/2789+5G.A 2 F508del*/L165S 1 G542X*/R334W{ 2 W1282X*/D1152H{ 1 F508del*/R334W{ 2 R1162X*/D1152H{ 1 R347P{/Not found 2 R347Hu/D1152H{ 1 F508del*/2116delCTAA 1 R553X*/R117H{ 1 F508del*/IVS8-5T{ 1 3659delC*/R117H{ 1 F508del*/D1152H{ 1 3849+10kb(C.T){/G551R 1 F508del*/711+3A.G 1 R1162X*/3849+10 kb(C.T){ 1 F508del*/L206W{ 1 2789+5G.A{/Not found 1 F508del*/I336K{ 1 G542X*/T854A 1 F508del*/G970D 1 R553X*/Q1463H 1 F508del*/L159S 1 S1235R/R668C 1 F508del*/R751L 1 2789+5G.A{/S977F 1 F508del*/E656X 1 No mutation analysis 1 F508del*/4015delA 1 Total 59 F508del*/Y913S 1 F508del*/L165S 1 F508del*/2143delT 1 G551D*/I336K{ 1 G551D*/3272-26A.G{ 1 G551D*/711+3A.G 1 R553X*/4005+2T.C 1 R553X*/E92K{ 1 G542X*/L206W{ 1 W1282X*/I336K 1 R1162X*/3849+10 kb(C.T){ 1 R1162X*/2789+5G.A{ 1 574delA*/3141del9 1 9890X/I105N 1 R334W{/R1070Q{ 1 3272-26A.G{/4218insT 1 3272-26A.G{/L165S 1 711+3A.G/G1244E 1 R352Q/1812-1G.A 1 F1052V/IVS8-5T{ 1 R74W/D1270N 1 1898-3G.A/1898-3G.A 1 1717-1G.A*/R334W{ 1 3659delC*/Not found 1 394delTT/Not found 1 R1162X*/Not found 1 R553X*/Not found 1 R117H{/Not found 1 G85E*/Not found 1 3849+10k(C.T){/Not found 1 Total 103 *Mutation class I, II or III. Login to comment

[hide] Independent contribution of common CFTR variants t... Pancreas. 2010 Mar;39(2):209-15. de Cid R, Ramos MD, Aparisi L, Garcia C, Mora J, Estivill X, Farre A, Casals T
Independent contribution of common CFTR variants to chronic pancreatitis.
Pancreas. 2010 Mar;39(2):209-15., [PMID:19812525]

Abstract [show]
OBJECTIVE: We have assessed whether CFTR gene has a major impact on chronic pancreatitis (CP) pathogenesis than that provided by the CFTR mutations. For this aim, we have evaluated clinical parameters, CFTR mutations, and 3 potential regulatory CFTR variants (coding single-nucleotide polymorphisms): c.1540A>G, c.2694T>G, and c.4521G>A. METHODS: CFTR gene analysis was performed in a cohort of 136 CP patients and 93 controls from Spanish population using current scanning techniques (single-strand conformation polymorphism/heteroduplex, denaturing gradient gel electrophoresis, and denaturing high-performance liquid chromatography) and direct sequencing. RESULTS: A higher frequency of CFTR mutations were observed in patients (39%) than in controls (15%; P < or = 0.001), differences being mostly attributable to the prevalence of the cystic fibrosis (CF)-causing mutations (P = 0.009). The analysis of variants has shown statistically significant differences between patients and controls for c.4521G>A (Pcorrected = 0.036). Furthermore, the multi-marker analysis revealed that the 1540A;2694G;4521A (AGA) haplotype was more prevalent in CP than controls (Pcorrected = 0.042). Remarkably, this association was unrelated to CF-causing mutations (P = 0.006). CONCLUSIONS: Our results corroborate the higher susceptibility of CF carriers to CP and, furthermore, suggest that the AGA haplotype could contribute to an increased risk in the development of CP irrespective of other CF-causing mutations.

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81 CFTR Genotypes in Chronic Pancreatitis Patients and General Population Pt/Phenotype CFTR Genotype Pt/Phenotype CFTR Genotype 1/ACP F508del† , I1027T/j 19/ACP* R668C/j 2/ACP* F508del† /j 20/ACP D836Y/j 3/ACP F508del† , I1027T/Y1014C 21/ACP* L997F† /j 4/ACP F508del† /1716G9A 22/ACP* R1162L/j 5/ACP* F508del† /1716G9A 23/ACP 5T-11TG/j 6/ACP* F508del† /S1235R 24/ACP 5T-11TG/j 7/ACP G542X† /j 25/ACP 5T-11TG/j 8/ACP* W1282X† /j 26/ACP* 5T-11TG/j 9/ACP 5T-12TG† /5T-11TG 27/ACP* 5T-11TG/j 10/ACP* 5T-12TG† /j 28/ACP 1716G9A/4374+13A9G 11/ACP R75Q/j 29/ACP 1716G9A/j 12/ACP R75Q/j 30/ACP 1716G9A/j 13/ACP Y122C/Y122C 31/ACP 1716G9A/j 14/ACP* R170C/j 32/ACP 1716G9A/j 15/ACP* R258G/j 33/ACP* 1716G9A/j 16/ACP* M281T/j 34/ACP 2377C9T/j 17/ACP* R297Q† /- 35/ACP* 2377C9T/j 18/ACP T351S/- 36/ACP 3499+37G9A/j 1/ICP F508del† /- 10/ICP* 1716G9A/j 2/ICP D443Y,G576A,R668C† /j 11/ICP* 1716G9A/j 3/ICP* D443Y,G576A,R668C† /j 12/ICP 1716G9A/j 4/ICP* P205S† /j 13/ICP* 1716G9A/j 5/ICP* L997F† /j 14/ICP* 1716G9A/j 6/ICP* R170H/1716G9A 15/ICP* 1716G9A/j 7/ICP 109A9G/j 16/ICP* 1716G9A/j 8/ICP* 5T-11TG/j 17/ICP 1716G9A/j 9/ICP* 5T-11TG/j 1/GP 5T-12TG† /j 8/GP 1716G9A/j 2/GP 5T-12TG† /j 9/GP 1716G9A/j 3/GP A534E† /j 10/GP 1716G/A/j 4/GP 5T-11TG/V562I 11/GP 1716G9A/j 5/GP 5T-11TG/j 12/GP 1716G9A/j 6/GP 5T-11TG/j 13/GP 3690A9G/j 7/GP 1716G9A/j 14/GP 3690A9G/j Corresponding mutation nomenclature (Human Genome Variation Society and Cystic Fibrosis Mutation Data Base): c.1584G9A (1716G9A), c.1210-7_1210-6delTT (5T), 1210-34_1210-13TG (11TG), g.-23A9G (109A9G), c.4242+13A9G (4374+13A9G), c.2245C9T (2377C9T), c.3367+ 37G9A (3499+37G9A), and c.3558A9G (3690A9G). Login to comment

[hide] Amniotic fluid digestive enzyme analysis is useful... Clin Chem. 2009 Dec;55(12):2214-7. Epub 2009 Oct 15. Oca F, Dreux S, Gerard B, Simon-Bouy B, de Becdelievre A, Ferec C, Girodon E, Muller F
Amniotic fluid digestive enzyme analysis is useful for identifying CFTR gene mutations of unclear significance.
Clin Chem. 2009 Dec;55(12):2214-7. Epub 2009 Oct 15., [PMID:19833837]

Abstract [show]
BACKGROUND: The large number of CFTR [cystic fibrosis transmembrane conductance regulator (ATP-binding cassette sub-family C, member 7)] mutations and the existence of variants of unclear significance complicate the prenatal diagnosis of cystic fibrosis (CF). The aim of this study was to determine whether the pattern of amniotic fluid digestive enzymes (AF-DEs) could be correlated with the severity of CFTR mutations. METHODS: The AF-DE pattern (gamma-glutamyltranspeptidase, aminopeptidase M, and the intestinal isoform of alkaline phosphatase) was retrospectively analyzed in 43 AF samples. All fetuses presented 2 CFTR mutations, which were classified according to the severity of the disease: CF/CF (n = 38); CF/CFTR-related disorders (n = 1); and CF/unknown variant (n = 4). The relationships between clinical CF status, CFTR mutations, and AF-DE pattern were studied. RESULTS: Of 38 severely affected CF fetuses, an "obstructive" AF-DE pattern was observed in 15 of 15 samples collected before 22 weeks, irrespective of the CFTR mutation (diagnostic sensitivity, 100%; diagnostic specificity, 99.8%). In the 23 fetuses evaluated after 22 weeks, the AF-DE pattern was abnormal in 7 cases and noncontributive in 16 (diagnostic sensitivity, 30.4%; diagnostic specificity, 99.8%). Of the 5 questionable cases (F508del/N1224K, F508del/L73F, 3849+10kbC>T/G1127E, F508del/S1235R, F508del/G622D), all were CF symptom free at 2-4 years of follow-up. The AF-DE pattern (<22 weeks) was typical in 3 cases but abnormal in the last 2 cases. CONCLUSIONS: AF-DE analysis is of value for prenatal CF diagnosis in classic forms of CF and could be helpful in nonclassic CF.

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10 Of the 5 questionable cases (F508del/N1224K, F508del/L73F, 3849ϩ10kbCϾ T/G1127E, F508del/S1235R, F508del/G622D), all were CF symptom free at 2-4 years of follow-up. Login to comment
61 The fifth case (F508del/S1235R) also presented with a prenatally diagnosed DiGeorge syndrome (cardiac malformation) with an imperforate anus detected at birth (29 weeks). Login to comment
63 An "obstructive" AF-DE pattern was observed in 2 cases (related to the imperforate anus in the F508del/S1235R case). Login to comment
81 An "obstructive" AF-DE pattern observed in the F508del/S1235R fetus was in fact explained by DiGeorge syndrome (imperforate anus) (14). Login to comment
83 S1235R was recently considered a CFTR-RD mutation or a neutral variant (10). Login to comment
89 CFTR mutation Cases, n Outcome/follow-up CF/CF mutation (n ϭ 38) F508del/F508del 21 TOPa (n ϭ 20); birth, severe CF (n ϭ 1) F508del/unidentified severe mutationb 3 TOP (n ϭ 3) F508del/G551D 2 TOP (n ϭ 2) F508del/4005ϩ1GϾA 1 TOP F508del/2711delT 1 Birth, severe CF F508del/297-3CϾT 1 TOP F508del/3120ϩ1GϾA 1 TOP F508del/405ϩ1GϾA 1 TOP F508del/711ϩ1GϾT 1 TOP F508del/Q1042X 1 TOP F508del/dele22-23 1 TOP F508del/2789ϩ5GϾA 1 Birth, severe CF dele19/dele19c 1 Birth, severe CF W1282X/dele2-6b 1 TOP 1078delT/394delTT 1 TOP CF/unknown variant (n ϭ 4) F508del/G622D 1 Birth, no clinical sign of CF F508del/N1224K 1 Birth, no clinical sign of CF F508del/L73F 1 Birth, no clinical sign of CF 3849ϩ10kbCϾT/G1127E 1 Birth, no clinical sign of CF CF/CFTR-related disorder (n ϭ 1) F508del/S1235R 1 Birth, no clinical sign of CF (del22q11 ϩ imperforate anus)d a TOP, termination of pregnancy. Login to comment

[hide] Cystic fibrosis transmembrane conductance regulato... Cancer. 2010 Jan 1;116(1):203-9. McWilliams RR, Petersen GM, Rabe KG, Holtegaard LM, Lynch PJ, Bishop MD, Highsmith WE Jr
Cystic fibrosis transmembrane conductance regulator (CFTR) gene mutations and risk for pancreatic adenocarcinoma.
Cancer. 2010 Jan 1;116(1):203-9., 2010-01-01 [PMID:19885835]

Abstract [show]
BACKGROUND: Mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene are common in white persons and are associated with pancreatic disease. The purpose of this case-control study was to determine whether CFTR mutations confer a higher risk of pancreatic cancer. METHODS: In a case-control study, the authors compared the rates of 39 common cystic fibrosis-associated CFTR mutations between 949 white patients with pancreatic adenocarcinoma and 13,340 white controls from a clinical laboratory database for prenatal testing for CFTR mutations. The main outcome measure was the CFTR mutation frequency in patients and controls. RESULTS: Overall, 50 (5.3%) of 949 patients with pancreatic cancer carried a common CFTR mutation versus 510 (3.8%) of 13,340 controls (odds ratio [OR], 1.40; 95% confidence interval [CI], 1.04-1.89; P = .027). Among patients who were younger when their disease was diagnosed (<60 years), the carrier frequency was higher than in controls (OR, 1.82; 95% CI, 1.14-2.94; P = .011). In patient-only analyses, the presence of a mutation was associated with younger age (median 62 vs 67 years; P = .034). In subgroups, the difference was seen only among ever-smokers (60 vs 65 years, P = .028). Subsequent sequencing analysis of the CFTR gene detected 8 (16%) compound heterozygotes among the 50 patients initially detected to have 1 mutation. CONCLUSIONS: Carrying a disease-associated mutation in CFTR is associated with a modest increase in risk for pancreatic cancer. Those affected appear to be diagnosed at a younger age, especially among smokers. Clinical evidence of antecedent pancreatitis was uncommon among both carriers and noncarriers of CFTR mutations.

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97 S1235R has been variably reported in CF patients, but phenotype is more severe in association with second cis mutations.30,31 The 5T poly-T polymorphism affects splicing of exon 932 and contributes to congenital bilateral absence of the vas deferens33 and possibly pancreatitis,4 but not pulmonary disease. It is difficult to determine whether there is an excess of compound heterozygotes detected (16%). Login to comment
103 Compound Heterozygotes Among Pancreatic Cancer Cases CFTR Mutations Sex Age at Diagnosis, y Ever/Never Smoker Family History of Pancreatic Cancer Pancreatitis ‡3 Years Before Cancer Diagnosis df508/S42F M 70 Nonsmoker No No R117H/E528E (splice site) M 75 Smoker Yes No df508/S912L W 56 Smoker No No df508/N1088S W 73 Smoker No No df508/M1191I M 79 Smoker No No df508/S1235R M 73 Smoker No No df508/F1052V M 49 Smoker No No df508/5T M 60 Smoker No No Man indicates man; W, woman. Login to comment

[hide] A 10-year large-scale cystic fibrosis carrier scre... J Cyst Fibros. 2010 Jan;9(1):29-35. Epub 2009 Nov 7. Picci L, Cameran M, Marangon O, Marzenta D, Ferrari S, Frigo AC, Scarpa M
A 10-year large-scale cystic fibrosis carrier screening in the Italian population.
J Cyst Fibros. 2010 Jan;9(1):29-35. Epub 2009 Nov 7., [PMID:19897426]

Abstract [show]
BACKGROUND: Cystic Fibrosis (CF) is one of the most common autosomal recessive genetic disorders, with the majority of patients born to couples unaware of their carrier status. Carrier screenings might help reducing the incidence of CF. METHODS: We used a semi-automated reverse-dot blot assay identifying the 47 most common CFTR gene mutations followed by DGGE/dHPLC analysis. RESULTS: Results of a 10-year (1996-2006) CF carrier screening on 57,999 individuals with no prior family history of CF are reported. Of these, 25,104 were couples and 7791 singles, with 77.9% from the Italian Veneto region. CFTR mutations were found in 1879 carriers (frequency 1/31), with DeltaF508 being the most common (42.6%). Subjects undergoing medically assisted reproduction (MAR) had significantly (p<0.0001) higher CF carrier frequency (1/22 vs 1/32) compared to non-MAR subjects. CONCLUSIONS: If coupled to counselling programmes, CF carrier screening tests might help reducing the CF incidence.

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130 Recently, a study of 335,204 patients screened for their CF carrier status revealed 4 individuals with Table 3 Frequency of less common CFTR mutations in the general population. Mutation Frequency Reference S1235R 1/77 [22,23] L997F 1/77 [24] I148T 1/129 [19] F1052V 1/200 [25] 621+3A→G 1/335 [26] 3601-111 G→C 1/690 [27] Table 4 New CFTR mutations found in the general population following 2nd level analysis. Login to comment
139 In our study a rare mutation such as S1235R was found to be moderately frequent (1/77) and despite being normally classified as "mild", association with a second CFTR gene mutation (G542X) can lead to idiopathic chronic pancreatitis [23]. Login to comment

[hide] Cystic fibrosis transmembrane conductance regulato... Reprod Biomed Online. 2009 Nov;19(5):685-94. Gallati S, Hess S, Galie-Wunder D, Berger-Menz E, Bohlen D
Cystic fibrosis transmembrane conductance regulator mutations in azoospermic and oligospermic men and their partners.
Reprod Biomed Online. 2009 Nov;19(5):685-94., [PMID:20021716]

Abstract [show]
The objective of this study was to investigate the contribution of cystic fibrosis transmembrane conductance regulator (CFTR) to human infertility and to define screening and counselling procedures for couples asking for assisted reproduction treatment. Extended CFTR mutation screening was performed in 310 infertile men (25 with congenital absence of the vas deferens (CAVD), 116 with non-CAVD azoospermia, 169 with severe oligospermia), 70 female partners and 96 healthy controls. CFTR mutations were detected in the majority (68%) of CAVD patients and in significant proportions in azoospermic (31%) and oligospermic (22%) men. Carrier frequency among partners of infertile men was 16/70, exceeding that of controls (6/96) significantly (P = 0.0005). Thus, in 23% of infertile couples both partners were carriers, increasing the risk for their offspring to inherit two mutations to 25% or 50%. This study emphasizes the necessity to offer extended CFTR mutation screening and counselling not only to patients with CAVD but also to azoospermic and oligozoospermic men and their partners before undergoing assisted reproduction techniques. The identification of rare and/or mild mutations will not be a reason to abstain from parenthood, but will allow adequate treatment in children at risk for atypical or mild cystic fibrosis as soon as they develop any symptoms.

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69 The missense mutation S1235R was not detected in 50 alleles of CAVD patients, and was also very rarely found in classic CF patients (1/ 1164 alleles) and controls (1/192 alleles), but turned out to be the third most common mutation in azoospermic men without CAVD (3/232), in oligospermic men (3/338) and in female partners (3/140). Login to comment
81 In 70 women whose partners had tested positive for either CFTR mutations or 5T alleles, extended screening of the CFTR gene was also performed revealing a mutation spectrum similar to that of oligospermic men including four 5T alleles, three S1235R, three F508del and one I148T, V754M, V920M, D1152H, 3905insT and Q1352H each (Table 1). Login to comment
99 Couple no. Infertile male CFTR mutation Female partner CFTR mutation Offspring genotype Risk for genotype (%) 01 F508del/wt azoospermia F508del/wt F508del/ F508del 25 F508del/wt 50 wt/wt 25 02 F508del/T5 CAVD F508del/wt F508del/ F508del 25 F508del/T5 25 F508del/wt 25 T5/wt 25 03 F508del/S13Ya azoospermia T5/wt F508del/T5 25 S13Y/T5 25 F508del/wt 25 S13Y/wt 25 04 I148T/wt oligospermia F508del/wt F508del/ I148T 25 I148T/wt 25 F508del/wt 25 wt/wt 25 05 1717À1G>A/wt oligospermia T5/wt 1717À1G>A/ T5 25 1717À1G>A/ wt 25 T5/wt 25 wt/wt 25 06 T5/wt oligospermia 3905insT/wt 3905insT/T5 25 3905insT/wt 25 T5/wt 25 wt/wt 25 07 T5/wt azoospermia D1152H/wt D1152H/T5 25 D1152H/wt 25 T5/wt 25 wt/wt 25 08 T5/F1052V oligospermia S1235R/wt F1052V/ S1235R 25 S1235R/T5 25 F1052V/wt 25 T5/wt 25 09 S1235R/wt oligospermia T5/wt S1235R/T5 25 S1235R/wt 25 T5/wt 25 wt/wt 25 10, 11 T5/wt oligospermia S1235R/wt S1235R/T5 25 S1235R/wt 25 T5/wt 25 wt/wt 25 12 V754M/wt oligospermia T5/wt V754M/T5 25 V754M/wt 25 T5/wt 25 wt/wt 25 13 T5/wt oligospermia Q1352H/wt Q1352H/T5 25 Q1352H/wt 25 T5/wt 25 wt/wt 25 (continued on next page)(continued) female partner is a carrier. Login to comment
113 The three most common mutations are F508del (65.00%), 3905insT (4.81%) and R553X (3.78%) in the CF patient cohort, F508del (18.00%), 5T (16.00%) and R117H (8.00%) in CAVD patients and 5T (4.56%), F508del (3.68%) and S1235R (1.05%) in infertile non-CAVD men, exemplifying the disease specificity of the mutation patterns illustrated in Table 1. Login to comment

[hide] Association of cystic fibrosis genetic modifiers w... Fertil Steril. 2010 Nov;94(6):2122-7. Epub 2010 Jan 25. Havasi V, Rowe SM, Kolettis PN, Dayangac D, Sahin A, Grangeia A, Carvalho F, Barros A, Sousa M, Bassas L, Casals T, Sorscher EJ
Association of cystic fibrosis genetic modifiers with congenital bilateral absence of the vas deferens.
Fertil Steril. 2010 Nov;94(6):2122-7. Epub 2010 Jan 25., [PMID:20100616]

Abstract [show]
OBJECTIVE: To investigate whether genetic modifiers of cystic fibrosis (CF) lung disease also predispose to congenital bilateral absence of the vas deferens (CBAVD) in association with cystic fibrosis transmembrane conductance regulator (CFTR) mutations. We tested the hypothesis that polymorphisms of transforming growth factor (TGF)-beta1 (rs 1982073, rs 1800471) and endothelin receptor type A (EDNRA) (rs 5335, rs 1801708) are associated with the CBAVD phenotype. DESIGN: Genotyping of subjects with clinical CBAVD. SETTING: Outpatient and hospital-based clinical evaluation. PATIENT(S): DNA samples from 80 subjects with CBAVD and 51 healthy male controls from various regions of Europe. This is one of the largest genetic studies of this disease to date. INTERVENTION(S): None. MAIN OUTCOME MEASURE(S): Genotype analysis. RESULT(S): For single nucleotide polymorphism (SNP) rs 5335, we found increased frequency of the CC genotype among subjects with CBAVD. The difference was significant among Turkish patients versus controls (45.2% vs. 19.4%), and between all cases versus controls (36% vs. 15.7%). No associations between CBAVD penetrance and polymorphisms rs 1982073, rs 1800471, or rs 1801708 were observed. CONCLUSION(S): Our findings indicate that endothelin receptor type A polymorphism rs 5335 may be associated with CBAVD penetrance. To our knowledge, this is the first study to investigate genetic modifiers relevant to CBAVD.

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68 Portuguese CFTR alleles Spanish CFTR alleles Turkish CFTR alleles 5T 22 F508del 11 5T 20 F508del 14 5T 9 D1152H 14 R334W 5 D443Ya 3 D110H 3 R117H 3 G576Aa 3 F508del 2 S1235R 3 R668Ca 3 3041-11del7 2 N1303K 2 G542X 2 1767del6 2 P205S 2 R117H 2 2789þ5G>A 2 D614G 2 V232D 2 CFTRdele2(ins186) 2 G542X 1 L997F 1 3120þ1G>A 1 L206W 1 H609R 1 G1130A 1 V562I 1 N1303H 1 M952I 1 I507del 1 L206W 1 365insT 1 3272-26A>G 1 3272-26A/G 1 E585X 1 2789þ5G>A 1 L15P 1 2752-15C>G 1 G576Aa 1 R347H 1 R334Q 1 R668Ca 1 2689insG 1 R347H 1 CFTRdele2,3 1 R1070W 1 E831X 1 L1227S 1 I 1027T 1 R1070W 1 E831X 1 3272-26A>G 1 L997F 1 I853F 1 A349V 1 6T 1 Note: CFTR ¼ cystic fibrosis transmembrane conductance regulator. Login to comment

[hide] Cystic fibrosis transmembrane conductance regulato... Am J Respir Crit Care Med. 2010 May 15;181(10):1078-84. Epub 2010 Feb 18. Bienvenu T, Sermet-Gaudelus I, Burgel PR, Hubert D, Crestani B, Bassinet L, Dusser D, Fajac I
Cystic fibrosis transmembrane conductance regulator channel dysfunction in non-cystic fibrosis bronchiectasis.
Am J Respir Crit Care Med. 2010 May 15;181(10):1078-84. Epub 2010 Feb 18., 2010-05-15 [PMID:20167849]

Abstract [show]
RATIONALE: Although in patients with diffuse bronchiectasis (DB) and a normal sweat test the presence of one mutation in the cystic fibrosis transmembrane conductance regulator (CFTR) gene is frequently observed, its pathogenic role in the development of DB remains unclear. OBJECTIVES: To evaluate the association between CFTR heterozygosity and CFTR protein dysfunction in the airways of patients with DB. METHODS: Nasal potential difference was measured in 122 patients with DB of unknown origin and with a normal sweat test (Cl(-) < 60 mmol/L). They were classified according to the presence of CFTR mutations: zero (85 patients), one (22 patients), or two mutations (15 patients). Control groups comprised 26 healthy subjects, 38 obligate heterozygotes for CFTR, and 92 patients with classic cystic fibrosis (CF) with an abnormal sweat test (Cl(-) > or = 60 mmol/L). Patients classified as mild-CF were carrying at least one mild mutation and patients classified as severe-CF were homozygous for the F508del mutation. MEASUREMENTS AND MAIN RESULTS: There was a continuum of airway CFTR dysfunction in the study population as shown by nasal potential difference measurements, ranging from normal values in healthy subjects, to intermediate values in subjects with DB, to highly abnormal values in subjects classified as severe-CF. This continuum of airway CFTR dysfunction was thus strongly associated with defects in the CFTR gene. Moreover, among patients with DB, a similar continuum in intermediate nasal potential difference was identified that was associated with the bearing of zero, one, or two CFTR mutations. These electrophysiological phenotypes and CFTR genotypes were also associated with the clinical phenotype, as shown by the frequency of Staphylococcus aureus and Pseudomonas aeruginosa bronchial colonization. CONCLUSIONS: Our study supports the hypothesis that a unique CFTR mutation may have pathogenic consequences in patients with DB.

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58 In DB-1, 12 patients carried a severe loss-of-function mutation: 3 patients carried a class 1 mutation (G542X, 2183AA.G, and W1282X), and 9 patients carried the F508del class 2 mutation; 10 patients carried a mild mutation predicted to retain some residual CFTR function: 7 patients carried the IVS8-5T class 5 mutation, and 3 patients carried a class 4 mutation (S1235R, R347P-I148T, and R117H-7T) (Table 1). Login to comment
79 GENOTYPE AND PHENOTYPE OF PATIENTS WITH DIFFUSE BRONCHIECTASIS BEARING ONE CYSTIC FIBROSIS TRANSMEMBRANE CONDUCTANCE REGULATOR MUTATION Patient No. Age (yr) Sex (M/F) CFTR Mutation Sweat Cl2 (mmol/L) Basal PD (mV) NPD Index Age at Onset (yr) FEV1 (% pred) Bacterial Colonization 1 46 F F508del/2 10 215 0.44 20 124 Pa 2 51 M S1235R/2 8 219 0.56 10 40 Sa/Pa 3 19 F R347P-I148T/2 13 219 0.48 10 91 None 4 31 F F508del/2 35 220 0.20 2 76 None 5 34 M IVS8-5T/2 10 221 0.51 2 27 None 6 49 F IVS8-5T/2 15 222 0.30 40 92 None 7 20 F IVS8-5T/2 13 223 0.42 16 90 None 8 38 M F508del/2 9 224 0.85 20 ND None 9 65 M F508del/2 21 224 0.88 60 99 None 10 52 F F508del/2 20 226 0.37 5 91 Pa 11 72 F G542X/2 15 226 0.37 40 68 None 12 67 F IVS8-5T/2 26 226 0.82 40 97 None 13 51 F W1282X/2 17 228 0.12 29 27 Pa 14 59 M R117H-7T/2 31 229 0.88 49 89 None 15 56 F F508del/2 17 230 0.41 40 75 None 16 49 F F508del/2 21 232 0.58 45 67 None 17 46 F 2183AA.G/2 23 233 0.26 45 132 None 18 19 F IVS8-5T/2 19 234 0.45 5 82 None 19 70 M IVS8-5T/2 20 238 0.34 50 64 None 20 22 F F508del/2 25 241 0.86 20 82 Sa 21 77 M IVS8-5T/2 26 242 1.00 65 86 None 22 73 M F508del/2 21 245 0.91 25 70 Pa Definition of abbreviations: Cl2 5 chloride; F 5 female; M 5 male; ND 5 not determined; NPD index 5 nasal potential difference index 5 e(response to øCl2 and iso/response to amil); a cut off . Login to comment

[hide] Genetic testing in pancreatitis. Gastroenterology. 2010 Jun;138(7):2202-6, 2206.e1. Epub 2010 Apr 20. Ooi CY, Gonska T, Durie PR, Freedman SD
Genetic testing in pancreatitis.
Gastroenterology. 2010 Jun;138(7):2202-6, 2206.e1. Epub 2010 Apr 20., [PMID:20416310]

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53 Interpretation of Mutations Requires an Understanding of Their Functional Consequences Mutation group Reported mutations Complex allele: These mutations are recognized to occur on a single allele R117H ϩ T G576A ϩ R668C F508del ϩ I1027T Benign sequence alterations: These mutations have no known clinical consequence R74Q R297Q R74W 621 * 25 AϾG 3500-19 CϾT T164S C855I I1139V CFTR-related disorder associated: These mutations have been described in individuals with CF-like single organ disease (such as pancreatitis, sinopulmonary disease, or obstructive azoospermia), but do not fulfill the diagnostic criteria for CF 5T R117H D1270N L320V Q1352H 1818-18 GϾA S1235R CF causing F508del Q1476X R553X K710X G542X G551D F311L 2789-5 GϾA 2183AAϾG 711ϩ3 AϾG 3849ϩ10kb CϾT 1341ϩ1GϾA D1152Ha F1074La R553X Unknown clinical consequence F575Y L1260P G194R G1069R L997F K598E F834L R785Q To illustrate this point, mutations identified by extensive mutation testing in a cohort of patients with recurrent acute or chronic pancre- atitis14 are listed according to their clinical consequences (based on current consensus guidelines13 and functional and/or clinical reports; available: http://www.genet.sickkids.on.ca). Login to comment

[hide] Clinical phenotype and genotype of children with b... Am J Respir Crit Care Med. 2010 Oct 1;182(7):929-36. Epub 2010 Jun 10. Sermet-Gaudelus I, Girodon E, Sands D, Stremmler N, Vavrova V, Deneuville E, Reix P, Bui S, Huet F, Lebourgeois M, Munck A, Iron A, Skalicka V, Bienvenu T, Roussel D, Lenoir G, Bellon G, Sarles J, Macek M, Roussey M, Fajac I, Edelman A
Clinical phenotype and genotype of children with borderline sweat test and abnormal nasal epithelial chloride transport.
Am J Respir Crit Care Med. 2010 Oct 1;182(7):929-36. Epub 2010 Jun 10., 2010-10-01 [PMID:20538955]

Abstract [show]
RATIONALE: The diagnosis of cystic fibrosis (CF) is based on a characteristic clinical picture in association with a sweat chloride (Cl(-)) concentration greater than 60 mmol/L or the identification of two CF-causing mutations. A challenging problem is the significant number of children for whom no definitive diagnosis is possible because they present with symptoms suggestive of CF, a sweat chloride level in the intermediate range between 30 and 60 mmol/L, and only one or no identified CF-causing mutation. OBJECTIVES: To investigate the function of the cystic fibrosis transmembrane conductance regulator (CFTR) protein in the airways of children with intermediate sweat tests and inconclusive genetic findings in correlation with clinical phenotype and genotype. METHODS: We developed a composite nasal potential difference (NPD) diagnostic score to discriminate patients with CF from non-CF patients. We tested NPD in 50 children (age, 6 mo to 18 yr) with equivocal diagnoses and correlated the NPD diagnostic score with clinical phenotypes and genotypes. MEASUREMENTS AND MAIN RESULTS: Fifteen of the 50 children had NPD scores in the CF range. Eight of the 15 carried two CFTR mutations compared with only 5 of the 35 children with normal NPD scores (P = 0.01). They were significantly younger at evaluation and had recurrent lower respiratory tract infections, chronic productive coughs, and chronic Staphylococcus aureus colonization significantly more often than the 35 children with normal NPD results. CONCLUSIONS: Evaluation of CFTR function in the nasal epithelium of children with inconclusive CF diagnoses can be a useful diagnostic tool and help clinicians to individualize therapeutic strategy.

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162 CLINICAL CHARACTERISTICS OF CHILDREN WITH EQUIVOCAL DIAGNOSES AND NASAL POTENTIAL DIFFERENCE DIAGNOSTIC SCORE <0.27 Pt Mutation Age (yr) NPD Score Sweat Cl2 Chronic CF Pulmonary Disease CF Pathogens Airway Obstruction CF Lung Imaging FEV1 (%) BMI Others 1 F508del/S977F A-D 8 0.181 43 RLRTI, chronic productive cough S. aureus No Bronchiectasis 80 14.5 No Bronchial thickening Atelectasis 2 0/0 4 0.121 43 No S. aureus Yes Air trapping NA 13 Pancreatic extracts 0-0 Bronchial thickening 3 0/0 15 20.032 46 RLRTI S. aureus, P. aeruginosa Yes Air trapping 74 14 Polyposis 0-0 Bronchiectasis 4 F508del/0 2 20.249 57 RLRTI P. aeruginosa Yes Air trapping NA 16 No A-0 5 N1303K/(TG12)T5 11.8 20.263 47 RLRTI S. aureus, P. aeruginosa No Bronchial thickening ND 20 No A-B 6 F508del/L206W 5.9 20.278 40 RLRTI S. aureus No Bronchial thickening 115 22 Chronic pancreatitis A-AB 7 R668C/0 15 20.403 40 RLRTI None Yes Bronchiectasis 112 20 No B-0 Air trapping 8 F508del/L997F A-B 1 20.594 38 RLRTI, chronic productive cough P. aeruginosa No Bronchial thickening NA 16 CF hepatopathy 9 G576A;R668C/S1235R 8 20.659 31 0 None Wheezing Normal 100 20 No B-B 10 G542X/0 5 20.718 49 RLRTI, chronic productive cough S. aureus No Bronchial thickening NA 18 No A-0 11 0/0 7 20.742 37 RLRTI None No Normal 106 18 No 0-0 12 F508del/D110E 16 20.777 50 No S. aureus No No 100 21 No A-AB 13 F508del/R1070W 7 21.006 40 RLRTI S. aureus Wheezing Bronchial thickening 110 14 No A-AB 14 F508del-L467F/0 12 21.897 55 RLRTI, chronic productive cough S. aureus No Bronchiectasis 109 17 Pansinusitis A-0 15 F508del/H1054D 9 22.327 59 RLRTI, chronic productive cough S. aureus No Bronchial thickening 100 20 DIOS A-D Definition of abbreviations: A, B, AB, and D: A 5 CF-causing mutation; B 5 mutation that results in a CFTR-RD (clinical entities associated with CFTR mutations that do not meet the current diagnostic criteria for CF); AB 5 wide-spectrum mutation that may belong to either group A or group B; D 5 mutation of uncertain clinical relevance; BMI 5 body mass index; CF 5 cystic fibrosis; CFTR 5 gene encoding cystic fibrosis transmembrane conductance regulator; DIOS 5 distal intestinal obstructive syndrome; NA 5 not applicable; ND 5 not determined; NPD 5 nasal potential difference; P. aeruginosa 5 Pseudomonas aeruginosa; Pt 5 patient; RLRTI 5 recurrent lower respiratory tract infection; S. aureus 5 Staphylococcus aureus. Login to comment

[hide] A new complex allele of the CFTR gene partially ex... Genet Med. 2010 Sep;12(9):548-55. Lucarelli M, Narzi L, Pierandrei S, Bruno SM, Stamato A, d'Avanzo M, Strom R, Quattrucci S
A new complex allele of the CFTR gene partially explains the variable phenotype of the L997F mutation.
Genet Med. 2010 Sep;12(9):548-55., [PMID:20706124]

Abstract [show]
PURPOSE: To evaluate the role of complex alleles, with two or more mutations in cis position, of the cystic fibrosis transmembrane conductance regulator (CFTR) gene in the definition of the genotype-phenotype relationship in cystic fibrosis (CF), and to evaluate the functional significance of the highly controversial L997F CFTR mutation. METHODS: We evaluated the diagnosis of CF or CFTR-related disorders in 12 unrelated subjects with highly variable phenotypes. According to a first CFTR mutational analysis, subjects appeared to be compound heterozygotes for a classic mutation and the L997F mutation. A further CFTR mutational analysis was conducted by means of a protocol of extended sequencing, particularly suited to the detection of complex alleles. RESULTS: We detected a new [R117L; L997F] CFTR complex allele in the four subjects with the highest sweat test values and CF. The eight subjects without the complex allele showed the most varied biochemical and clinical outcome and were diagnosed as having mild CF, CFTR-related disorders, or even no disease. CONCLUSIONS: The new complex allele partially explains the variable phenotype in CF subjects with the L997F mutation. CFTR complex alleles are likely to have a role in the definition of the genotype-phenotype relationship in CF. Whenever apparently identical CFTR-mutated genotypes are found in subjects with divergent phenotypes, an extensive mutational search is mandatory.

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103 In vivo findings and, in some cases, in vitro functional characterizations have been reported for [F508C; S1251N],38 [R347H; D979A],39,40 [R74W; D1270N],41 [G628R; S1235R],42,43 [M470V; S1235R],42 [S912L; G1244V],44 [R117H; (TG)mTn],45-47 [R117C; (TG)mTn],46 [S1235R; (TG)mT5],48 [G576A; R668C],10,49 [V562I; A1006E],49 [R352W; P750L],49 [1198_1203del TGGGCT; 1204GϾA],49 [V754M; CFTRdele3_10,14b_16],50 and [F508del; I1027T].51 These complex alleles have been found in patients with either CF or CFTR-RD, although more often in the former. Login to comment

[hide] p.Ser1235Arg should no longer be considered as a c... Eur J Hum Genet. 2011 Jan;19(1):36-42. Epub 2010 Aug 18. Rene C, Paulet D, Girodon E, Costa C, Lalau G, Leclerc J, Cabet-Bey F, Bienvenu T, Blayau M, Iron A, Mittre H, Feldmann D, Guittard C, Claustres M, Georges M
p.Ser1235Arg should no longer be considered as a cystic fibrosis mutation: results from a large collaborative study.
Eur J Hum Genet. 2011 Jan;19(1):36-42. Epub 2010 Aug 18., [PMID:20717170]

Abstract [show]
Among the 1700 mutations reported in the cystic fibrosis transmembrane conductance regulator (CFTR) gene, a missense mutation, p.Ser1235Arg, is a relatively frequent finding. To clarify its clinical significance, we collected data from 104 subjects heterozygous for the mutation p.Ser1235Arg from the French CF network, addressed for various indications including classical CF, atypical phenotypes or carrier screening in subjects with or without a family history. Among them, 26 patients (5 having CF, 10 CBAVD (congenital bilateral absence of the vas deferens) and 11 with CF-like symptoms) and 14 healthy subjects were compound heterozygous for a second CFTR mutation. An exhaustive CFTR gene analysis identified a second mutation in cis of p.Ser1235Arg in all CF patients and in 81.8% CBAVD patients. Moreover, epidemiological data from >2100 individuals found a higher frequency of p.Ser1235Arg in the general population than in CF or CBAVD patients. These data, added to the fact that in silico analysis and functional assays suggest a benign nature of this substitution, give several lines of evidence against an association of p.Ser1235Arg with CF or CBAVD.

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181 14 Monaghan KG, Feldman GL, Barbarotto GM, Manji S, Desai TK, Snow K: Frequency and clinical significance of the S1235R mutation in the cystic fibrosis transmembrane conductance regulator gene: results from a collaborative study. Login to comment
212 (b) RT-PCR analysis of mRNA of cell expressing wild-type42 or p.Ser1235Arg(S1235R) constructs. Login to comment
0 ARTICLE p.Ser1235Arg should no longer be considered as a cystic fibrosis mutation: results from a large collaborative study Ce´line Rene´*,1,2,3, Damien Paulet1,2, Emmanuelle Girodon4, Catherine Costa4, Guy Lalau5, Julie Leclerc5, Faı¨za Cabet-Bey6, Thierry Bienvenu7, Martine Blayau8, Albert Iron9, Herve´ Mittre10, Delphine Feldmann11, Caroline Guittard3, Mireille Claustres1,2,3 and Marie des Georges3 Among the 1700 mutations reported in the cystic fibrosis transmembrane conductance regulator (CFTR) gene, a missense mutation, p.Ser1235Arg, is a relatively frequent finding. Login to comment
1 To clarify its clinical significance, we collected data from 104 subjects heterozygous for the mutation p.Ser1235Arg from the French CF network, addressed for various indications including classical CF, atypical phenotypes or carrier screening in subjects with or without a family history. Login to comment
3 An exhaustive CFTR gene analysis identified a second mutation in cis of p.Ser1235Arg in all CF patients and in 81.8% CBAVD patients. Login to comment
4 Moreover, epidemiological data from 42100 individuals found a higher frequency of p.Ser1235Arg in the general population than in CF or CBAVD patients. Login to comment
5 These data, added to the fact that in silico analysis and functional assays suggest a benign nature of this substitution, give several lines of evidence against an association of p.Ser1235Arg with CF or CBAVD. Login to comment
11 However, a clear statement on the pathogenicity of a mutation is difficult to obtain, in particular for missense mutations.2,3 Moreover, the existence of at least two mutations or sequence variations on the same allele, named complex alleles, complicates genetic counseling.4-11 p.Ser1235Arg (3837T4G or c.3705T4G), initially reported by Cuppens et al.12 with a second mutation on the same allele, p.Gly628Arg, is located in a poorly conserved region in the second nucleotide binding fold (NBF2). Login to comment
12 Earlier reports failed to establish a clear impact of p.Ser1235Arg on the phenotype severity.13-16 The aim of this study was to determine whether we should consider p.Ser1235Arg as a possible CF-associated mutation or reclassify it as a neutral polymorphism. Login to comment
13 Thus, we implemented a large collaborative study to repertory the patients or individuals bearing the p.Ser1235Arg mutation from nine French laboratories and compared their phenotype, genotype and associated CFTR haplotypes. Login to comment
15 Here, we gather lines of evidence that p.Ser1235Arg should be no longer considered as a CF mutation. Login to comment
16 MATERIALS AND METHODS Patients and individuals Data were collected from 104 subjects heterozygous or compound heterozygous for the p.Ser1235Arg mutation registered from the French CF network of Received 22 March 2010; revised 10 June 2010; accepted 29 June 2010; published online 18 August 2010 1Universite´ Montpellier1, UFR de Me´decine, Montpellier, France; 2INSERM U827, Laboratoire de Ge´ne´tique de Maladies Rares, Montpellier, France; 3CHU Montpellier, Hoˆpital Arnaud de Villeneuve, Laboratoire de Ge´ne´tique Mole´culaire, Montpellier, France; 4Service de Biochimie-Ge´ne´tique et Inserm U955 e´quipe 11, Groupe Henri Mondor-Albert Chenevier, APHP, Cre´teil, France; 5Poˆle de Biochimie et Biologie Mole´culaire, Centre de Biologie Pathologie, CHU de Lille, Lille, France; 6Service d`Endocrinologie Mole´culaire et Maladies rares, Centre de Biologie et Pathologie Est, CHU de Lyon, Bron, France; 7Laboratoire de Biochimie-Ge´ne´tique, Hoˆpital Cochin, APHP, Paris, France; 8Laboratoire de Ge´ne´tique Mole´culaire, CHU Pontchaillou, Rennes, France; 9Laboratoire de Ge´ne´tique Mole´culaire, Service de Ge´ne´tique Me´dicale, Groupe Hospitalier Pellegrin, CHU de Bordeaux, Bordeaux, France; 10Laboratoire de Biochimie B, CHU Georges Cle´menceau, Caen, France; 11Laboratoire de Biochimie et Biologie Mole´culaire, Hoˆpital d`Enfants Armand Trousseau, APHP, Paris, France *Correspondence: Dr C Rene´, INSERM U827, Laboratoire de Ge´ne´tique Mole´culaire et Chromosomique, CHU, Institut Universitaire de Recherche Clinique, 641 Avenue du Doyen Gaston Giraud, Montpellier Cedex 5, 34093, France. Login to comment
21 Molecular epidemiological study To evaluate the p.Ser1235Arg frequency in the general population, we screened for 2114 samples: 929 anonymized dried-blood spot of neonates presenting positive or negative immunoreactive trypsinogen (IRT) at day 3 obtained from the center for neonatal screening in Montpellier, South of France, and 1185 genomic DNA from CF patient`s or relative`s partners from the cohort of the Southern France (Laboratory of Molecular Genetics of Montpellier) or from the cohort of the Northern France (Laboratory of Molecular Genetics of Lille). Login to comment
28 If p.Ser1235Arg was found alone, a screening for large CFTR rearrangements was performed using a semiquantitative fluorescent multiplex PCR assay. Login to comment
31 To determine the haplotype associated with the p.Ser1235Arg allele, six microsatellite markers (IVS1(CA), IVS8(CA), IVS8(TG)m, IVS8(T)n, IVS17b(TA) and IVS17b(CA)) and one biallelic marker (p.Met470Val or 1540A4G (c.1408A4G)) were investigated. Login to comment
33 Spots of 3 mm diameter, punched from anonymized cards, were distributed in 96-well plates and DNA was extracted using methanol extraction.17 p.Ser1235Arg was screened using DHPLC technology and each abnormal pattern was confirmed by sequencing analysis. Login to comment
34 Computer-assisted analysis To predict the potential pathogenicity of p.Ser1235Arg, we used PolyPhen and SIFT softwares. Login to comment
41 To gain some insight into the potential effect of the p.Ser1235Arg mutation from a structural point of view, we used the experimental structures of MJ0796 (in complex with ATP, pdb identifier 1l2t) as template for modeling as previously described by Eudes et al.22 The MJ0796 structure was visualized with MBT SimpleViewer software (San Diego, CA, USA). Login to comment
45 The p.Ser1235Arg mutation was inserted into the pcDNA3-CFTR vector by site-directed mutagenesis using QuickChange II site-directed mutagenesis kit (Agilent Technologies, Massy, France) according to the manufacturer`s instructions. Login to comment
46 The human CFTR genomic region encompassing exon 19 with the flanking intronic sequences was amplified from a patient heterozygous for the p.Ser1235Arg using primers: FOR 5'-AATTCTGGAGCTCGAGCAGGCCTATA CAGAGCCCATT-3' and REV 5'-CTCTTAATTTGCTAGCCATTTTCAAG ATGGGAAATCTAAAACA-3' (which introduce NheI and XhoI sites in the PCR product). Login to comment
65 RESULTS Genotype/phenotype description of individuals carrying p.Ser1235Arg Among 104 subjects from 91 unrelated families reported by the 9 French laboratories, 6 patients are affected with classical CF (Table 1a). Login to comment
68 The (TG)13(T)5 allele was found in nine subjects with p.Ser1235Arg (Table 1a). Login to comment
70 Among 42 patients with monosymptomatic disease carrying p.Ser1235Arg (Table 1a), eight cases (19%) were compound heterozygotes, seven for a severe mutation and one for the intronic variant 406-6T4C (c.274-6T4C). Login to comment
71 Of these, five harbored the (TG)13(T)5 allele associated in cis with p.Ser1235Arg. Login to comment
72 In all, 34 individuals (81%) were heterozygous for p.Ser1235Arg: 5 with reduced sperm quality; 16 with sinopulmonary problems such as bronchiectasis, asthma, nasal polyposis and chronic obstructive pulmonary disease; and 13 with digestive symptoms (meconium ileus at birth, pancreatitis and liver disease). Login to comment
75 Among them, five carried only p.Ser1235Arg and were considered simple heterozygote because extensive scanning did not reveal a second CF mutation.28 Three cases were compound heterozygous for another mutation. Login to comment
81 Among 37 individuals tested for cascade carrier screening, 14 were compound heterozygous for p.Ser1235Arg and another CFTR mutation (Table 1b), all being relatives of patients or carriers. Login to comment
84 Notably, cases 4 and 5 were two fertile fathers carrying a class I mutation (severe) associated in trans of p.Ser1235Arg. Login to comment
85 Frequencies of p.Ser1235Arg in the general, CF and CBAVD French populations In 2114 subjects of the general population, 32 p.Ser1235Arg alleles were detected, representing an allelic frequency of 0.76% (Table 2). Login to comment
87 This allele frequency was compared with those of patients collated in a French study affected with CF (8/7420 alleles) or CBAVD (7/1626 alleles), 0.11 and 0.43%, respectively.32 By w2 statistical analysis, the p.Ser1235Arg allelic frequency is significantly higher in the general population than in CF patients (0.76 vs 0.11%, Po0.001) but not statistically different from the CBAVD group (0.76 vs 0.43%, P4 0.1). Login to comment
89 Among them, five with severe disease, harbored the p.Arg785X mutation, whereas another presenting a mild phenotype had the complex allele (p.Ser1235Arg;T5). Login to comment
90 When the p.Ser1235Arg frequencies in CF, CBAVD and the general population were compared with the frequencies of p.Phe508del (Table 2), it appears that p.Ser1235Arg is as frequent as p.Phe508del (P¼0.91) in the general population (respectively, 0.76 vs 0.82%); however, its implication in classical CF is significantly different (0.11 vs 67.2% (Po0.0001) and 2.86% (Po0.0001), respectively). Login to comment
91 p.Ser1235Arg haplotype backgrounds Haplotypic markers and familial segregation were completed in 36 cases (Table 3). Login to comment
92 The analysis of haplotypes based on four intragenic CFTR markers (IVS1(CA), IVS8(CA), M470V and IVS17b(CA)) revealed that p.Ser1235Arg is always present on the same haplotype 26-17-M-13. Login to comment
94 Table 1a Genotype and phenotype of CF, CBAVD and CF-like patients carrying the p.Ser1235Arg mutation Genotype Phenotype No. Login to comment
95 of subjects Allele 1 Allele 2 p.Ser1235Arg;p.Arg785X p.Phe508del Severe CF 2 p.Ser1235Arg;p.Arg785X NAa Severe CF 1 p.Ser1235Arg;875+1G4A (c.743+1C4A) 3629delT (c.3497delT) Severe CF 1 p.Ser1235Arg;p.Arg785X p.Gly542X Severe CF 1 p.Ser1235Arg;(TG)13(T)5 p.Gly551Asp Mild CF 1 p.Ser1235Arg;(TG)13(T)5 p.Phe508del CBAVD 6 p.Ser1235Arg;(TG)13(T)5 p.Arg1070Trp CBAVD 1 p.Ser1235Arg;(TG)13(T)5 p.Arg117His; (T)7 CBAVD 1 p.Ser1235Arg p.Phe508del CBAVD 1 p.Ser1235Arg - CBAVD 1 p.Ser1235Arg;(TG)13(T)5 p.Phe508del CUAVD 1 Suspicion CF/mild phenotype: p.Ser1235Arg - Genital symptoms 5 p.Ser1235Arg - Respiratory symptoms 16 p.Ser1235Arg;(TG)13(T)5 p.Phe508del Respiratory symptoms 2 p.Ser1235Arg 406-6T4C (c.274-6T4C) Respiratory symptoms 1 p.Ser1235Arg p.Tyr1092X Respiratory symptoms 1 p.Ser1235Arg p.Glu831X Respiratory symptoms 1 p.Ser1235Arg p.Gln493X Respiratory symptoms 1 p.Ser1235Arg p.Ile507del Respiratory symptoms 1 p.Ser1235Arg - Digestive symptoms 13 p.Ser1235Arg p.Gly542X Digestive symptoms 1 p.Ser1235Arg - Hyperechogenic fetal bowel 5 p.Ser1235Arg p.Arg668Cys; p.Arg576Ala Hyperechogenic fetal bowel 1 p.Ser1235Arg p.Val920Met Hyperechogenic fetal bowel 1 p.Ser1235Arg p.Phe508del Hyperechogenic fetal bowel 1 aNA: not available; we could only test the mother and a healthy sister (the patient was deceased and the father`s DNA was not available). Login to comment
97 The p.Arg785X found in CF patients in cis of the p.Ser1235Arg occurs on a single haplotype 26-17-12-7-M-35-13. Login to comment
98 The complex allele (p.Ser1235Arg;(TG)13(T)5) characteristic of CBAVD was also found to be carried on a unique haplotype (26-17-13-5-M-33-13). Login to comment
104 To evaluate the functional impact of the mutation on the CFTR maturation, we performed western blot analysis on whole-cell extracts from COS-7 cells transfected with either wild-type or the p.Ser1235Arg constructs (Figure 1c). Login to comment
105 The results show the presence of the fully glycosylated CFTR protein (band C) with the p.Ser1235Arg construct, suggesting that the maturation of the p.Ser1235Arg-CFTR protein is not altered. Login to comment
106 These results suggest that p.Ser1235Arg has no functional impact on the CFTR protein. Login to comment
107 Functional impact of the p.Ser1235Arg on the splicing According to the Splicing Sequences Finder tools,34 p.Ser1235Arg does not seem to impact the splicing of CFTR transcript. Login to comment
111 As shown in Figure 2b, compared with the wild type, the presence of the p.Ser1235Arg alteration does not modify the exon 19 inclusion in the mRNA. Login to comment
112 Together, these data suggest that p.Ser1235Arg has no effect on the CFTR mRNA splicing. Login to comment
113 DISCUSSION Since its initial description in 1993, the clinical significance of the p.Ser1235Arg mutation remains unclear. Login to comment
114 This ignorance makes genetic Table 1b Genotype and familial history of asymptomatic individuals carrying the p.Ser1235Arg mutation Case no. Login to comment
115 Genotype Familial information Allele 1 Allele 2 1 p.Ser1235Arg; (TG)13(T)5 p.Phe508del Brother of CUAVD (no parental project) 2 p.Ser1235Arg; (TG)13(T)5 p.Phe508del Sister of CUAVD 3 p.Ser1235Arg; (TG)13(T)5 p.Arg1070Trp Sister of CBAVD 4 p.Ser1235Arg p.Gly542X Father of CF [p.Phe508del]+ [p.Gly542X] and healthy children [p.Ser1235Arg]+[(TG)11(T)5] 5 p.Ser1235Arg p.Gln493X Father of CF [p.Phe508del]+ [p.Gln493X] 6 p.Ser1235Arg p.Phe508del Uncle of CF (no parental project) 7 p.Ser1235Arg p.Phe508del Mother of CF [p.Phe508del]+ [1717-1G4A (c.1585-1G4A)] 8 p.Ser1235Arg 2347delG (c.2215delG) Mother of CF [p.Phe508del]+ [2347delG (c.2215delG)] 9 p.Ser1235Arg (TG)11(T)5 Mother of non-CF fetus with hyperechogenic fetal bowel [p.Phe508del]+[(TG)11(T)5] 10 p.Ser1235Arg p.Phe508del Sister of CBAVD 11 p.Ser1235Arg p.Phe508del Sister of CBAVD 12 p.Ser1235Arg p.Glu831X Sister of CF-like patient 13 p.Ser1235Arg p.Phe508del First-cousin of CF-like patient 14 p.Ser1235Arg p.Phe508del A 18-month-old child with prenatal diagnostic based on familial history of CF Table 2 Comparison of the allelic frequencies of p.Ser1235Arg and p.Phe508del in the general population, CF and CBAVD patients Populations Significance (P-values) General population, this study CF patients30 (n¼7420) CBAVD patients30 (n¼1626) General population vs CF General population vs CBAVD p.Phe508del 0.82% (n¼1950) 67.2% 21.6% S (Po0.05) S (Po0.05) p.Ser1235Arg 0.76% (n¼4228) 0.11% 0.43% S (Po0.05) NS (P¼0.17) Significance (P-values) p.Phe508del vs p.Ser1235Arg NS (P¼0.91) S (Po0.05) S (Po0.05) Abbreviations: N, number of unrelated tested chromosomes; S, significant difference; NS, no significant difference. Login to comment
117 Table 3 CFTR haplotypes for 36 fully haplotyped p.Ser1235Arg chromosomes from CF, CBAVD patients, ruled-out CF (including CF-like symptoms and fetal echogenic bowel) and general population IVS1(CA)-IVS8(CA)- M470V-IVS17b(CA) IVS8(TG)m- IVS8(T)n Mutation in cis IVS17b(TA) n % 26-17-M-13 12-7 p.Arg785X 35 4 11.1 875+1G4A (c.743+1C4A) 36 1 2.8 None 33 1 2.8 35 5 13.8 36 9 25 37 4 11.1 38 1 2.8 40 1 2.8 44 1 2.8 7 1 2.8 13-5 33 8 22.2 counseling very difficult, especially in the context of prenatal diagnosis. Login to comment
118 Through genotype/phenotype analysis of patients or individuals carrying p.Ser1235Arg, analyzed by the French network and functional analysis, we present several lines of evidence that argue against an association of p.Ser1235Arg with CF or CBAVD, although a partial penetrance of p.Ser1235Arg could not be ruled out. Login to comment
119 First, the presence of a complex allele [p.Ser1235Arg;class I mutation] in trans of a severe mutation in five patients presenting severe disease (Table 1a) strongly suggests that p.Ser1235Arg alone cannot be considered as a CF-causing mutation. Login to comment
120 Moreover, among the 11 patients referred for CAVD, 9 are compound heterozygous for a mutation and the complex allele [p.Ser1235Arg;(TG)13(T)5]. Login to comment
121 The (TG)13(T)5 allele without the contribution of p.Ser1235Arg is sufficient to result in male infertility or in mild phenotypes.24,25,35 Among the two patients with p.Ser1235Arg as single allele, one has the mutation p.Phe508del in trans whereas no other mutation was identified in the second one. Login to comment
124 Three, carrying the complex allele [p.Ser1235Arg;(TG)13(T)5] are sisters or brother of CBAVD or CUAVD patients and no respiratory or digestive symptom was reported. Login to comment
126 Three adult males are compound heterozygous for p.Ser1235Arg and a severe mutation; two (cases 4 and 5) are biological fathers of CF children and transmitted the severe mutation. Login to comment
129 Third, the frequency of the p.Ser1235Arg in the general population (Table 2) is higher than in CF and CBAVD patients, in accordance with previous reports,14,37 and is close to the p.Phe508del frequency (0.82%). Login to comment
130 In contrast, in CF or CBAVD groups, the p.Ser1235Arg frequency is significantly lower than p.Phe508del. Login to comment
133 These data are confirmed by functional studies, which showed that p.Ser1235Arg does not alter the CFTR mRNA correct splicing and the protein maturation. Login to comment
134 These data are consistent with previous functional study of this locus in combination with alleles found at p.Met470Val and p.Gly628Arg loci.13 Wei et al.13 demonstrated that the p.Ser1235Arg CFTR protein does not cause change in the chloride transport activity. Login to comment
135 Besides, the p.Gly628Arg/p.Ser1235Arg mutant protein induces a significantly lower cAMP-dependent chloride transport activity than the Figure 1 Structural and processing impact of p.Ser1235Arg mutation on the CFTR protein. Login to comment
140 (c) COS-7 cell lines were transfected with either wild-type or p.Ser1235Arg CFTR constructs. Login to comment
145 In a second step, we determined the haplotypes linked to p.Ser1235Arg and found the same haplotype in 72.4% of cases. Only the IVS17b(TA) marker presents a large variability, although three haplotypes, deriving one from the other by addition or deletion of one dinucleotide (35, 36 or 37 repeats), represent 455% of the alleles. Login to comment
146 Besides, IVS1(CA) 26, a rare allele in the European populations (4.2 vs 80% for alleles 22, 23 and 24),38 is strictly linked to p.Ser1235Arg. Login to comment
147 In CBAVD patients, the haplotype 26-17-13-5-M-33-13 was found in 85.7% of p.Ser1235Arg alleles. Login to comment
148 These data suggest the further change of the (TG)12(T)7 to (TG)13(T)5 on a chromosome bearing the alteration p.Ser1235Arg on a background IVS17b(TA)33. Login to comment
149 Together, these data suggest that p.Ser1235Arg could derive from a founding event and haplotypes differing by a single microsatellite could depend on slippage phenomena, as already proposed.39 In conclusion, there are now strong lines of evidence against a severe deleterious effect of p.Ser1235Arg and its association with classical CF or CBAVD disease. Login to comment
151 These data highlight the importance of searching for a complex allele whenever p.Ser1235Arg is identified. Login to comment
152 The absence of clinical effects in healthy individuals who are compound heterozygous for the p.Ser1235Arg and another severe mutation is helpful to provide adequate genetic counseling to the families with regard to its transmission in offspring. Login to comment
213 BeaS2B cells were transfected with either empty, wild-type or p.Ser1235Arg pSPL3 vector. Login to comment

[hide] Total pancreatectomy and islet cell autotransplant... Surgery. 2010 Oct;148(4):676-85; discussion 685-6. Sutton JM, Schmulewitz N, Sussman JJ, Smith M, Kurland JE, Brunner JE, Salehi M, Choe KA, Ahmad SA
Total pancreatectomy and islet cell autotransplantation as a means of treating patients with genetically linked pancreatitis.
Surgery. 2010 Oct;148(4):676-85; discussion 685-6., [PMID:20846557]

Abstract [show]
BACKGROUND: For patients with severe chronic pancreatitis, total or completion pancreatectomy with islet cell autotransplantation (IAT) can alleviate pain and avoid the complications of diabetes. Several genetic mutations, specifically, PRSS1, CFTR, and SPINK1, are associated with chronic pancreatitis. Few reports have focused on the benefit of this operation for this subset of patients. METHODS: Between February 2000 and July 2009, 118 patients were treated with total pancreatectomy and IAT for chronic pancreatitis. Patients with known genetic mutations were then selected for further analysis. RESULTS: Of the 188 patients, 16 (13.6%) patients were identified as having genetic mutations, including CFTR (n = 10), PRSS1 (n = 4), and SPINK1 (n = 2) mutations. Mean patient age was 31.4 years (range, 15-59) with an equal male-to-female ratio (50:50). Preoperatively, patients required an average of 185 +/- 60 morphine equivalents (MEQ) (median, 123 MEQ) for preoperative pain control. No patients were taking insulin before operation. After resection with IAT, patients were discharged from the hospital with a daily average of 22 +/- 4 units of insulin with 6 (38%) patients requiring fewer than 15 units of insulin at the time of discharge. At a mean follow-up of 22 months, mean insulin requirements decreased to 15 U/d (P = .0172). A total of 7 (44%) patients required 15 or fewer units daily, and 4 (25%) patients were completely insulin-independent. Average daily narcotic usage at most recent follow-up decreased to 70 MEQ (median, 0) with 10 (63%) patients currently narcotic-independent. Analyses of the 36-item short-form health survey and the McGill Pain Questionnaire demonstrated a significant improvement in quality-of-life parameters and pain assessment. CONCLUSION: In patients who suffer from genetically linked chronic pancreatitis, pancreatic resection with IAT should be considered as an early therapeutic option to decrease chronic abdominal pain while preserving endogenous endocrine function.

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117 Patient demographics Descriptive statistics Data mean (SEM) Range Age, y 32 (3) 15-59 Weight, kg 73 (6) 39-127 Body mass index, kg/m2 24 (2) 15-35 Chronic pancreatitis, y 14 (2) 3-47 Sex Male, n = 8 Female, n = 8 Previous pancreatic operations Puestow, n =3 Whipple, n = 3 Genetic mutations and loci, n (%) CFTR 10 (62.5) R297Q 2 DF508 + R117H 1 R553X + M470V 1 DF508 1 R117H 1 P750L 1 D1152H 1 R31C 1 S1235R 1 PRSS1 4 (25) R122H 3 Unknown* 1 SPINK1 2 (12.5) N34S 2 *One patient was identified as having a PRSS1 mutation, but the specific locus mutation was unknown at the time of publication. Login to comment

[hide] Comprehensive description of CFTR genotypes and ul... Hum Genet. 2011 Apr;129(4):387-96. Epub 2010 Dec 24. de Becdelievre A, Costa C, Jouannic JM, LeFloch A, Giurgea I, Martin J, Medina R, Boissier B, Gameiro C, Muller F, Goossens M, Alberti C, Girodon E
Comprehensive description of CFTR genotypes and ultrasound patterns in 694 cases of fetal bowel anomalies: a revised strategy.
Hum Genet. 2011 Apr;129(4):387-96. Epub 2010 Dec 24., [PMID:21184098]

Abstract [show]
Fetal bowel anomalies may reveal cystic fibrosis (CF) and the search for CF transmembrane conductance regulator (CFTR) gene mutations is part of the diagnostic investigations in such pregnancies, according to European recommendations. We report on our 18-year experience to document comprehensive CFTR genotypes and correlations with ultrasound patterns in a series of 694 cases of fetal bowel anomalies. CFTR gene analysis was performed in a multistep process, including search for frequent mutations in the parents and subsequent in-depth search for rare mutations, depending on the context. Ultrasound patterns were correlated with the genotypes. Cases were distinguished according to whether they had been referred directly to our laboratory or after an initial testing in another laboratory. A total of 30 CF fetuses and 8 cases compatible with CFTR-related disorders were identified. CFTR rearrangements were found in 5/30 CF fetuses. 21.2% of fetuses carrying a frequent mutation had a second rare mutation, indicative of CF. The frequency of CF among fetuses with no frequent mutation was 0.43%. Correlation with ultrasound patterns revealed a significant frequency of multiple bowel anomalies in CF fetuses. The results emphasize the need to search for rearrangements in the diagnosis strategy of fetal bowel anomalies. The diagnostic value of ultrasound patterns combining hyperechogenic bowel, loop dilatation and/or non-visualized gallbladder reveals a need to revise current strategies and to offer extensive CFTR gene testing when the triad is diagnosed, even when no frequent mutation is found in the first-step analysis.

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183 [S1235R] c.[1521_1523delCTT]? Login to comment
189 [S1235R] c.[2758G[A]? Login to comment
275 Screening for frequent mutations refers to use of a commercial kit Identification of CFTR-RD mutations, mutations of unknown significance and questionable cases makes genetic counseling delicate As rarely reported (Abramowicz et al. 2000), mild or CFTR-RD associated mutations might be found incidentally while searching for CF-causing defects, in particular when one CF mutation has been identified, as was the case in our study for the splicing T5 variant of intron 8 (c.1210-12T[5]), S1235R (p.Ser1235Arg, c.3705T[G), or the complex [D443Y;G576A;R668C] allele(p. Login to comment
281 Qualification of a potential deleterious effect of V920M could not be done because the fetus also carried the mild S1235R mutation on the other allele and was not affected with CF. Login to comment

[hide] The etiology of acute recurrent pancreatitis in ch... Pancreas. 2011 May;40(4):517-21. Lucidi V, Alghisi F, Dall'Oglio L, D'Apice MR, Monti L, De Angelis P, Gambardella S, Angioni A, Novelli G
The etiology of acute recurrent pancreatitis in children: a challenge for pediatricians.
Pancreas. 2011 May;40(4):517-21., [PMID:21499205]

Abstract [show]
OBJECTIVES: To assess specific etiologies of acute recurrent pancreatitis at a single Italian pediatric cystic fibrosis (CF) center. METHODS: We studied, retrospectively, 78 young patients (39 female subjects; mean age at diagnosis, 8.8 +/- 5.1 years) affected by acute recurrent episodes of pancreatitis, remained etiologically undiagnosed at first-level assessment. All patients were submitted to endoscopic retrograde cholangiopancreatography to exclude biliopancreatic malformations and tested for CF by a sweat chloride test. Most patients also were studied for the research of CFTR, PRSS1, and SPINK1 gene mutations. RESULTS: A high percentage of family history for chronic pancreatitis was observed (20.5%). The sweat test identified 8 subjects (10.3%) with classic CF (2 patients) or at risk for CF (6 patients). Genetic analysis showed mutations in CFTR, SPINK1, and PRSS1 genes in 39.6%, 7.1%, and 4.5% of patients, respectively. A biliopancreatic malformation was diagnosed in 15 patients (19.2%). We also observed biliary lithiasis (5 patients [6.5%]), congenital pancreatic polycystosis (2 patients), a case of dyslipidemia, and 1 patient with a posttransplantation, drug-induced pancreatitis. CONCLUSIONS: Recurrent pancreatitis in children has several etiologies. Genetic testing confirms the high frequency of CFTR mutations. This suggests that it is of some value to identify patients with late-onset CF and CFTR-related disorders.

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46 Genetic Findings Observed in Our Study Population and Related Clinical Features CFTR PRSS1 SPINK1 Clinical CharacteristicsMutations IVS8 F508del/UN 9T/9T S181G/- NEG No respiratory symptoms 3849+10KbC9T/UN 7T/7T NEG NEG No respiratory symptoms UN/UN 7T/7T NEG N34S/- UN/UN 5T/7T NEG NEG No respiratory symptoms 1899-136T/C/UN 5T/7T NEG NEG No respiratory symptoms F508del/UN 5T/9T NEG NEG No respiratory symptoms D1152H/D1152H NEG NEG No respiratory symptoms R75Q/UN 5T/7T NEG NEG No respiratory symptoms L997F/UN 7T/9T NEG NEG No respiratory symptoms UN/UN 7T/7T NEG N34S/- W1282X/I148T 7T/9T NEG NEG No respiratory symptoms NEG N34S/- R75Q/F1052V NEG NEG No respiratory symptoms F508del/D1152H NEG NEG Bronchiectasis-CF 406-6T/C/E528E 7T/7T NEG NEG No respiratory symptoms F508del/UN 7T/9T Mild respiratory symptomsYCF L967S/L997F NEG NEG No respiratory symptoms E528E/UN 5T/7T Crohn disease, food allergy 1716 G/A/UN 7T/7T NEG NEG No respiratory symptoms 1898+1G9A/UN 7T/7T No respiratory symptoms R31C/UN No respiratory symptoms R75Q/UN 7T/7T NEG NEG No respiratory symptoms N29T;V212I; D217Y NEG F508del/UN 7T/9T NEG NEG Pancreas divisum S1235R/UN 7T/9T NEG NEG Duodenal stenosis Entries in bold font undelines the detection of mutations or polymorphisms in the studied genes. Login to comment

[hide] Recommendations for the classification of diseases... J Cyst Fibros. 2011 Jun;10 Suppl 2:S86-102. Bombieri C, Claustres M, De Boeck K, Derichs N, Dodge J, Girodon E, Sermet I, Schwarz M, Tzetis M, Wilschanski M, Bareil C, Bilton D, Castellani C, Cuppens H, Cutting GR, Drevinek P, Farrell P, Elborn JS, Jarvi K, Kerem B, Kerem E, Knowles M, Macek M Jr, Munck A, Radojkovic D, Seia M, Sheppard DN, Southern KW, Stuhrmann M, Tullis E, Zielenski J, Pignatti PF, Ferec C
Recommendations for the classification of diseases as CFTR-related disorders.
J Cyst Fibros. 2011 Jun;10 Suppl 2:S86-102., [PMID:21658649]

Abstract [show]
Several diseases have been clinically or genetically related to cystic fibrosis (CF), but a consensus definition is lacking. Here, we present a proposal for consensus guidelines on cystic fibrosis transmembrane conductance regulator (CFTR)-related disorders (CFTR-RDs), reached after expert discussion and two dedicated workshops. A CFTR-RD may be defined as "a clinical entity associated with CFTR dysfunction that does not fulfil diagnostic criteria for CF". The utility of sweat testing, mutation analysis, nasal potential difference, and/or intestinal current measurement for the differential diagnosis of CF and CFTR-RD is discussed. Algorithms which use genetic and functional diagnostic tests to distinguish CF and CFTR-RDs are presented. According to present knowledge, congenital bilateral absence of vas deferens (CBAVD), acute recurrent or chronic pancreatitis and disseminated bronchiectasis, all with CFTR dysfunction, are CFTR-RDs.

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139 [R74W;V201M;D1270N] and S1235R-IVS8-5T [37,38,66, 68]. Login to comment

[hide] The role of common single-nucleotide polymorphisms... Hum Mutat. 2004 Aug;24(2):120-9. Steiner B, Truninger K, Sanz J, Schaller A, Gallati S
The role of common single-nucleotide polymorphisms on exon 9 and exon 12 skipping in nonmutated CFTR alleles.
Hum Mutat. 2004 Aug;24(2):120-9., [PMID:15241793]

Abstract [show]
Classic cystic fibrosis (CF) is caused by two loss-of-function mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene, whereas patients with nonclassic CF have at least one copy of a mutant gene that retains partial function of the CFTR protein. In addition, there are several other phenotypes associated with CFTR gene mutations, such as idiopathic chronic pancreatitis. In CFTR-associated disorders and in nonclassic CF, often only one CFTR mutation or no CFTR mutations can be detected. In this study, we screened 23 patients with CFTR-associated disorders for CFTR mutations by complete gene testing and quantitative transcript analysis. Mutations were found in 10 patients. In cells from respiratory epithelium, we detected aberrant splicing of CFTR mRNA in all investigated individuals. We observed a highly significant association between the presence of coding single-nucleotide polymorphisms (coding SNPs, or cSNPs) and increased skipping of exon 9 and 12. This association was found both in patients and in normal individuals carrying the same cSNPs. The cSNPs c.1540A>G, c.2694T>G, and c.4521G>A may have affected pre-mRNA splicing by changing regulatory sequence motifs of exonic splice enhancers, leading to lower amounts of normal transcripts. The analysis of CFTR exons indicated that less frequent and weak exonic splicing enhancer (ESE) motifs make exon 12 vulnerable to skipping. The number of splice variants in individuals with cSNPs was similar to previously reported values for the T5 allele, suggesting that cSNPs may enhance susceptibility to CFTR related diseases. In addition, cSNPs may be responsible for variation in the phenotypic expression of CFTR mutations. Quantitative approaches rather than conventional genomic analysis are required to interpret the role of cSNPs.

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88 RESULTS Characterization of the CFTR Gene Mutations Mutations (c.575T4C (p.I148T), c.2890G4A (p.V920M), c.3586G4C (p.D1152H), and c.3837T4G (p.S1235R)) were found in 4 out of 66 healthy individuals (6%), a nonsignificant increase compared to the 4% carrier frequency reported in the literature for the Swiss population [Hergersberg et al., 1997]. Login to comment

[hide] Molecular evaluation of CFTR sequence variants in ... Int J Androl. 2005 Oct;28(5):284-90. Larriba S, Bonache S, Sarquella J, Ramos MD, Gimenez J, Bassas L, Casals T
Molecular evaluation of CFTR sequence variants in male infertility of testicular origin.
Int J Androl. 2005 Oct;28(5):284-90., [PMID:16128988]

Abstract [show]
Although the involvement of the CFTR gene has been well established in congenital agenesia of vas deferens, its role in non-obstructive (NOb) infertility is still a matter of debate. In order to definitively define the involvement of the CFTR gene in spermatogenic impairment and a potential synergistic contribution to known genetic and clinical factors, genetic variants in the entire coding sequence and the immediately flanking regions of the CFTR gene, along with a thorough clinical evaluation, were analysed in 83 NOb infertile patients and 87 clinically well-defined fertile individuals as controls. The results of our study showed no statistical difference between CFTR carrier frequency in the infertile and fertile population. Specifically, the IVS8-6(5T) allele carrier frequency was similar in NOb infertile patients when compared with fertile men, but it is noteworthy that, when fertile men were classified into having optimal and suboptimal fertility, no 5T allele was found among the 35 men with optimal fertility parameters. In conclusion, extensive CFTR analysis in infertile individuals and fertile population as adequate control definitively excludes the involvement of the CFTR gene variants in sperm production and stresses the importance of carefully identifying those individuals with obstructive defects, in whom CFTR screening will be beneficial.

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51 CFTR analysis We identified 14 different, potential disease-causing CFTR sequence variants, 11 of them are translated into missense amino acid changes (p.R75Q, p.P111L, p.R117H, p.I148T, p.R334W, p.M348K, p.G576A, p.R668C, p.D1270N, p.S1235R and p.S1426F), one deletion (p.F508del) and two alleles affecting exon splicing [IVS8-6(5T), c.1716G>A] in 30 of 83 infertile patients (Table 1) giving a frequency of 36.1%. Login to comment
53 Thirteen CFTR gene sequence variants [p.R75Q, p.I148T, p.T351S, p.F508del, p.G576A, p.R668C, p.E725K, p.V754M, p.D836Y, p.L997F, p.S1235R, IVS8-6(5T) and c.1716G>A] were determined in 11 F1 and 15 F2 individuals (Table 1) giving a frequency of 29.9%. Login to comment
72 Description of genetic abnormalities and other risk factors of infertile and fertile CFTR carrier individuals No. Phenotype CFTR genotype Associated factors Testicular histologya b c Infertile individuals 1 NOb (SO) p.R75Q No Severe hypospermatogenesis 2 NOb (SO) p.R75Q No nd 3 NOb (A) p.P111L AZFb,c del Sertoli cell only 4 NOb (A) p.R117H AZFc del Severe hypospermatogenesis 5 NOb (SO) p.I148T No Severe hypospermatogenesis 6 NOb (A) p.R334W No Primary spermatocyte arrest 7 NOb (SO) p.M348K UV grade III Primary spermatocyte arrest 8 NOb (A) p.F508del No Sertoli cell only 9 NOb (A) p.F508del No Primary spermatocyte arrest 10 NOb (A) p.G576A, p.R668C No Severe hypospermatogenesis, Leydig cell hyperplasia 11 NOb (SO) p.G576A, p.R668C No Primary spermatocyte arrest (unilateral) 12 NOb (SO) p.G576A, p.R668C No Severe hypospermatogenesis 13 NOb (A) p.R668C UC Sertoli cell-only (incomplete) 14 NOb (SO) p.D1270N No nd 15 NOb (SO) p.S1235R No Severe hypospermatogenesis 16 NOb (SO) p.S1426F* UC Sertoli cell only 17 NOb (A) (T)5-(TG)12 No Severe hypospermatogenesis, Sertoli cell only (80%) 18 NOb (A) (T)5-(TG)12 No Sertoli cell only 19 NOb (SO) (T)5-(TG)11 UV grade III Bilateral moderate hypospermatogenesis 20 NOb (SO) (T)5-(TG)11 UV grade II Severe hypospermatogenesis 21 NOb (A) (T)5-(TG)11 No nd 22 NOb (SO) c.1716 G>A Dysplasia SV Severe hypospermatogenesis, Sertoli cell only (95%) 23 NOb (A) c.1716 G>A No nd 24 NOb (A) c.1716 G>A No Primary spermatocyte arrest (bilateral) 25 NOb (SO) c.1716 G>A No Sertoli cell only (95%) 26 NOb (SO) c.1716 G>A No Severe hypospermatogenesis 27 NOb (SO) c.1716 G>A UV grade III Severe hypospermatogenesis 28 NOb (SO) c.1716 G>A No nd 29 NOb (SO) c.1716 G>A No nd 30 NOb (SO) c.1716 G>A AZFc del Severe hypospermatogenesis Fertile individuals 1 F1 p.R75Q No nd 2 F1 p.F508del No nd 3 F1 p.F508del No nd 4 F1 p.G576A, p.R668C/ c.1716 G>A No nd 5 F1 p.D836Y No nd 6 F1 p.S1235R/c.1716 G>A No nd 7 F1 c.1716 G>A No nd 8 F1 c.1716 G>A No nd 9 F1 c.1716 G>A No nd 10 F1 c.1716 G>A No nd 11 F1 c.1716 G>A No nd 12 F2 p.R75Q No nd the expected CF carrier frequency in the local population (Van der Ven et al., 1996; Larriba et al., 2001; Dohle et al., 2002) or with the general population (Jakubiczka et al., 1999; Pallares-Ruiz et al., 1999; Ravnik-Glavac et al., 2001) and not normospermic fertile individuals, the latter considered as adequate controls. Login to comment

[hide] Increased risk of idiopathic chronic pancreatitis ... Hum Mutat. 2005 Oct;26(4):303-7. Cohn JA, Neoptolemos JP, Feng J, Yan J, Jiang Z, Greenhalf W, McFaul C, Mountford R, Sommer SS
Increased risk of idiopathic chronic pancreatitis in cystic fibrosis carriers.
Hum Mutat. 2005 Oct;26(4):303-7., [PMID:16134171]

Abstract [show]
Cystic fibrosis (CF) is a recessive disease caused by mutations of the CF transmembrane conductance regulator (CFTR) gene. The risk of idiopathic chronic pancreatitis (ICP) is increased in individuals who have CFTR genotypes containing a CF-causing mutation plus a second pathogenic allele. It is unknown whether the risk of ICP is increased in CF carriers who have one CF-causing mutation plus one normal allele. In this study, 52 sporadic cases of ICP were ascertained through the European Registry of Hereditary Pancreatitis and Familial Pancreatic Cancer. Individuals with pathogenic cationic trypsinogen mutations were excluded. DNA was comprehensively tested for CFTR mutations using a robotically enhanced, multiplexed, and highly redundant form of single-strand conformation polymorphism (SSCP) analysis followed by DNA sequencing. Fifteen subjects had a total of 18 pathogenic CFTR alleles. Eight subjects had common CF-causing mutations. This group included seven CF carriers in whom the second CFTR allele was normal (4.3 times the expected frequency, P=0.0002). Three subjects had compound heterozygotes genotypes containing two pathogenic alleles (31 times the expected frequency, P<0.0001). A variant allele of uncertain significance (p.R75Q) was detected in eight of the 52 ICP subjects and at a similar frequency (13/96) in random donors. ICP differs from other established CFTR-related conditions in that ICP risk is increased in CF carriers who have one documented normal CFTR allele. Having two CFTR mutations imparts a higher relative risk, while having only one mutation imparts a higher attributable risk.

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93 Abnormal CFTR Genotypes Detected in 52 Patients with ICPa Genotype categorya ] Patients Genotypes detectedb Compound heterozygotes and homozygotes 3 p.F508del / p.L967S p.D1152H / p.D1152H p.V920M / p.L967S Heterozygotes, common mutation causing classic CFa 7 p.F508del /^ ('ve subjects)c p.R560T/^ p.G542X /^ Heterozygotes, uncommon mutation causing variable phenotype 3 p.S1235R /^ p.A209S /^ p.L997F/^ Heterozygotes, common CBAVD-associated mutation 2 IVS8(5T) /^ (two subjects) a Common CF-mutations consistently cause classic CF in compound heterozygotes and homozygotes [Rosenstein and Cutting, 1998]. Login to comment
106 If p.R75Q is reclassified as an uncommon mutation causing a variable phenotype, this would change the genotype category for four subjects: one CF carrier would become a compound heterozygote (p.F508del/p.R75Q), two heterozygotes would become compound heterozygotes (p.S1235R/ p.R75Q and p.A209S/p.R75Q), and one normal genotype would become a compound heterozygote or homozygote (p.R75Q/ p.R75Q). Login to comment

[hide] Mutations of the cystic fibrosis gene in patients ... Ann Rheum Dis. 2011 Apr;70(4):653-9. Epub 2010 Dec 3. Puechal X, Bienvenu T, Genin E, Berthelot JM, Sibilia J, Gaudin P, Marcelli C, Lasbleiz S, Michou L, Cornelis F, Kahan A, Dusser DJ
Mutations of the cystic fibrosis gene in patients with bronchiectasis associated with rheumatoid arthritis.
Ann Rheum Dis. 2011 Apr;70(4):653-9. Epub 2010 Dec 3., [PMID:21131649]

Abstract [show]
OBJECTIVES: In cystic fibrosis, mutations of the CFTR gene lead to diffuse bronchiectasis (DB). DB is also associated with other diseases including rheumatoid arthritis (RA) in which the role of genetic factors in the predisposition to DB remains unclear. METHODS: A family-based association study was carried out to determine whether the frequency of CFTR mutations was higher in patients with RA-associated DB and to determine whether a causal relationship could be established between the variant and the disease by evaluating its cosegregation with DB within families. Families of probands with RA-DB were included if one first-degree relative had RA and/or DB. The controls comprised healthy subjects requesting genetic counselling because their partner had cystic fibrosis. RESULTS: The frequency of CFTR mutations was higher in family members with RA-DB or DB only than in unaffected relatives (p<0.005 for each comparison) and in unrelated healthy controls (p<0.001 for each comparison) but not in family members with RA only. CFTR mutations were more frequent in family members with RA-DB than in those with RA only (OR 5.30, 95% CI 2.48 to 11.33; p<5x10(-5)). They cosegregated with RA-DB in the families (sib-TDT=10.82, p=0.005). CONCLUSIONS: RA-DB should be added to the list of phenotypes in which CFTR mutations are pathogenic. CFTR mutation is the first genetic defect linked to an extra-articular feature of RA to be described. CFTR mutations in patients with RA appear to be an important marker of the risk of associated DB, which has been linked to a less favourable prognosis.

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61 Table 1 CFTR genotypes of the family population Family (N=24) CFTR genotypes RA-DB (N=30) DB only (N=8) RA only (N=24) Unaffected individuals (N=76) 1 c.1584G>A (p.Glu528Glu ):- 1 -:- 1 2 p.Gly424Ser+p.Gly576Ala 1 p.Gly424Ser:- 1 p.Arg75Gln:- 1 1 3 p.Phe508del (c.1521_1523delCTT)+5T (c.1210-12[5]) 1 p.Phe508del:- 1 2 2 5T (c.1210-12[5]):- 1 -:- 1 4 5T (c.1210-12[5]):- 1 1 2 -:- 1 2 1 p.Phe1052Val:- 1 5 5T (c.1210-12[5]):- 1 6 p.Phe508del+p.Ser977Phe-5T (c.1210-12[5]) 1 1 1 p.Phe508del:- 1 p.Ser977Phe-5T (c.1210-12[5]):- 3 7 p.Arg75Gln:- 2 8 p.Asp1152His+c.262_263delTT 1 1 p.Asp1152His+c.-7G>C 1 c.262_263delTT:- 1 9 c.1584G>A (p.Glu528Glu ):- 1 p.Arg75Gln:- 1 -:- 1 5 10 10 c.-7G>C:- 1 -:- 1 8 11 p.Ser1235Arg:- 1 1 -:- 1 12 p.Ala923Ala:- 1 1 13 c.1584G>A (p.Glu528Glu ):- 1 1 1 p.Ala923Ala:- 1 14 c.1584G>A (p.Glu528Glu ):- 2 1 -:- 1 3 15 -:- 1 1 5 16 -:- 1 1 7 17 -:- 2 1 3 18 -:- 1 1 19 -:- 1 1 2 20 -:- 1 1 21 -:- 1 1 3 22 -:- 1 1 6 23 -:- 1 1 3 24 -:- 1 1 7 Total no. Login to comment

[hide] CFTR mutation combinations producing frequent comp... Hum Mutat. 2012 Nov;33(11):1557-65. doi: 10.1002/humu.22129. Epub 2012 Jul 2. El-Seedy A, Girodon E, Norez C, Pajaud J, Pasquet MC, de Becdelievre A, Bienvenu T, des Georges M, Cabet F, Lalau G, Bieth E, Blayau M, Becq F, Kitzis A, Fanen P, Ladeveze V
CFTR mutation combinations producing frequent complex alleles with different clinical and functional outcomes.
Hum Mutat. 2012 Nov;33(11):1557-65. doi: 10.1002/humu.22129. Epub 2012 Jul 2., [PMID:22678879]

Abstract [show]
Genotype-phenotype correlations in cystic fibrosis (CF) may be difficult to establish because of phenotype variability, which is associated with certain CF transmembrane conductance regulator (CFTR) gene mutations and the existence of complex alleles. To elucidate the clinical significance of complex alleles involving p.Gly149Arg, p.Asp443Tyr, p.Gly576Ala, and p.Arg668Cys, we performed a collaborative genotype-phenotype correlation study, collected epidemiological data, and investigated structure-function relationships for single and natural complex mutants, p.[Gly576Ala;Arg668Cys], p.[Gly149Arg;Gly576Ala;Arg668Cys], and p.[Asp443Tyr;Gly576Ala;Arg668Cys]. Among 153 patients carrying at least one of these mutations, only three had classical CF and all carried p.Gly149Arg in the triple mutant. Sixty-four had isolated infertility and seven were healthy individuals with a severe mutation in trans, but none had p.Gly149Arg. Functional studies performed on all single and natural complex mutants showed that (1) p.Gly149Arg results in a severe misprocessing defect; (2) p.Asp443Tyr moderately alters CFTR maturation; and (3) p.Gly576Ala, a known splicing mutant, and p.Arg668Cys mildly alter CFTR chloride conductance. Overall, the results consistently show the contribution of p.Gly149Arg to the CF phenotype, and suggest that p.[Arg668Cys], p.[Gly576Ala;Arg668Cys], and p.[Asp443Tyr;Gly576Ala;Arg668Cys] are associated with CFTR-related disorders. The present study emphasizes the importance of comprehensive genotype-phenotype and functional studies in elucidating the impact of mutations on clinical phenotype. Hum Mutat 33:1557-1565, 2012. (c) 2012 Wiley Periodicals, Inc.

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107 of patients Main diagnosis Additional information Age at diagnosis Sweat test (Cl-,mmol/L) Allele 1 Allele 2 1 FBA Fetal death 20 wg NA p.[Gly576Ala;Arg668Cys] p.Ser1235Arg 1 FBA Unknown outcome p.Arg668Cys p.Phe508del 1 FBA Not CF at birth 38 wg NA p.[Asp443Tyr;Gly576Ala;Arg668Cys] NI 1 FBA Not CF at birth 28 wg NA p.[Gly576Ala;Arg668Cys] NI 1 Healthy CF patient`s mother NA NA p.[Asp443Tyr;Gly576Ala;Arg668Cys] p.Phe508del 1 Healthy Newborn, elevated IRT but normal ST (not CF) Birth <30 p.[Gly576Ala;Arg668Cys] p.Phe508del 1 Healthy Mother of a CF fetus (p.[Phe508del]+ [phe508del]) NA NA p.[Gly576Ala;Arg668Cys] p.Phe508del 1 Healthy Mother of a fetus with FBA but not affected with CF NA NA p.[Gly576Ala;Arg668Cys] p.Phe508del 2 Healthy Mother of a fetus with FBA but not affected with CF NA NA p.[Gly576Ala;Arg668Cys] NI 1 Healthy CF patient`s mother 59 y NA p.[Gly576Ala;Arg668Cys] p.Phe508del 1 Healthy CF patient`s mother NA NA p.[Gly576Ala;Arg668Cys] p.[Ser912Leu;Asn1303Lys] 1 Healthy CF patient`s mother 32 y NA p.[Gly576Ala;Arg668Cys] p.Leu137Arg 1 Healthy CF carrier`s partner NA NA p.[Gly576Ala;Arg668Cys] c. Login to comment

[hide] Newborn screening for cystic fibrosis: Polish 4 ye... Eur J Hum Genet. 2012 Aug 15. doi: 10.1038/ejhg.2012.180. Sobczynska-Tomaszewska A, Oltarzewski M, Czerska K, Wertheim-Tysarowska K, Sands D, Walkowiak J, Bal J, Mazurczak T
Newborn screening for cystic fibrosis: Polish 4 years' experience with CFTR sequencing strategy.
Eur J Hum Genet. 2012 Aug 15. doi: 10.1038/ejhg.2012.180., [PMID:22892530]

Abstract [show]
Newborn screening for cystic fibrosis (NBS CF) in Poland was started in September 2006. Summary from 4 years' experience is presented in this study. The immunoreactive trypsin/DNA sequencing strategy was implemented. The group of 1 212 487 newborns were screened for cystic fibrosis during the programme. We identified a total of 221 CF cases during this period, including, 4 CF cases were reported to be omitted by NBS CF. Disease incidence in Poland based on the programme results was estimated as 1/4394 and carrier frequency as 1/33. The frequency of the F508del was similar (62%) to population data previously reported. This strategy allowed us to identify 29 affected infants with rare genotypes. The frequency of some mutations (eg, 2184insA, K710X) was assessed in Poland for the first time. Thus, sequencing assay seems to be accurate method for screening programme using blood spots in the Polish population.European Journal of Human Genetics advance online publication, 15 August 2012; doi:10.1038/ejhg.2012.180.

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57 Mutations D537N and P731L have not been Period of NBS CF Method The most frequent mutations in Polish population under analysis September 2006 - December 2007 Estonia Asper Biotech assay E60X, G85E, 394delTT, R117H, R117P, R117L, I148T, 621G>A, 711+1G>T, 711+5G>A, 1078delT, R334W, R347H, R347P, R347L, IVS8-T, A455E, I507del, F508del, 1717-1G>A, G542X, p.G551D, Q552X, R553X, R553G, R560T, R560K, 1898+1G>A, 1898+1G>T, 1898+1G>C, 2143delT, 2184delA, 2183AA>G, 2789+5G>A, 3120+1G>A, 3199del6, 3272-26A>G, R1162X, 3659delC, 3849+10kbC>T, 3905insT, S1235R, S1251N, W1282X, W1282C, N1303K, CFTRdele2,3 January 2007 - June 2009 Sanger sequencing of exons: 4, 7, 10, 11, 13, 21, fragment of intron 19 F508del, CFTRdele2,3, 3849+10kbC>T, R117H+IVS8-T*, R334W, R347P, 1717-1G>A, G542X, R553X, K710X, 2184insA, 2143delT, 2183AA>G, N1303K July 2009 - currently Sanger sequencing of exons: 7, 10, 11, 13, 17b, 20, 21, fragment of intron 19 F508del, CFTRdele2,3, 3849+10kbC>T, R334W, R347P, 1717-1G>A, G542X, R553X, K710X, 2184insA, 2143delT, 2183AA>G, N1303K, 3272-26A>G**, W1282X** * removed from DNA analysis since July 2009 , **added into DNA analysis since July 2009 Figure 1 NBS CF in Poland. Login to comment

[hide] CFTR, SPINK1, CTRC and PRSS1 variants in chronic p... Gut. 2012 Mar 17. Rosendahl J, Landt O, Bernadova J, Kovacs P, Teich N, Bodeker H, Keim V, Ruffert C, Mossner J, Kage A, Stumvoll M, Groneberg D, Kruger R, Luck W, Treiber M, Becker M, Witt H
CFTR, SPINK1, CTRC and PRSS1 variants in chronic pancreatitis: is the role of mutated CFTR overestimated?
Gut. 2012 Mar 17., [PMID:22427236]

Abstract [show]
OBJECTIVE: In chronic pancreatitis (CP), alterations in several genes have so far been described, but only small cohorts have been extensively investigated for all predisposing genes. DESIGN: 660 patients with idiopathic or hereditary CP and up to 1758 controls were enrolled. PRSS1, SPINK1 and CTRC were analysed by DNA sequencing, and cystic fibrosis transmembrane conductance regulator (CFTR) by melting curve analysis. RESULTS: Frequencies of CFTR variants p.R75Q, p.I148T, 5T-allele and p.E528E were comparable in patients and controls. We identified 103 CFTR variants, which represents a 2.7-fold risk increase (p<0.0001). Severe cystic fibrosis (CF)-causing variants increased the risk of developing CP 2.9-fold, and mild CF-causing variants 4.5-fold (p<0.0001 for both). Combined CF-causing variants increased CP risk 3.4-fold (p<0.0001), while non-CF-causing variants displayed a 1.5-fold over-representation in patients (p=0.14). CFTR compound heterozygous status with variant classes CF-causing severe and mild represented an OR of 16.1 (p<0.0001). Notably, only 9/660 (1.4%) patients were compound heterozygotes in this category. Trans-heterozygosity increased CP risk, with an OR of 38.7, with 43/660 (6.5%) patients and 3/1667 (0.2%) controls being trans-heterozygous (p<0.0001). CONCLUSIONS: Accumulation of CFTR variants in CP is less pronounced than reported previously, with ORs between 2.7 and 4.5. Only CF-causing variants reached statistical significance. Compound and trans-heterozygosity is an overt risk factor for the development of CP, but the number of CFTR compound heterozygotes in particular is rather low. In summary, the study demonstrates the complexity of genetic interactions in CP and a minor influence of CFTR alterations in CP development.

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72 The following CFTR variants were analysed with specific FRET probes: p.E60X, p.R75Q, p.G85E, p.R117H, p.I148T, c.621 +1G>T (IVS4+1G>T), c.711+1G>T (IVS5+1G>T), c.1078delT, p.R334W, p.R347P, 9-13TG, 5-9T, p.A455E, p.M470V, p.F508del, c.1716G>A (p.E528E), c.1717-1G>A (IVS10-1G>A), p.G542X, p.S549N, p.R553X, p.R560T, c.1898+1G>A (IVS12 +1G>A), c.2143delT, c.2183AA>G, c.2562T>G, c.2657+5G>A (IVS14B+5G>A), p.L997F, p.I1005R, p.Y1092X, p.D1152H, p.R1162X, c.3659delC, p.S1235R, p.S1251N, p.W1282X, p.N1303K, and c.4389G>A. Login to comment
94 Notably, p.I148T was never found in cis with c.3199del6, and p.S1235R was always associated with p.G628 (wild-type). Login to comment
140 Variant distribution in patients aged >20 and <20 years In younger patients, overall PRSS1 variants were 2.9-fold more common (>20 years: 9/239, 3.8%; <20 years: 46/421, 10.9%; p¼0.001, OR 3.1, 95% CI 1.5 to 6.5), whereas overall SPINK1 variants were similarly distributed (56/239, 23.4%; 73/421, Table 2 CFTR variants detected by melting curve analysis Gene Variant Patients Controls p Value OR (95% CI) CFTR (CF-causing, severe) p.F508del 44/660 (6.7%) 48/1758 (2.7%) <0.0001 2.5 (1.7 to 3.9) p.R117H (5T/7T) 2/660 (0.3%) 1/1758 (0.06%) NS e p.G542X 1/660 (0.2%) 1/1758 (0.06%) NS e c.1717-1G>A 3/660 (0.5%) 1/1758 (0.06%) NS e p.E585X 0/660 1/1758 (0.06%) NS e c.2183AA>G 0/660 1/1758 (0.06%) NS e p.R1158X 1/660 (0.2%) 0/1758 NS e p.R1162X 1/660 (0.3%) 0/1758 NS e p.N1303K 3/660 (0.5%) 0/1758 NS e Total 55/660 (8.3%) 53/1758 (3%) <0.0001 2.9 (2 to 4.3) CFTR (CF-causing mild) p.R117H (7T/7T) 13/660 (2%) 8/1758 (0.5%) 0.0009 4.4 (1.8 to 10.7) p.R117H (7T/9T) 3/660 (0.5%) 1/1758 (0.06%) NS e p.R347H 1/660 (0.2%) 0/1758 NS e p.R347P 1/660 (0.2%) 0/1758 NS e p.A455E 1/660 (0.2%) 0/1758 NS e c.2657+5G>A 1/660 (0.2%) 0/1758 NS e p.D1152H 3/660 (0.5%) 5/1758 (0.3%) NS e Total 23/660 (3.5%) 14/1758 (0.8%) <0.0001 4.5 (2.3 to 8.8) CFTR (non CF-causing) p.R74Q 2/660 (0.3%) 0/1758 NS e p.R75Q (het)* 29/660 (4.4%) 59/1758 (3.4%) NS e p.R75Q (hom)* 2/660 (0.3%) 1/1758 (0.06%) NS e p.Y84H 0/660 1/1758 (0.06%) NS e p.A120T 0/660 1/1758 (0.06%) NS e p.I148T* 4/660 (0.6%) 11/1758 (0.6%) NS e p.I507V 1/660 (0.2%) 2/1758 (0.1%) NS e p.F508C 1/660 (0.2%) 0/1758 NS e c.1716+12T>C 0/660 1/1758 (0.06%) NS e p.E528E (het)* 36/660 (5.5%) 82/1758 (4.7%) NS e p.E528E (hom)* 0/660 2/1758 (0.1%) NS e c.1898+8C>G 0/660 1/1758 (0.06%) NS e p.H667Y 1/660 (0.2%) 0/1758 NS e p.R668C 5/660 (0.8%) 3/1758 (0.2%) NS e p.G691R 0/660 1/1758 (0.06%) NS e p.L997F 5/660 (0.8%) 6/1758 (0.3%) NS e p.S1235R 10/660 (1.5%) 18/1758 (1.0%) NS e Total (excluded)* 25/660 (3.8%) 45/1758 (2.6%) NS e CFTR (CF-causing) Total (all) 78/660 (11.8%) 67/1758 (3.8%) <0.0001 3.4 (2.4 to 4.8) CFTR (all) Total (excluded)* 103/660 (15.6%) 112/1758 (6.4%) <0.0001 2.7 (2 to 3.6) The table is divided into three parts. Login to comment
150 Table 4 Homozygous and compound heterozygous patients and controls with at least two CFTR, SPINK1 or CTRC variants Gene Variant Patients Controls p Value OR (95% CI) CFTR (CF-causing severe or CF-causing mild/CF-causing mild) p.F508del/p.R117H (7T/9T) 2/660 (0.3%) 1/1758 (0.06%) NS e p.F508del/p.R347H 1/660 (0.2%) 0/1758 NS e p.F508del/p.D1152Hy 1/660 (0.2%) 0/1758 NS e p.R117H (7T/7T)/c.2657+5G>A 1/660 (0.2%) 0/1758 NS e p.R117H (7T/7T)/p.R1158X 1/660 (0.2%) 0/1758 NS e p.R117H (7T/7T)/c.1717-1G>A 1/660 (0.2%) 0/1758 NS e p.R117H (7T/9T)/p.N1303K 1/660 (0.2%) 0/1758 NS e p.D1152Hy/p.N1303K 1/660 (0.2%) 0/1758 NS e Total 9/660 (1.4%) 1/1758 (0.06%) 0.002 16.1 (1.9 to 134.2) CFTR (CF-causing severe or CF-causing mild or non-CF-causing/Non-CF-causing) p.F508del/p.R75Q* 0/660 1/1758 (0.06%) NS e p.F508del/5T* 2/660 (0.3%) 1/1758 (0.06%) NS e p.F508del/p.E528E* 2/660 (0.3%) 2/1758 (0.1%) NS e p.R75Q*/5T* 1/660 (0.2%) 1/1758 (0.06%) NS e p.R75Q*/p.E528E* 2/660 (0.3%) 2/1758 (0.1%) NS e p.R117H (7T/7T)/p.R75Q* 1/660 (0.2%) 0/1758 NS e p.R117H (7T/7T)/p.E528E* 1/660 (0.2%) 0/1758 NS e p.R117H (7T/7T)/p.S1235R 1/660 (0.2%) 0/1758 NS e p.I148T*/5T* 0/660 1/1758 (0.06%) NS e p.R347P/p.E528E* 1/660 (0.2%) 0/1758 NS e p.E528E*/5T* 1/660 (0.2%) 4/1758 (0.23%) NS e p.H667Y/5T* 1/660 (0.2%) 0/1758 NS e p.L997F/5T* 1/660 (0.2%) 0/1758 NS e p.L997F/p.E528E* 0/660 1/1758 (0.06%) NS e p.D1152Hy/5T* 1/660 (0.2%) 0/1758 NS e p.S1235R/5T* 2/660 (0.3%) 1/1758 (0.06%) NS e Total 17/660 (2.6%) 14/1758 (0.8%) 0.001 3.3 (1.6 to 6.7) CFTR Total (all, excluded)* 10/660 (1.5%) 1/1758 (0.06%) <0.0001 27 (3.5 to 211.7) SPINK1 p.N34S (hom) 17/660 (2.6%) 0/1758 <0.0001 95.6 (5.7 to 1594) p.N34S (het)/c.(1-215G>A;194+2T>C) 7/660 (1.1%) 0/1758 <0.0001 40.4 (2.3 to 708.2) Total 24/660 (3.6%) 0/1758 <0.0001 135.4 (8.2 to 2231) CTRC p.R254W (hom) 1/546 (0.2%) 0/1700 NS e p.R254W/p.V235I 1/546 (0.2%) 0/1700 NS e Total 2/546 (0.4%) 0/1700 NS e For CFTR compound heterozygous carriers, calculations were performed for patients and controls carrying a combination of one CF-causing severe or a CF-causing mild in addition with one CF-causing mild variant (upper section). Login to comment
152 All compound heterozygotes in this section except one (p.R117H (7T/7T)/p.S1235R) carry CFTR variants that were not over-represented in patients on at least one allele. Login to comment
69 The following CFTR variants were analysed with specific FRET probes: p.E60X, p.R75Q, p.G85E, p.R117H, p.I148T, c.621 +1G>T (IVS4+1G>T), c.711+1G>T (IVS5+1G>T), c.1078delT, p.R334W, p.R347P, 9-13TG, 5-9T, p.A455E, p.M470V, p.F508del, c.1716G>A (p.E528E), c.1717-1G>A (IVS10-1G>A), p.G542X, p.S549N, p.R553X, p.R560T, c.1898+1G>A (IVS12 +1G>A), c.2143delT, c.2183AA>G, c.2562T>G, c.2657+5G>A (IVS14B+5G>A), p.L997F, p.I1005R, p.Y1092X, p.D1152H, p.R1162X, c.3659delC, p.S1235R, p.S1251N, p.W1282X, p.N1303K, and c.4389G>A. Login to comment
91 Notably, p.I148T was never found in cis with c.3199del6, and p.S1235R was always associated with p.G628 (wild-type). Login to comment
135 Variant distribution in patients aged >20 and <20 years In younger patients, overall PRSS1 variants were 2.9-fold more common (>20 years: 9/239, 3.8%; <20 years: 46/421, 10.9%; p&#bc;0.001, OR 3.1, 95% CI 1.5 to 6.5), whereas overall SPINK1 variants were similarly distributed (56/239, 23.4%; 73/421, Table 2 CFTR variants detected by melting curve analysis Gene Variant Patients Controls p Value OR (95% CI) CFTR (CF-causing, severe) p.F508del 44/660 (6.7%) 48/1758 (2.7%) <0.0001 2.5 (1.7 to 3.9) p.R117H (5T/7T) 2/660 (0.3%) 1/1758 (0.06%) NS e p.G542X 1/660 (0.2%) 1/1758 (0.06%) NS e c.1717-1G>A 3/660 (0.5%) 1/1758 (0.06%) NS e p.E585X 0/660 1/1758 (0.06%) NS e c.2183AA>G 0/660 1/1758 (0.06%) NS e p.R1158X 1/660 (0.2%) 0/1758 NS e p.R1162X 1/660 (0.3%) 0/1758 NS e p.N1303K 3/660 (0.5%) 0/1758 NS e Total 55/660 (8.3%) 53/1758 (3%) <0.0001 2.9 (2 to 4.3) CFTR (CF-causing mild) p.R117H (7T/7T) 13/660 (2%) 8/1758 (0.5%) 0.0009 4.4 (1.8 to 10.7) p.R117H (7T/9T) 3/660 (0.5%) 1/1758 (0.06%) NS e p.R347H 1/660 (0.2%) 0/1758 NS e p.R347P 1/660 (0.2%) 0/1758 NS e p.A455E 1/660 (0.2%) 0/1758 NS e c.2657+5G>A 1/660 (0.2%) 0/1758 NS e p.D1152H 3/660 (0.5%) 5/1758 (0.3%) NS e Total 23/660 (3.5%) 14/1758 (0.8%) <0.0001 4.5 (2.3 to 8.8) CFTR (non CF-causing) p.R74Q 2/660 (0.3%) 0/1758 NS e p.R75Q (het)* 29/660 (4.4%) 59/1758 (3.4%) NS e p.R75Q (hom)* 2/660 (0.3%) 1/1758 (0.06%) NS e p.Y84H 0/660 1/1758 (0.06%) NS e p.A120T 0/660 1/1758 (0.06%) NS e p.I148T* 4/660 (0.6%) 11/1758 (0.6%) NS e p.I507V 1/660 (0.2%) 2/1758 (0.1%) NS e p.F508C 1/660 (0.2%) 0/1758 NS e c.1716+12T>C 0/660 1/1758 (0.06%) NS e p.E528E (het)* 36/660 (5.5%) 82/1758 (4.7%) NS e p.E528E (hom)* 0/660 2/1758 (0.1%) NS e c.1898+8C>G 0/660 1/1758 (0.06%) NS e p.H667Y 1/660 (0.2%) 0/1758 NS e p.R668C 5/660 (0.8%) 3/1758 (0.2%) NS e p.G691R 0/660 1/1758 (0.06%) NS e p.L997F 5/660 (0.8%) 6/1758 (0.3%) NS e p.S1235R 10/660 (1.5%) 18/1758 (1.0%) NS e Total (excluded)* 25/660 (3.8%) 45/1758 (2.6%) NS e CFTR (CF-causing) Total (all) 78/660 (11.8%) 67/1758 (3.8%) <0.0001 3.4 (2.4 to 4.8) CFTR (all) Total (excluded)* 103/660 (15.6%) 112/1758 (6.4%) <0.0001 2.7 (2 to 3.6) The table is divided into three parts. Login to comment
144 Table 4 Homozygous and compound heterozygous patients and controls with at least two CFTR, SPINK1 or CTRC variants Gene Variant Patients Controls p Value OR (95% CI) CFTR (CF-causing severe or CF-causing mild/CF-causing mild) p.F508del/p.R117H (7T/9T) 2/660 (0.3%) 1/1758 (0.06%) NS e p.F508del/p.R347H 1/660 (0.2%) 0/1758 NS e p.F508del/p.D1152Hy 1/660 (0.2%) 0/1758 NS e p.R117H (7T/7T)/c.2657+5G>A 1/660 (0.2%) 0/1758 NS e p.R117H (7T/7T)/p.R1158X 1/660 (0.2%) 0/1758 NS e p.R117H (7T/7T)/c.1717-1G>A 1/660 (0.2%) 0/1758 NS e p.R117H (7T/9T)/p.N1303K 1/660 (0.2%) 0/1758 NS e p.D1152Hy/p.N1303K 1/660 (0.2%) 0/1758 NS e Total 9/660 (1.4%) 1/1758 (0.06%) 0.002 16.1 (1.9 to 134.2) CFTR (CF-causing severe or CF-causing mild or non-CF-causing/Non-CF-causing) p.F508del/p.R75Q* 0/660 1/1758 (0.06%) NS e p.F508del/5T* 2/660 (0.3%) 1/1758 (0.06%) NS e p.F508del/p.E528E* 2/660 (0.3%) 2/1758 (0.1%) NS e p.R75Q*/5T* 1/660 (0.2%) 1/1758 (0.06%) NS e p.R75Q*/p.E528E* 2/660 (0.3%) 2/1758 (0.1%) NS e p.R117H (7T/7T)/p.R75Q* 1/660 (0.2%) 0/1758 NS e p.R117H (7T/7T)/p.E528E* 1/660 (0.2%) 0/1758 NS e p.R117H (7T/7T)/p.S1235R 1/660 (0.2%) 0/1758 NS e p.I148T*/5T* 0/660 1/1758 (0.06%) NS e p.R347P/p.E528E* 1/660 (0.2%) 0/1758 NS e p.E528E*/5T* 1/660 (0.2%) 4/1758 (0.23%) NS e p.H667Y/5T* 1/660 (0.2%) 0/1758 NS e p.L997F/5T* 1/660 (0.2%) 0/1758 NS e p.L997F/p.E528E* 0/660 1/1758 (0.06%) NS e p.D1152Hy/5T* 1/660 (0.2%) 0/1758 NS e p.S1235R/5T* 2/660 (0.3%) 1/1758 (0.06%) NS e Total 17/660 (2.6%) 14/1758 (0.8%) 0.001 3.3 (1.6 to 6.7) CFTR Total (all, excluded)* 10/660 (1.5%) 1/1758 (0.06%) <0.0001 27 (3.5 to 211.7) SPINK1 p.N34S (hom) 17/660 (2.6%) 0/1758 <0.0001 95.6 (5.7 to 1594) p.N34S (het)/c.(1-215G>A;194+2T>C) 7/660 (1.1%) 0/1758 <0.0001 40.4 (2.3 to 708.2) Total 24/660 (3.6%) 0/1758 <0.0001 135.4 (8.2 to 2231) CTRC p.R254W (hom) 1/546 (0.2%) 0/1700 NS e p.R254W/p.V235I 1/546 (0.2%) 0/1700 NS e Total 2/546 (0.4%) 0/1700 NS e For CFTR compound heterozygous carriers, calculations were performed for patients and controls carrying a combination of one CF-causing severe or a CF-causing mild in addition with one CF-causing mild variant (upper section). Login to comment
146 All compound heterozygotes in this section except one (p.R117H (7T/7T)/p.S1235R) carry CFTR variants that were not over-represented in patients on at least one allele. Login to comment

[hide] Validation of high-resolution DNA melting analysis... J Mol Diagn. 2008 Sep;10(5):424-34. Epub 2008 Aug 7. Audrezet MP, Dabricot A, Le Marechal C, Ferec C
Validation of high-resolution DNA melting analysis for mutation scanning of the cystic fibrosis transmembrane conductance regulator (CFTR) gene.
J Mol Diagn. 2008 Sep;10(5):424-34. Epub 2008 Aug 7., [PMID:18687795]

Abstract [show]
High-resolution melting analysis of polymerase chain reaction products for mutation scanning, which began in the early 2000s, is based on monitoring of the fluorescence released during the melting of double-stranded DNA labeled with specifically developed saturation dye, such as LC-Green. We report here the validation of this method to scan 98% of the coding sequence of the cystic fibrosis transmembrane conductance regulator (CFTR) gene. We designed 32 pairs of primers to amplify and analyze the 27 exons of the gene. Thanks to the addition of a small GC-clamp at the 5' ends of the primers, one single melting domain and one identical annealing temperature were obtained to co-amplify all of the fragments. A total of 307 DNA samples, extracted by the salt precipitation method, carrying 221 mutations and 21 polymorphisms, plus 20 control samples free from variations (confirmed by denaturing high-performance liquid chromatography analysis), was used. With the conditions described in this study, 100% of samples that carry heterozygous mutations and 60% of those with homozygous mutations were identified. The study of a cohort of 136 idiopathic chronic pancreatitis patients enabled us to prospectively evaluate this technique. Thus, high-resolution melting analysis is a robust and sensitive single-tube technique for screening mutations in a gene and promises to become the gold standard over denaturing high-performance liquid chromatography, particularly for highly mutated genes such as CFTR, and appears suitable for use in reference diagnostic laboratories.

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No. Sentence Comment
63 Continued Exon Primer Sequences GC length Amplicon length (bp) Introns Number of heterozygous- positive controls Number of homozygous- positive controls Recommended control 16 LSCFE16Fmod 5Ј-CCGCTGAATGCGTCTACTGTGATCCA-3Ј 3 299 bp 77 6 G970R LSCFE16Rmod 5Ј-CCGTAGACAGGACTTCAA CCCTCAATCAA-3Ј 3 87 3120ϩ1GϾA 17a LSCFE17AFmod 5Ј-CCGCCGGACACACTTTG TCCACTT-3Ј 6 286 bp 49 13 3121-1GϾA LSCFE17ARmod 5Ј-CCGCCGTCAAATAGCTCTTATAGCTTTTTT ACAAGATG-3Ј 6 25 I1027T 17b LSCF17BAFmod 5Ј-CCGCCGCCCCGCCGTCAGGTACA AGATATTATG-3Ј 14 56 11 3272-26AϾG LSCF17BARmod 5Ј-CCGCCGCCGCAGTGTTGACAGGT ACAAGAAC-3Ј 7 247 bp A1067T LSCF17BBFmod 5Ј-CCGCCCTTACTTTGAAACTCTGTT CCACAAAGC-3Ј 4 247 bp T1095T LSCF17BBRmod 5Ј-CCGCCGTTGATAACCTATAGAATG CAG-3Ј 6 62 E1104X 18 LSCFE18Fmod 5Ј-CCGCCGAGTCGTTCACAGAAGA GAGAAATAAC-3Ј 6 236 bp 34 2 D1152H LSCFE18Rmod 5Ј-CCGCCGCCGCGGTACTTTGTT ACTTGTCTGAATTTTTTT-3ЈCATAA 12 25 3547delA 19 LSCF19i5mod 5Ј-CCGCCGCCGCGCATCAAACTA ATTGTGAAATTGTCTGCC-3Ј 10 408 bp 73 10 S1235R LSCF19i3mod 5Ј-CCGCCGCCGCACACATTGCT TCAGGCTACTGGGA-3Ј 11 49 R1162L 20 LSCF20i5mod 5Ј-CCGCCGCCGCCGCTACTGAATTATGT TTATGGCATGG-3Ј 13 323 bp 44 13 W1282X LSCF20i3mod 5Ј-CCGCCGCCGCTCTTGAGTACAAGTA TCAAATAGCAG-3Ј 10 50 4005ϩ33GϾA 21 LSCFe21F 5Ј-CCGCCGCCGCGCAAGTTATTCATA CTTTCTTCTTCTTT-3Ј 12 217 bp 15 5 1 N1303K LSCFe21R 5Ј-CCGCCGCCGCTATATCAGCCA TTTGTG-3Ј 8 47 Q1313X 22 LSCFe22FmodC LSCFe22 RmodD 5Ј-CCGCCGAGAATGTCAAC TGCTTGAGTGT-3Ј 6 311 bp 41 2 R1358S 5Ј-CCGCCGGCAGGCATAATGA TTCTGTTCCCAC-3Ј 10 51 I1366T 23 LSCFE23Fmod 5Ј-CCGCCGCCGCAAGGTAAAT ACAGATCAT-3Ј 9 259 bp 44 3 4374ϩ1GϾT 4374ϩ13AϾG LSCFE23Rmod: 5Ј-CCGGCAGGAACTATCACAT GTGAGATTG-3Ј 3 53 24 LSCFE24FmodB 5Ј-CCGCCGCTTTGAGCCTGT GCCAGTTTCTGT-3Ј 6 378 bp 58 5 1 Q1463Q LSE24RmodB 5Ј-CCGCCGACGAGCTCCAATTC CATGAGGTGA-3Ј 6 62 Y1424Y the same technique: the majority of our samples were extracted by a classical saline technique or an automated extraction and their quality was adequate. Login to comment
171 Results of CFTR Analysis by HRM on 136 Samples of Patients with Idiopathic Chronic Pancreatitis (ICP) Exon Number of positive samples Mutations identified Variants identified New positive controls 1 14 14 125GϾC 2 1 1 R31C 3 9 1 G85E 7 R75Q 1 R74W 4 4 1 R117G 1 I148T R117G 1 R117H 1 A120T 5 1 1 L188P L188P 6a 5 1 V201M 1 A221A A221A 3 875ϩ40 AϾG 6b 27 1 M284T 26 1001ϩ11CϾT M284T 7 1 1 L320V L320V 8 0 0 9 1 1 D443Y 10 16 8 F508del 8 E528E 11 1 1 G542X 12 6 4 G576A 1 Y577Y L568F 1 L568F 13 7 1 S737F 4 R668C S737F 1 V754M L644L 1 L644L 14a 53 52 T854T T854TϩI853I 1 T854TϩI853I 14b 0 0 15 3 1 L967S T908S 1 T908S 1 S945L 16 0 0 17a 10 7 L997F 1 3271ϩ18CϾT 3271 ϩ 3AϾG 1 3271 ϩ 3 AϾG 1 Y1014C 17b 3 1 L1096L L1096L 1 H1054DϩG1069R 1 3272-33AϾG H1054DϩG1069R 3272-33AϾG 18 2 1 D1152H E1124del 1 E1124del 19 5 5 S1235R poly 20 7 1 W1282X 5 P1290P 1 D1270N 21 2 1 N1303K 1 T1299T 22 0 0 23 1 0 4374ϩ13 AϾG 24 43 40 Q1463Q 2 Y1424Y 1 Q1463QϩY1024Y ing domain of a gene brings an excellent sensitivity for heterozygote detection that is very close to 100%. Login to comment

[hide] Genotyping microarray for the detection of more th... J Mol Diagn. 2005 Aug;7(3):375-87. Schrijver I, Oitmaa E, Metspalu A, Gardner P
Genotyping microarray for the detection of more than 200 CFTR mutations in ethnically diverse populations.
J Mol Diagn. 2005 Aug;7(3):375-87., [PMID:16049310]

Abstract [show]
Cystic fibrosis (CF), which is due to mutations in the cystic fibrosis transmembrane conductance regulator gene, is a common life-shortening disease. Although CF occurs with the highest incidence in Caucasians, it also occurs in other ethnicities with variable frequency. Recent national guidelines suggest that all couples contemplating pregnancy should be informed of molecular screening for CF carrier status for purposes of genetic counseling. Commercially available CF carrier screening panels offer a limited panel of mutations, however, making them insufficiently sensitive for certain groups within an ethnically diverse population. This discrepancy is even more pronounced when such carrier screening panels are used for diagnostic purposes. By means of arrayed primer extension technology, we have designed a genotyping microarray with 204 probe sites for CF transmembrane conductance regulator gene mutation detection. The arrayed primer extension array, based on a platform technology for disease detection with multiple applications, is a robust, cost-effective, and easily modifiable assay suitable for CF carrier screening and disease detection.

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53 Table 1. Continued CFTR location Amino acid change Nucleotide change 141 IVS 16 Splicing defect 3120 ϩ 1GϾA 142 IVS 16 Splicing defect 3121 - 2AϾG 143 IVS 16 Splicing defect 3121 - 2AϾT 144 E 17a Frameshift 3132delTG 145 E 17a I1005R 3146TϾG 146 E 17a Frameshift 3171delC 147 E 17a Frameshift 3171insC 148 E 17a del V1022 and I1023 3199del6 149 E 17a Splicing defect 3271delGG 150 IVS 17a Possible splicing defect 3272 - 26AϾG 151 E 17b G1061R 3313GϾC 152 E 17b R1066C 3328CϾT 153 E 17b R1066S 3328CϾA 154 E 17b R1066H 3329GϾA 155 E 17b R1066L 3329GϾT 156 E 17b G1069R 3337GϾA 157 E 17b R1070Q 3341GϾA 158 E 17b R1070P 3341GϾC 159 E 17b L1077P 3362TϾC 160 E 17b W1089X 3398GϾA 161 E 17b Y1092X (TAA) 3408CϾA 162 E 17b Y1092X (TAG) 3408CϾG 163 E 17b L1093P 3410TϾC 164 E 17b W1098R 3424TϾC 165 E 17b Q1100P 3431AϾC 166 E 17b M1101K 3434TϾA 167 E 17b M1101R 3434TϾG 168 IVS 17b 3500 - 2AϾT 3500 - 2AϾT 169 IVS 17b Splicing defect 3500 - 2AϾG 170 E 18 D1152H 3586GϾC 171 E 19 R1158X 3604CϾT 172 E 19 R1162X 3616CϾT 173 E 19 Frameshift 3659delC 174 E 19 S1196X 3719CϾG 175 E 19 S1196T 3719TϾC 176 E 19 Frameshift and K1200E 3732delA and 3730AϾG 177 E 19 Frameshift 3791delC 178 E 19 Frameshift 3821delT 179 E 19 S1235R 3837TϾG 180 E 19 Q1238X 3844CϾT 181 IVS 19 Possible splicing defect 3849 ϩ 4AϾG 182 IVS 19 Splicing defect 3849 ϩ 10 kb CϾT 183 IVS 19 Splicing defect 3850 - 1GϾA 184 E 20 G1244E 3863GϾA 185 E 20 G1244V 3863GϾT 186 E 20 Frameshift 3876delA 187 E 20 G1249E 3878GϾA 188 E 20 S1251N 3884GϾA 189 E 20 T1252P 3886AϾC 190 E 20 S1255X 3896CϾA and 3739AϾG in E19 191 E 20 S1255L 3896CϾT 192 E 20 Frameshift 3905insT 193 E 20 D1270N 3940GϾA 194 E 20 W1282R 3976TϾC 195 E 20 W1282X 3978GϾA 196 E 20 W1282C 3978GϾT 197 E 20 R1283M 3980GϾT 198 E 20 R1283K 3980GϾA 199 IVS 20 Splicing defect 4005 ϩ 1GϾA 200 E 21 Frameshift 4010del4 201 E 21 Frameshift 4016insT 202 E 22 Inframe del E21 del E21 203 E 21 N1303K 4041CϾG 204 E 24 Frameshift 4382delA Genomic and Synthetic Template Samples Where possible, native genomic DNA was collected. Login to comment
73 Genomic DNA Samples Used for Mutation Evaluation on the APEX Array Mutations validated with native DNA CFTRdel 2,3 (21 kb) 394delTT G85E R75X 574delA Y122X R117C R117H 621 ϩ 1GϾT 621 ϩ 3AϾG 711 ϩ 1GϾT I336K R334W R347P IVS8-5T IVS8-7T IVS8-9T A455E ⌬F508 ⌬I507 1677delTA 1717 - 1GϾA G542X G551D R553X R560T S549N 1898 ϩ 1GϾA 1898 ϩ 1GϾC 2183AAϾG 2043delG R668C 2143delT 2184delA 2184insA 2789 ϩ 5GϾA S945L 3120 ϩ 1GϾA I1005R 3272 - 26AϾG R1066C G1069R Y1092X (CϾA) 3500 - 2AϾT R1158X R1162X 3659delC S1235R 3849 ϩ 10 kb CϾT W1282X primer. Login to comment

[hide] Diagnostic testing by CFTR gene mutation analysis ... J Mol Diagn. 2005 May;7(2):289-99. Schrijver I, Ramalingam S, Sankaran R, Swanson S, Dunlop CL, Keiles S, Moss RB, Oehlert J, Gardner P, Wassman ER, Kammesheidt A
Diagnostic testing by CFTR gene mutation analysis in a large group of Hispanics: novel mutations and assessment of a population-specific mutation spectrum.
J Mol Diagn. 2005 May;7(2):289-99., [PMID:15858154]

Abstract [show]
Characterization of CFTR mutations in the U.S. Hispanic population is vital to early diagnosis, genetic counseling, patient-specific treatment, and the understanding of cystic fibrosis (CF) pathogenesis. The mutation spectrum in Hispanics, however, remains poorly defined. A group of 257 self-identified Hispanics with clinical manifestations consistent with CF were studied by temporal temperature gradient electrophoresis and/or DNA sequencing. A total of 183 mutations were identified, including 14 different amino acid-changing novel variants. A significant proportion (78/85) of the different mutations identified would not have been detected by the ACMG/ACOG-recommended 25-mutation screening panel. Over one third of the mutations (27/85) occurred with a relative frequency >1%, which illustrates that the identified mutations are not all rare. This is supported by a comparison with other large CFTR studies. These results underscore the disparity in mutation identification between Caucasians and Hispanics and show utility for comprehensive diagnostic CFTR mutation analysis in this population.

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103 Table 1. Continued Mutations in 257 patients Allele counts of each mutation % of variant alleles (183) % of all alleles tested (514) R1070W 1 0.55 0.19 R1158X 1 0.55 0.19 R1438W 1 0.55 0.19 R334W 2 1.09 0.39 R352W 1 0.55 0.19 R553X 2 1.09 0.39 R668C 2 1.09 0.39 R74W 3 1.64 0.58 R75X 3 1.64 0.58 S1235R 2 1.09 0.39 S492F 2 1.09 0.39 S549N 1 0.55 0.19 S573CS573C 1 0.55 0.19 S945L 1 0.55 0.19 T351S 1 0.55 0.19 T501A 2 1.09 0.39 T604ST604S 1 0.55 0.19 V11I 1 0.55 0.19 V201 mol/L 1 0.55 0.19 V232D 2 1.09 0.39 V754 mol/L 1 0.55 0.19 W1089X 2 1.09 0.39 W1098C 1 0.55 0.19 W1204X 4 2.19 0.78 Y563N 1 0.55 0.19 Y913XY913X 1 0.55 0.19 85 different mutations 183 100.00 35.60 Novel variants are in boldface, mutations on the ACMG/ACOG panel are italicized. Login to comment
165 Due to ascertainment bias, six mutations not included in the recommended panel occurred with a relative frequency greater than 1%: E60X, G576A, I1027T, P67L, R668C, and S1235R. Login to comment
187 CFTR Sequence Variants Identified in Five Comprehensive CFTR Studies in US Hispanics CFTR mutations Alleles Relative mutation frequency (%) (of 317) deltaF508 123 38.80 3876delA 15 4.70 G542X 12 3.80 406 - 1GϾA 8 2.50 3849 ϩ 10kbCϾT 5 1.60 R75X 4 1.30 935delA 4 1.30 S549N 4 1.30 W1204X 4 1.30 R334W 4 1.30 2055del9ϾA 3 1 R74W 3 1 H199Y 3 1 L206W 3 1 663delT 3 1 3120 ϩ 1GϾA 3 1 L997F 3 1 I1027T 3 1 R1066C 3 1 W1089X 3 1 D1270N 3 1 2105del13insAGAAA 3 1 Q98R 2 Ͻ1 E116K 2 Ͻ1 I148T 2 Ͻ1 R668C 2 Ͻ1 P205S 2 Ͻ1 V232D 2 Ͻ1 S492F 2 Ͻ1 T501A 2 Ͻ1 1949del84 2 Ͻ1 Q890X 2 Ͻ1 3271delGG 2 Ͻ1 3272 - 26AϾG 2 Ͻ1 G1244E 2 Ͻ1 D1445N 2 Ͻ1 R553X 2 Ͻ1 E588V 2 Ͻ1 1717 - 8GϾA 2 Ͻ1 A1009T 2 Ͻ1 S1235R 2 Ͻ1 G85E 1 Ͻ1 296 ϩ 28AϾG 1 Ͻ1 406 - 6TϾC 1 Ͻ1 V11I 1 Ͻ1 Q179K 1 Ͻ1 V201 mol/L 1 Ͻ1 874insTACA 1 Ͻ1 I285F 1 Ͻ1 deltaF311 1 Ͻ1 F311L 1 Ͻ1 L320V 1 Ͻ1 T351S 1 Ͻ1 R352W 1 Ͻ1 1248 ϩ 1GϾA 1 Ͻ1 1249 - 29delAT 1 Ͻ1 1288insTA 1 Ͻ1 1341 ϩ 80GϾA 1 Ͻ1 1429del7 1 Ͻ1 1525 - 42GϾA 1 Ͻ1 P439S 1 Ͻ1 1717 - 1GϾA 1 Ͻ1 1811 ϩ 1GϾA 1 Ͻ1 deltaI507 1 Ͻ1 G551D 1 Ͻ1 A559T 1 Ͻ1 Y563N 1 Ͻ1 (Table continues) In this study, we used temporal temperature gradient gel electrophoresis (TTGE) and direct DNA sequencing to increase the sensitivity of mutation detection in U.S. Hispanics, and to determine whether additional mutations are recurrent. Login to comment
201 Comparison of Relative Frequencies of CFTR Sequence Variants in Comprehensive CFTR Studies in US and Mexican Hispanics This study % Orozco 2000 % US/ Mexican % deltaF508 28.96 54.48 43.72 G542X 3.83 8.28 5.19 406 - 1GϾA 3.28 2.07 2.38 W1204X 2.19 Ͻ1 1.08 R74W 1.64 Ͻ1 R75X 1.64 2.07 1.51 H199Y 1.64 Ͻ1 Ͻ1 L206W 1.64 Ͻ1 L997F 1.64 Ͻ1 I1027T 1.64 Ͻ1 2055del9ϾA 1.64 1.38 1.27 D1270N 1.64 Ͻ1 E116K 1.09 Ͻ1 V232D 1.09 Ͻ1 R334W 1.09 Ͻ1 S492F 1.09 Ͻ1 T501A 1.09 Ͻ1 R553X 1.09 Ͻ1 Ͻ1 E588V 1.09 Ͻ1 R668C 1.09 Ͻ1 Q890X 1.09 Ͻ1 W1089X 1.09 Ͻ1 S1235R 1.09 Ͻ1 D1445N 1.09 Ͻ1 3876delA 1.09 3.24 1717 - 8GϾA 1.09 Ͻ1 3272 - 26AϾG 1.09 Ͻ1 A1009T 1.09 Ͻ1 deltaI507 Ͻ1 3.45 1.30 S549N Ͻ1 3.45 1.95 G567A Ͻ1 Ͻ1 I148T 2.07 1.08 I506T 1.38 Ͻ1 N1303K 2.76 1.08 935delA 1.38 1.30 2183AAϾG 1.38 Ͻ1 3199del6 1.38 Ͻ1 3849 ϩ 10kbCϾT Ͻ1 1.30 ACMG/ACOG italicized. Login to comment

[hide] Cystic fibrosis transmembrane conductance regulato... J Hepatol. 2002 Aug;37(2):192-7. Girodon E, Sternberg D, Chazouilleres O, Cazeneuve C, Huot D, Calmus Y, Poupon R, Goossens M, Housset C
Cystic fibrosis transmembrane conductance regulator (CFTR) gene defects in patients with primary sclerosing cholangitis.
J Hepatol. 2002 Aug;37(2):192-7., [PMID:12127423]

Abstract [show]
BACKGROUND/AIMS: Because biliary tract lesions that resemble those of primary sclerosing cholangitis (PSC) may occur in cystic fibrosis (CF), we examined the prevalence and influence of CF transmembrane conductance regulator (CFTR) gene mutations in PSC patients. METHODS: Genomic DNA was analyzed in 29 consecutive PSC patients and in 115 healthy control individuals. A scanning method followed by direct DNA sequencing was used to scan the CFTR coding regions. RESULTS: Four patients (13.8%) were heterozygous for a CFTR mutation, including a new putative severe CF-causing mutation (N782K), and three mild defects (L997F, D1270N, and S1235R). The comparison of PSC patients with healthy controls showed no significant difference in the frequency of CFTR mutations (P=0.415). In addition, two patients (6.9%) were heterozygous for the IVS8-5T allele, which is not significantly different from the 5-6%-prevalence in the general population. Unusual clinical features including a severe outcome in childhood, with a lethal outcome at age 22, and biliary aspergillosis were recorded in patients with a CFTR mutation. CONCLUSIONS: The proportion of CF carriers is not significantly higher in PSC patients than in the general population. The possibility that CFTR mutations may contribute to a severe clinical course in PSC patients is worth further examining.

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3 Results: Four patients (13.8%) were heterozygous for a CFTR mutation, including a new putative severe CF-causing mutation (N782K), and three mild defects (L997F, D1270N, and S1235R). Login to comment
72 Four patients (13.8%) were heterozygous for one of the following CFTR mutations: N782K, L997F, S1235R and D1270N. Login to comment
73 L997F [14,15], S1235R [40,41], and D1270N [42,43] have been previously described as mild mutations. Login to comment
74 N782K, a new missense mutation (C-to-A transversion at nucleotide 2478), is located in exon 13, generates an ApoI restriction site, and putatively E. Girodon et al. / Journal of Hepatology 37 (2002) 192-197 193 E.Girodonetal./JournalofHepatology37(2002)192-197194 Table 1 Clinical status and CFTR genotype in PSC patientsa Patient Gender Age (years) at onset IBD Episode(s) of acute cholangitis Cirrhosis and/or portal hypertension Cholangiocarcinoma Liver transplantation CFTR mutations TGmTn genotype Other sequence variations 1 F 37 UC Yes Yes Yes (67) No N782K/- 12-7/11-7 M470V 2 M 8 No No Yes No Yes (18) D1270N/- 11-9/11-7 M470V 3 M 27 No Yes No No No L997F/- 11-7/11-7 V470V 4 M 58 Crohn Yes No No Yes (65) S1235R/- 11-7/12-7 M470V 5 F 17 Unclassified No No No No 10-7/11-5 M470M 6 F 43 Crohn Yes Yes No Yes (46) 10-7/11-5 M470M 7 F 58 UC Yes Yes Yes (58) No 10-7/11-7 M470V,R75Q,406-13T/C 8 M 32 Crohn Yes Yes No Yes (38) 11-7/11-7 V470V, R75Q 9 F 41 UC No No No Yes (48) 10-7/11-7 M470V, 1716G/A 10 M 23 No No No No No 12-7/10-7 M470M, 1715-12T/C 11 F 55 Crohn No No No No 11-9/12-7 M470M 12 M 39 Unclassified Yes No No No 10-7/11-7 M470M 13 M 45 No No No No No 9-9/11-7 M470V 14 M 23 UC No No No Yes (23) 10-9/11-7 M470M 15 M 20 No Yes Yes No Yes (29) 10-9/10-7 M470M 16 M 17 Crohn No Yes No Yes (47) 11-9/11-7 M470V 17 M 43 Unclassified Yes No No No 11-9/11-7 M470V 18 M 47 No No No No No 11-9/10-7 M470M 19 M 42 Crohn Yes No No No 11-7/11-7 V470V 20 M 31 Crohn Yes No No Yes (34) 10-7/11-7 M470V 21 M 16 Crohn No No No No 10-7/12-7 M470V 22 M 56 No Yes Yes No No 11-7/11-7 V470V 23 F 47 No Yes No Yes (54) No 11-7/12-7 M470V 24 F 19 Crohn No No Yes (29) No 10-7/12-7 M470M 25 M 35 UC Yes No No No 11-7/12-7 M470V 26 M 31 UC No Yes Yes (45) Yes (45) 11-7/12-7 V470V 27 F 52 Crohn Yes Yes No Yes (56) 10-7/11-7 M470V 28 F 55 Crohn No No No No 10-9/11-7 M470V 29 F 43 NA No No Yes (43) No 11-7/11-7 V470V a IBD, inflammatory bowel disease; UC, ulcerative colitis; NA, non-available; and age (years) at diagnosis of cholangicarcinoma or at liver transplantation is indicated within brackets. Login to comment
99 S1235R was first reported in a severely affected CF patient, who also carried the G628R mutation on the same allele [40]. Login to comment
100 S1235R was subsequently detected without G628R in CF patients [32], in patients with CBAVD [12,49], and even in female healthy CF carriers (Claustres, Fe´rec, personal communications), but not in fertile male CF carriers. Login to comment
102 In particular, it has been suggested that the presence of IVS8-5T splicing variant in cis has a deleterious influence on the outcome of the S1235R mutation [32]. Login to comment
103 However, the S1235R mutation has also been detected in CF patients, without IVS8-5T or any other detectable variant in cis. Login to comment
104 It is assumed that the S1235R mutation alters interactions of CFTR with other proteins rather than chloride ion transport which is maintained in cells transfected with the R1235 mutant [41]. Login to comment

[hide] Spectrum of CFTR mutations in cystic fibrosis and ... Hum Mutat. 2000;16(2):143-56. Claustres M, Guittard C, Bozon D, Chevalier F, Verlingue C, Ferec C, Girodon E, Cazeneuve C, Bienvenu T, Lalau G, Dumur V, Feldmann D, Bieth E, Blayau M, Clavel C, Creveaux I, Malinge MC, Monnier N, Malzac P, Mittre H, Chomel JC, Bonnefont JP, Iron A, Chery M, Georges MD
Spectrum of CFTR mutations in cystic fibrosis and in congenital absence of the vas deferens in France.
Hum Mutat. 2000;16(2):143-56., [PMID:10923036]

Abstract [show]
We have collated the results of cystic fibrosis (CF) mutation analysis conducted in 19 laboratories in France. We have analyzed 7, 420 CF alleles, demonstrating a total of 310 different mutations including 24 not reported previously, accounting for 93.56% of CF genes. The most common were F508del (67.18%; range 61-80), G542X (2.86%; range 1-6.7%), N1303K (2.10%; range 0.75-4.6%), and 1717-1G>A (1.31%; range 0-2.8%). Only 11 mutations had relative frequencies >0. 4%, 140 mutations were found on a small number of CF alleles (from 29 to two), and 154 were unique. These data show a clear geographical and/or ethnic variation in the distribution of the most common CF mutations. This spectrum of CF mutations, the largest ever reported in one country, has generated 481 different genotypes. We also investigated a cohort of 800 French men with congenital bilateral absence of the vas deferens (CBAVD) and identified a total of 137 different CFTR mutations. Screening for the most common CF defects in addition to assessment for IVS8-5T allowed us to detect two mutations in 47.63% and one in 24.63% of CBAVD patients. In a subset of 327 CBAVD men who were more extensively investigated through the scanning of coding/flanking sequences, 516 of 654 (78. 90%) alleles were identified, with 15.90% and 70.95% of patients carrying one or two mutations, respectively, and only 13.15% without any detectable CFTR abnormality. The distribution of genotypes, classified according to the expected effect of their mutations on CFTR protein, clearly differed between both populations. CF patients had two severe mutations (87.77%) or one severe and one mild/variable mutation (11.33%), whereas CBAVD men had either a severe and a mild/variable (87.89%) or two mild/variable (11.57%) mutations.

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67 Ten mutations were reported as ''complex alleles`` (two sequence alterations associated in cis on the same gene): W57X+F87L, R117H+5T, R117H+I1027T, F508del+L467F, I507del+F508C, 1898+3A>G+186-13C>G, Y1092X+S1235R, 3732delA+K1200E, S1235R +5T, and D1270N+R74W. Login to comment
103 b 3905insT, 1811+1.6kbA>G, S945L, S1251N, Y122X, 2711delT, R117H, E60X, 2184insA, E585X, L558S, S1235R, D1152H, K710X, Q493X, A455E, G178R, I148T, 574delA. Login to comment
129 Six sequence changes listed as mutations (CFGAC or personal communication) were detected on a chromosome carrying the 5T allele (G550R, A800G, T1053I, A1067T, S1235R, and 1717- 3T>G). Login to comment
171 CFTR Mutation Genotypes Identified Both in Cystic Fibrosis (CF) and in Congenital Bilateral Absence of the Vas Deferens (CBAVD) CF CBAVD F508del/5T 3 143 F508del/2789+5G>A 53 1 F508del/3272-26A>G 17 4 F508del/R117H* 10 39 F508del/R117C 2 2 F508del/L206W 12 4 F508del/R347H 10 5 F508del/R347L 1 1 F508del/D443Y 1 5 F508del/Y569C 1 1 F508del/P574H 3 1 F508del/G628R(G>A) 2 1 F508del/V920M 1 1 F508del/R1070W 2 3 F508del/D1152H 6 8 F508del/S1235R 3 1 F508del/T1246I 1 1 F508del/D1270N+R74W 2 3 F508delN1303I 1 1 3659delC/R347H 1 1 G542X/T338I 2 2 R347H/R1066H 1 1 *The only case with CF whose alleles at IVS8(T)n were reported had mutation R117H associated with a 5T allele. Login to comment
214 This observation does not excude that S1235R could be, in combination with some polymorphisms affecting splicing (such as 5T), responsible for a CF or CBAVD-related phenotype. Login to comment

[hide] Increased frequency of cystic fibrosis deltaF508 m... Eur Respir J. 1999 Jun;13(6):1281-7. Puechal X, Fajac I, Bienvenu T, Desmazes-Dufeu N, Hubert D, Kaplan JC, Menkes CJ, Dusser DJ
Increased frequency of cystic fibrosis deltaF508 mutation in bronchiectasis associated with rheumatoid arthritis.
Eur Respir J. 1999 Jun;13(6):1281-7., [PMID:10445602]

Abstract [show]
This study investigated the clinical characteristics and the possible involvement of the cystic fibrosis transmembrane conductance regulator (CFTR) gene in patients with symptomatic diffuse bronchiectasis (DB) associated with rheumatoid arthritis (RA). Twenty-six patients with both RA and DB (group RA+DB) and control groups of 29 consecutive patients with RA but no bronchiectasis (group RA) and 29 patients with symptomatic DB of unknown origin (group DB) were prospectively studied. Among the patients of the RA+DB group, four (15.4%) were heterozygous for the CFTR gene deltaF508 mutation, whereas no deltaF508 mutation was found in patients of the RA and the DB groups (both, p<0.05). This frequency of deltaF508 mutation was also higher than the expected frequency (2.8%) in the general European population (p<0.04). Sweat chloride values and nasal potential differences were normal in three out of four patients carrying the deltaF508 mutation. In the RA+DB group, those with deltaF508 mutation had more frequent chronic sinusitis (p<0.05), a trend toward a more severe pulmonary involvement, and a lower value of nasal potential differences (p<0.01) whereas their rheumatic features had no particularity. In the RA+DB group, patients with adult-onset bronchiectasis (including two with deltaF508 mutation) had a greater reduction in total lung capacity (p<0.05) and lower nasal potential differences (p<0.005) than those with childhood-onset bronchiectasis. This study suggests a possible deleterious effect of the cystic fibrosis transmembrane conductance regulator mutated protein in the airways which may predispose to the development and severity of bronchiectasis in patients suffering from rheumatoid arthritis.

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83 mmol.L-1 mV gene mutation 1 F 67 51 Yes II II 0401/1401 51 20 P. aeruginosa 48 -24 DF508/- 2{ F 52 29 Yes IV IV 0406/0416 35 50 P. aeruginosa ND -31 DF508/- 3 F 35 16 II II 0311/1302 4 82 H. influenzae 18 -21 DF508/- 4 F 52 42 II II 03011/1001 4 79 ND 55 -21.0 DF508/- 5 F 56 48 II III 0101/0401 12 90 Normal flora 40 -15.3 R668C/- 6 F 59 49 III III 0401/0405 4 14 P. aeruginosa 57 ND S1235R/- 7 F 55 53 II I 0101/1001 2 92 Normal flora 42 -17.3 -/- 8 F 55 46 III III 0101/1302 3 83 Normal flora 60 -18.7 -/- 9{ F 66 20 III IV 0101/0401 4 78 P. mirabilis 35 -15.8 -/- 10 M 71 61 II III 0701/1001 67 60 Normal flora 34 -19.2 V562I/- 11 M 59 34 II III 0101/0408 53 94 H. influenzae 62 -20.8 -/- 12 F 56 30 Yes III III 0101/0311 10 89 Normal flora 53 -11.1 -/- 13 F 46 43 Yes II III 0101/0405 9 73 H. influenzae 29 -21.3 -/- 14 F 47 41 II III 03011/0401 9 80 Normal flora 86 -16.5 -/- 15 F 54 44 II II 0401/0401 1 67 Normal flora 50 -13 -/- 16 F 59 37 III III 0101/0401 3 53 H. influenzae 70 -16.8 -/- 17 F 49 47 I I 03011/1401 10 58 H. parainfluenzae 79 -18.5 -/- 18{ F 65 37 Yes III III 03011/1501 56 43 Normal flora 35 -33.8 -/- 19 F 65 54 Yes II III 0101/1101 10 91 ND 64 -9.6 -/- 20 F 70 55 III III 0101/0401 4 80 Normal flora 38 -13.5 -/- 21 F 69 53 IV IV 0101/1501 4 35 P. aeruginosa 35 ND -/- 22 M 66 63 II II 0401/1104 63 97 Normal flora 36 -20.2 -/- 23 F 61 56 I I 03011/0701 4 76 Flavobacterium spp. Login to comment
119 In the RA+DB group three other mutations were found (R668C in patient 5, S1235R in patient 6 and V5621 in patient 10). Login to comment
164 Although the V562I and S1235R mutations have been described in CF patients, the putative detrimental effect of these mutations is disputable. Login to comment
118 In the RA+DB group three other mutations were found (R668C in patient 5, S1235R in patient 6 and V5621 in patient 10). Login to comment
163 Although the V562I and S1235R mutations have been described in CF patients, the putative detrimental effect of these mutations is disputable. Login to comment

[hide] Distinct spectrum of CFTR gene mutations in congen... Hum Genet. 1997 Sep;100(3-4):365-77. Dork T, Dworniczak B, Aulehla-Scholz C, Wieczorek D, Bohm I, Mayerova A, Seydewitz HH, Nieschlag E, Meschede D, Horst J, Pander HJ, Sperling H, Ratjen F, Passarge E, Schmidtke J, Stuhrmann M
Distinct spectrum of CFTR gene mutations in congenital absence of vas deferens.
Hum Genet. 1997 Sep;100(3-4):365-77., [PMID:9272157]

Abstract [show]
Congenital absence of the vas deferens (CAVD) is a frequent cause for obstructive azoospermia and accounts for 1%-2% of male infertility. A high incidence of mutations of the cystic fibrosis transmembrane conductance regulator (CFTR) gene has recently been reported in males with CAVD. We have investigated a cohort of 106 German patients with congenital bilateral or unilateral absence of the vas deferens for mutations in the coding region, flanking intron regions and promotor sequences of the CFTR gene. Of the CAVD patients, 75% carried CFTR mutations or disease-associated CFTR variants, such as the "5T" allele, on both chromosomes. The distribution of mutation genotypes clearly differed from that observed in cystic fibrosis. None of the CAVD patients was homozygous for delta F508 and none was compound heterozygous for delta F508 and a nonsense or frameshift mutation. Instead, homozygosity was found for a few mild missense or splicing mutations, and the majority of CAVD mutations were missense substitutions. Twenty-one German CAVD patients were compound heterozygous for delta F508 and R117H, which was the most frequent CAVD genotype in our study group. Haplotype analysis indicated a common origin for R117H in our population, whereas another frequent CAVD mutation, viz. the "5T allele" was a recurrent mutation on different intragenic haplotypes and multiple ethnic backgrounds. We identified a total of 46 different mutations and variants, of which 15 mutations have not previously been reported. Thirteen novel missense mutations and one unique amino-acid insertion may be confined to the CAVD phenotype. A few splice or missense variants, such as F508C or 1716 G-->A, are proposed here as possible candidate CAVD mutations with an apparently reduced penetrance. Clinical examination of patients with CFTR mutations on both chromosomes revealed elevated sweat chloride concentrations and discrete symptoms of respiratory disease in a subset of patients. Thus, our collaborative study shows that CAVD without renal malformation is a primary genital form of cystic fibrosis in the vast majority of German patients and links the particular expression of clinical symptoms in CAVD with a distinct subset of CFTR mutation genotypes.

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89 This study Variants: R75Qg G→A at 356 exon 3 2 A2 Zielenski et al. (1991b) T351S C→G at 1184 exon 7 1 C4 Mercier et al. (1993) 5Th reduction of oligoT tract to 5T at 1342-12 intron 8 26 C2, A4, D3, A2 Chu et al. (1991) F508C T→G at 1655 exon 10 3 C2 Kobayashi et al. (1990) 1716 G→A G→A at 1716 exon 10 3 D3 Kerem et al. (1990) G576Ai G→C at 1859 exon 12 2 D3 Fanen et al. (1992) R668Ci C→T at 2134 exon 13 2 D3 Fanen et al. (1992) S1235R T→G at 3837 exon 19 1 n.p. Cuppens et al. (1993) Q1352Hh G→C at 4188 exon 22 2 C2 Nukiwa and Seyama (pers. comm.) a The nomenclature of mutations follows Beaudet and Tsui (1993) The symbol "̃" is used to designate an amino-acid insertion b Nucleotides are numbered according to the cDNA sequence of Riordan et al. (1989) c Exons and introns are numbered according to Zielenski et al. (1991a) d Allele frequency is given as number of chromosomes e Haplotypes were defined as listed in B below. Login to comment
137 Complex alleles are indicated a One CF allele with R75X and 125G→C b One CBAVD allele with R75Q and R933S c One CBAVD allele with 5T and Q1352H d Two CF alleles with F508C and S1251N e One CF allele with 1716G→A and L619S f G576A and R668C were linked on two CBAVD and three CF alleles, whereas two additional CF alleles carried R668C together with the 3849+10kB C→T mutation (Dörk and Stuhrmann 1995) 371 Table 3 CFTR mutation genotypes in 106 males with CAVD Genotype PolyT Frequency Ethnic descent Diagnosis ∆F508/R117H 9/7 21 German, Austrian 20 CBAVD, 1 CUAVD ∆F508/5T 9/5 9 German, Austrian 8 CBAVD, 1 CUAVD ∆F508/F508C 9/7 3 German CBAVD ∆F508/R347H 9/9 2 German CBAVD ∆F508/1716 G→A 9/7 2 German CBAVD ∆F508/3272-26 A→G 9/7 2 German CBAVD ∆F508/E56K 9/7 1 German CBAVD ∆F508/M265R 9/7 1 German-Portuguese CBAVD ∆F508/R334W 9/9 1 German CBAVD ∆F508/T351S 9/9 1 German CBAVD ∆F508/L375F 9/7 1 Volga German CBAVD ∆F508/G576A & R668C 9/7 1 German CBAVD ∆F508/R933S 9/7 1 German CBAVD ∆F508/L997F 9/9 1 German CBAVD ∆F508/Y1032C 9/7 1 German CBAVD ∆F508/D1152H 9/7 1 German CBAVD ∆F508/K1351E 9/7 1 German CBAVD ∆F508/D1377H 9/7 1 Portuguese CBAVD ∆F508/L1388Q 9/7 1 German CBAVD ∆F508/unknown 9/7 4 German 3 CBAVD, 1 CUAVD 5T/5T 5/5 2 German CBAVD 5T/G542X 5/9 2 German, Turkish CBAVD 5T/D58N 5/7 1 Lebanese CBAVD 5T/̃L138 5/7 1 German-Polish CBAVD 5T/1078delT 5/7 1 German CBAVD 5T/R553X 5/7 1 German CBAVD 5T/2184insA 5/7 1 Turkish CBAVD 5T/D979A 5/7 1 Vietnamese CBAVD 5T/D1152H 5/7 1 Turkish CBAVD 5T/3659delC 5/7 1 German CBAVD 5T/S1235R 5/7 1 Greek CBAVD 5T/W1282X 5/7 1 German CBAVD 5T & Q1352H/ R297W & Q1352H 5/7 1 Vietnamese CBAVD 5T/unknown 5/7 1 German CBAVD R117H/L206W 7/9 1 German CBAVD R117H/2789+5 G→A 7/7 1 German CBAVD R117H/unknown 7/7 1 German CBAVD 2789+5 G→A/2789+5 G→A 7/7 1 Lebanese CBAVD 2789+5 G→A/L973F 7/7 1 German CBAVD V938G/V938G 7/7 1 Greek CBAVD V938G/174delA 7/7 1 German CBAVD D110H/D110H 7/7 1 Turkish CBAVD R334L/I336K 7/7 1 German CBAVD R347H/N1303K 9/9 1 German CBAVD L568F/D1152H 7/7 1 Turkish CBAVD 3272-26 A→G/V1153E 7/7 1 German CBAVD R75Q/unknown 7/7 1 German CBAVD A120T/unknown 9/7 1 German CBAVD 1716G→A/unknown 7/7 1 German CBAVD G576A & R668C/unknown 7/7 1 German CBAVD 2752-15 C→G/unknown 7/7 1 Iranian CBAVD Unknown/unknown 17 German, Turkish 7 CBAVD and 1 CUAVD without observed renal agenesis, 9 CBAVD with renal agenesis allele and the R297W mutation on a homozygous Q1352H background may then reduce CFTR function to a disease-causing level. Login to comment

[hide] Mutation characterization of CFTR gene in 206 Nort... Hum Mutat. 1996;8(4):340-7. Hughes DJ, Hill AJ, Macek M Jr, Redmond AO, Nevin NC, Graham CA
Mutation characterization of CFTR gene in 206 Northern Irish CF families: thirty mutations, including two novel, account for approximately 94% of CF chromosomes.
Hum Mutat. 1996;8(4):340-7., [PMID:8956039]

Abstract [show]
A variety of mutation detection techniques, including restriction endonuclease digestion, allele specific oligonucleotides, and automated fluorescent sequencing, were used in the identification of 15 CFTR mutations representing 86.7% of CF chromosomes in 206 Northern Irish cystic fibrosis (CF) families. A systematic analysis of the 27 exons and intron/exon boundaries of the CFTR gene was performed using denaturing gradient gel electrophoresis (DGGE) in an attempt to characterise the 55 unknown CF mutations in 51 patients. Twenty different mutations were detected by DGGE on 30 chromosomes accounting for a further 7.3% of CF alleles. Fifteen of these mutations had not previously been found in Northern Ireland, and two are novel, M1I(G > T) and V562L. In total, 30 CFTR mutations account for 93.9% of the 412 Northern Irish CF chromosomes tested. The three major CF mutations in Northern Ireland are delta F508, G551D, and R117H with respective frequencies of 68.0%, 5.1%, and 4.1%. The efficacy of the DGGE technique was proven by the detection of 77 out of 77 control variants from all the CFTR exons. DGGE is a highly efficient and sensitive method for mutation screening especially in large genes where the mutation spectrum is known to be heterogeneous.

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84 4048insCC, Q1313X E1371X Q1412X 4279insA 4521 G or A (p) S1196X, S1235R 10-60 20-80 20-80 0-50 20-70 20-70 20-70 20-70 20-70 10-60 20-70 20-70 0-50 20-80 20-80 20-80 20-80 20-70 20-70 20-80 20-80 20-70 20-70 20-70 20-70 20-70 20-70 20-80 20-70 20-70 40-80 75 75 150 75 150 150 150 75 150 150 150 75 150 75 75 75 150 150 150 95 150 150 150 150 150 150 150 150 150 150 150 9 9 4.5 6.5 4 4 4.5 7.5 4 5 4 7.5 4 7 7 7 4 4 4 6.5 4 4 3.5 4 4 5 4 6.5 4.5 4 4 ^Allmutationshave been reported to the CysticFibrosis Genetic AnalysisConsortium.The five polymorphisms are marked with a p in parenthesis. Login to comment

[hide] Complex cystic fibrosis allele R334W-R1158X result... Hum Mutat. 1996;8(2):134-9. Duarte A, Amaral M, Barreto C, Pacheco P, Lavinha J
Complex cystic fibrosis allele R334W-R1158X results in reduced levels of correctly processed mRNA in a pancreatic sufficient patient.
Hum Mutat. 1996;8(2):134-9., [PMID:8844211]

Abstract [show]
CFTR alleles containing two mutations have been very rarely found in cystic fibrosis (CF) patients. They provide an opportunity to study the effect of two in cis-interacting gene defects on gene expression. Here, we describe a three-generation CF family with a complex CFTR allele that has not been previously described, containing the missense mutation R334W in exon 7 and the nonsense mutation R1158X in exon 19. Lymphocyte RNA analysis showed that (1) the mRNA corresponding to the complex allele is present although at markedly reduced levels; and (2) the nonsense mutation does not lead to detectable skipping of exon 19. The clinical picture of the patients with the genotype R334W-R1158X/delta F508 is characterized by pancreatic sufficiency and an atypical course of the disease.

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38 Other in cis missense mutations have been reported, namely F508C-Sl251N (Kalin et al., 1992), G628R- S1235R (Mercier et al., 1995) and R74W- D1270N (Verlingue et al., 1993). Login to comment

[hide] Mutations in the cystic fibrosis gene in patients ... N Engl J Med. 1995 Jun 1;332(22):1475-80. Chillon M, Casals T, Mercier B, Bassas L, Lissens W, Silber S, Romey MC, Ruiz-Romero J, Verlingue C, Claustres M, et al.
Mutations in the cystic fibrosis gene in patients with congenital absence of the vas deferens.
N Engl J Med. 1995 Jun 1;332(22):1475-80., [PMID:7739684]

Abstract [show]
BACKGROUND: Congenital bilateral absence of the vas deferens (CBAVD) is a form of male infertility in which mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene have been identified. The molecular basis of CBAVD is not completely understood. Although patients with cystic fibrosis have mutations in both copies of the CFTR gene, most patients with CBAVD have mutations in only one copy of the gene. METHODS: To investigate CBAVD at the molecular level, we have characterized the mutations in the CFTR gene in 102 patients with this condition. None had clinical manifestations of cystic fibrosis. We also analyzed a DNA variant (the 5T allele) in a noncoding region of CFTR that causes reduced levels of the normal CFTR protein. Parents of patients with cystic fibrosis, patients with types of infertility other than CBAVD, and normal subjects were studied as controls. RESULTS: Nineteen of the 102 patients with CBAVD had mutations in both copies of the CFTR gene, and none of them had the 5T allele. Fifty-four patients had a mutation in one copy of CFTR, and 34 of them (63 percent) had the 5T allele in the other CFTR gene. In 29 patients no CFTR mutations were found, but 7 of them (24 percent) had the 5T allele. In contrast, the frequency of this allele in the general population was about 5 percent. CONCLUSIONS: Most patients with CBAVD have mutations in the CFTR gene. The combination of the 5T allele in one copy of the CFTR gene with a cystic fibrosis mutation in the other copy is the most common cause of CBAVD: The 5T allele mutation has a wide range of clinical presentations, occurring in patients with CBAVD or moderate forms of cystic fibrosis and in fertile men.

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74 OF PATIENTS POLYT GENOTYPE† ⌬F508/R668C ⌬F508/D1152H ⌬F508/D1270N ⌬F508/R75L ⌬F508/R117H ⌬F508/L206W ⌬F508/R258G ⌬F508/S1235R ⌬F508/R347H ⌬F508/R347H R117H/G1349D R117H/712-1G→T G149R/R668C R347H/R1066H R553X/R668C R1070W/2869insG ⌬F508/- G542X/- W1282X/- R334W/- K1060T/- R1162X/- N1303K/- A800G/- ⌬F508/- ⌬F508/- ⌬F508/- ⌬E115/- R117H/- R347H/- G542X/- R553X/- 1677delTA/- 2184delA/- 2789ϩ5G→Α/- S1235R/- W1282X/- -/- -/- -/- -/- 2 2 2 1 1 1 1 1 1 1 1 1 1 1 1 1 22 4 3 1 1 1 1 1 7 1 1 1 1 2 1 1 1 1 1 1 1 3 3 1 19 9T/7T 9T/7T 9T/7T 9T/7T 9T/7T 9T/9T 9T/7T 9T/7T 9T/7T 9T/9T 7T/7T 7T/9T 9T/7T 9T/7T 7T/7T 7T/7T 9T/5T 9T/5T 7T/5T 7T/5T 7T/5T 7T/5T 9T/5T 5T/5T 9T/7T 9T/9T 7T/7T 7T/7T 7T/7T 9T/7T 9T/7T 7T/7T 7T/7T 7T/7T 7T/7T 7T/9T 7T/7T 9T/5T 7T/5T 5T/5T 7T/7T -/- 3 7T/9T *Data were obtained from the Spanish population analyzed in this study. Login to comment

[hide] Is congenital bilateral absence of vas deferens a ... Am J Hum Genet. 1995 Jan;56(1):272-7. Mercier B, Verlingue C, Lissens W, Silber SJ, Novelli G, Bonduelle M, Audrezet MP, Ferec C
Is congenital bilateral absence of vas deferens a primary form of cystic fibrosis? Analyses of the CFTR gene in 67 patients.
Am J Hum Genet. 1995 Jan;56(1):272-7., [PMID:7529962]

Abstract [show]
Congenital bilateral absence of the vas deferens (CBAVD) is an important cause of sterility in men. Although the genetic basis of this condition is still unclear, it has been shown recently that some of these patients carry mutations in their cystic fibrosis transmembrane conductance regulator (CFTR) genes. To extend this observation, we have analyzed the entire coding sequence of the CFTR gene in a cohort of 67 men with CBAVD, who are otherwise healthy. We have identified four novel missense mutations (A800G, G149R, R258G, and E193K). We have shown that 42% of subjects were carriers of one CFTR allele and that 24% are compound heterozygous for CFTR alleles. Thus, we have been unable to identify 76% of these patients as carrying two CFTR mutations. Furthermore, we have described the segregation of CFTR haplotypes in the family of one CBAVD male; in this family are two male siblings, with identical CFTR loci but displaying different phenotypes, one of them being fertile and the other sterile. The data presented in this family, indicating a discordance between the CBAVD phenotype and a marked carrier (delta F508) chromosome, support the involvement of another gene(s), in the etiology of CBAVD.

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65 In addition, we identified the following missense mutations: four R668C, one A800G, one (G628R + S1235R, borne on the same chromosome), one (R74W + D1270N, borne on the same chromosome), six R117H, one F1052V, one R117C, one S1235R, one G149R, one R258G, two R347H, one R1066H, one R75L, and one E193K. Login to comment
77 of Patients Genotypea 1 AF508 + (G628R + S1235R) 1 AF508 + (R74W + D1270N) 2 AF508 + R668C 4 AF508 + R117H 1 AF508 + R258G 1 AF508 + R75L 1 E193K + N1303K 1 R347H + R1066H 1 R117C + W1282X 1 R553X + R668C 1 G149R + R668C 1 R117H+R117H 18 AF508/unidentified 4 W1282X/unidentified 1 G542X/unidentified 1 N1303K/unidentified 1 S1235R/unidentified 1 R347H/unidentified 1 A800G/unidentified 1 F1052V/unidentified 23 unidentified/unidentified a In parentheses are the two mutations located on the same haplotype. Login to comment
99 The association of these two missense mutations on the same haplotype is interesting, as both S1235R and R74W have been independently reported elsewhere to be CFTR alleles (Claustres et al. 1993; Cuppens et al. 1993). Login to comment

[hide] Cystic fibrosis: genotypic and phenotypic variatio... Annu Rev Genet. 1995;29:777-807. Zielenski J, Tsui LC
Cystic fibrosis: genotypic and phenotypic variations.
Annu Rev Genet. 1995;29:777-807., [PMID:8825494]

Abstract [show]
Cystic fibrosis (CF) is a common genetic disorder in the Caucasian population. The gene was identified in 1989 on the basis of its map location on chromosome 7. The encoded gene product, named cystic fibrosis transmembrane conductance regulator (CFTR), corresponds to a cAMP-regulated chloride channel found almost exclusively in the secretory epithelial cells. Although the major mutation that results in a single amino acid deletion (F508) accounts for 70% of the disease alleles, more than 550 additional mutant alleles of different forms have been detected. Many of these mutations can be divided into five general classes in terms of their demonstrated or presumed molecular consequences. In addition, a good correlation has been found between CFTR genotype and one of the clinical variables--pancreatic function status. An unexpected finding, however, is the documentation of CFTR mutations in patients with atypical CF disease presentations, including congenital absence of vas deferens and several pulmonary diseases. Thus, the implication of CFTR mutation is more profound than CF alone.

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593 Not surprisingly, Rl17H is associated with CF only when the allele also contains Table 2 Examples of complex alleles in the CfTR gene Principal Second site mutationa Location alteration Location Reference R75X exon 3 125G --.. C promoter 57 405 + IG --.. A intron 3 3030G --.. A exon 15 57 R1l7H exon 4 129G --.. C promoter 203 RI17H exon 4 IVS8 : 5T or 7T intron 8 101 R297Q exon 7 IVS8 : 5T or 7T intron 8 60 aF508 exon 10 R553Q exon II 59 aF508 exon 10 1I027T exon I7a 57 8F508 exon 10 deletion of D7S8 500 kb 3' of 186 CfTR S549N exon II R75Q exon 3 205a L619S exon 13 1716G � A exon 10 57 G628R (G � C) exon 13 SI235R exon 19 47 2184insA exon 13 IVS:5T exon 9 J Zielenski, J Bal, 0 Markiewicz, L-C Tsui, unpublished data A800G exon 13 IVS8 : 5T or 7T intran 8 31 S912L exon 15 GI244V exon 20 149 GlO69R exon 17b L88X exon 3 149 3732deiA exon 19 Kl200E exon 19 70 3849 + IOkbC � intron 19 R668C exon 13 57 T SI251N exon 20 F508C exon 10 94 The status of principal mutation may not be clear in every case; e.g. G628R(G --> C) vs S1235R. Login to comment

[hide] Sensitivity of single-strand conformation polymorp... Hum Mol Genet. 1994 May;3(5):801-7. Ravnik-Glavac M, Glavac D, Dean M
Sensitivity of single-strand conformation polymorphism and heteroduplex method for mutation detection in the cystic fibrosis gene.
Hum Mol Genet. 1994 May;3(5):801-7., [PMID:7521710]

Abstract [show]
The gene responsible for cystic fibrosis (CF) contains 27 coding exons and more than 300 independent mutations have been identified. An efficient and optimized strategy is required to identify additional mutations and/or to screen patient samples for the presence of known mutations. We have tested several different conditions for performing single-stranded conformation polymorphism (SSCP) analysis in order to determine the efficiency of the method and to identify the optimum conditions for mutation detection. Each exon and corresponding exon boundaries were amplified. A panel of 134 known CF mutations were used to test the efficiency of detection of mutations. The SSCP conditions were varied by altering the percentage and cross-linking of the acrylamide, employing MDE (an acrylamide substitute), and by adding sucrose and glycerol. The presence of heteroduplexes could be detected on most gels and in some cases contributed to the ability to distinguish certain mutations. Each analysis condition detected 75-98% of the mutations, and all of the mutations could be detected by at least one condition. Therefore, an optimized SSCP analysis can be used to efficiently screen for mutations in a large gene.

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121 1078delT (35), L327R (Ravnik-Glavac a al., unpublished), R334W (36), D36K (31), R347L (26), R347P (14), A349V (26), R352Q (30), 1221delCT (34); Exon 8: W401X (31), 1342-1G-C (25); Exon 9: G458V (37), 1525 -1G-A (38); Exon 10: S492F (34), Q493X (39), 1609delCA (40,17), deltaI507 (39,41), deltaF5O8 (3), 1717-1G-A (39,42); Exon 11: G542X (39), S549N, G551D, R553X (43), R553Q (44), A559T (43), R560K (Fine et al., pers. comm.), R560T (39); Exon 12: Y563N (39), 1833delT (Schwartz et al., pers. comm.), P574H (39), 1898 + 1G-C (31), 1898+3A-G (Ferrari et al., pers. comm.); Exon 13: G628R(G-C) (31), Q685X (Firec et al., pers. comm.), K716X (26), L719X (Dork etal., pers. comm.), 2522insC (15), 2556insAT (45), E827X (34); Exon 14a: E831X (Ffrec et al., pers. comm.), R851X (29), 2721delll (31), C866Y (Audrezet et al., pers. comm.); Exon 14b: 2789+5G-A (Highsmith et al., pers. comm.); Exon 15: 2907denT (21), 2991del32 (Dark and TQmmler, pers. comm.), G970R (31); Exon 16: S977P, 3100insA (D6rk et al., pers. comm.); Exon 17a: I1005R (Dork and TQmmler, pers. comm.), 3272-1G-A (46); Exon 17b: H1054D (F6rec et al., pers. comm.), G1061R (Fdrec et al., pers. comm.), 332Oins5, R1066H, A1067T (34), R1066L (Fe"rec etal., pers. comm.), R1070Q (46), E1104X (Zielenski el al., pers. comm.), 3359delCT (46), L1077P (Bozon « a/., pers. comm.), H1085R (46), Y1092X (Bozon etal., pers. comm.), W1098R, M1101K (Zielenski et al., pers. comm.); Exon 18: D1152H (Highsmith et al., pers. comm.); Exon 19:R1162X (36), 3659delC (39), 3662delA (25), 3667del4 (Chillon et al., pers. comm.), 3737ddA (35), 3821ddT (15), I1234V (35), S1235R (31), Q1238X (26), 3849G-A (25), 385O-3T-G (38); Exon20:3860ins31 (Chillon etal., pers. comm.), S1255X (47), 3898insC (26), 3905insT (Malik et al., pers. comm.), D127ON (48), W1282X (49), Q1291R (Dork et al., pers. comm.), Exon 21: N1303H (35), N13O3K (50), W1316X (43); Exon 22: 11328L/4116delA (Dork and TQmmler, pers. comm.), E1371X (25); Exon 23: 4374+ 1G-T (38); Exon 24: 4382delA (Claustres et al., pers. comm.). Login to comment

[hide] Analysis of the whole CFTR coding regions and spli... Hum Genet. 1994 Apr;93(4):467-70. Culard JF, Desgeorges M, Costa P, Laussel M, Razakatzara G, Navratil H, Demaille J, Claustres M
Analysis of the whole CFTR coding regions and splice junctions in azoospermic men with congenital bilateral aplasia of epididymis or vas deferens.
Hum Genet. 1994 Apr;93(4):467-70., [PMID:7513294]

Abstract [show]
Several recent studies have demonstrated the presence of mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene in healthy males with infertility caused by congenital absence of the vas deferens (CBAVD), previously recognized as an idiopathic genetic condition distinct from CF. In order to document further the genetic commonality of these two disorders, we undertook a double screening of the entire coding and flanking sequences of the CFTR gene, by using single-strand conformational polymorphism analysis and denaturing gradient gel electrophoresis in 12 unrelated infertile men with abnormalities of the vas deferens and/or epididymis. This strategy allowed us to identify 11 DNA sequence alterations considered as CF-causing mutations and several variations. Despite this double analysis, only two patients out of eight with CBAVD could be demonstrated as compound heterozygotes for CF mutations.

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31 Two CFTR mutations were found in patients not described as CBAVD: the stop mutation G542X (Kerem et al. 1990) in a case with congenital unilateral epididymis and vas deferens aplasia (CUAVD) (patient no. 4), and the missense mutation S1235R (Cuppens et al. CF Consortium) in a patient with congenital bilateral aplasia of the tail of epididymis (CBAE) (patient no. 7). Login to comment
33 CFTR mutations identified in 12 patients lacking an epididymis or vas deferens Patient Age Mutations Exon XV2c/KM19 (years) haplotypesa CBAVD 1 43 Unknown B Unknown A CBAVD 6 33 p AF508/A1067T 10/17b B m Unknown A CBAVD 8 32 p Unknown A m AF508 10 B CBAVD 9 27 p R347H 7 C m AF508 10 B CBAVD 11 31 m Unknown D p 2184delA+A---~G at 2183 13 B CBAVD 12 30 Unknown B Unknown B CBAVD 13 32 p AF508 10 B m Unknown A CBAVD 14 AF508 10 B R347H 7 C CUAVD 4 35 m G542X 11 B p Unknown D CBAE 2 28 Unknown C Unknown D CBAE 7 34 p Unknown B m S1235R 19 A CBAE 10 30 Unknown B Unknown C CBAVD, Congenital bilateral aplasia of the vas deferens; CUAVD, congenital unilateral aplasia of the vas deferens; CBAE, congenital bilateral aplasia of the epididymis; p, paternal chromosome; m, maternal chromosome The four haplotypes defined by the CFTR-linked polymorphic restriction sites XV-2c and KM-19 are as follows: A, 1-1; B, -2; C, 2-1; D, 2-2 (the absence of the restriction site for each polymorphism is defined as allele "1", and the presence of the site as allele "2") Table . Login to comment

[hide] CFTR haplotype backgrounds on normal and mutant CF... Hum Mol Genet. 1994 Apr;3(4):607-14. Cuppens H, Teng H, Raeymaekers P, De Boeck C, Cassiman JJ
CFTR haplotype backgrounds on normal and mutant CFTR genes.
Hum Mol Genet. 1994 Apr;3(4):607-14., [PMID:7520797]

Abstract [show]
Ten polymorphic loci, located in a 1 Mb interval across the cystic fibrosis locus, were analyzed on normal and mutant CFTR genes. A different distribution of haplotype backgrounds among normal and mutant CFTR genes was observed. With exception of the D7S8 locus, the three most common mutations, delta F508, G542X and N1303K, were found on an identical haplotype background. In agreement with the observed linkage equilibrium between the Q1463Q and D7S8 loci, both alleles at the D7S8 locus were found on delta F508 CFTR genes. However, the G542X and N1303K mutations, which have been estimated to be at least 35000 years old, were found to be associated with a single allele at the D7S8 locus. Absence of recombination between the D7S8 and Q1463Q loci was also observed on normal CFTR genes with this haplotype background. At the Tn locus in intron 8, allele 9 known to result in very efficient splicing was associated with the most frequent mutations. At the M470V locus, located in a conserved region of the first nucleotide binding fold, the amino acid methionine was found to be associated with the frequent mutations, in particular with mutations located in one of the two nucleotide binding folds which are generally known as severe mutations with regard to exocrine pancreatic function. On mutant CFTR gene, this locus was in complete association with the centromeric D9 locus, in the absence of a complete association with the intervening loci.(ABSTRACT TRUNCATED AT 250 WORDS)

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34 Distribution of alleles at 10 polymorphic loci Locus Allele Normal Mutant Mutations XV2c KM19 D9 1 2 1 2 1 2 58 (0.492) 60 (0.508) 84 (0.622) 51 (0.378) 78 (0.586) 55 (0.414) 146 (0.918) 13 (0.082) 19(0.109) 156 (0.891) 15 (0.085) 161 (0.915) 1001 + llC/T Tn 115 (0.927) R 9 (0.073) 5 7 (0.057) 7 102 (0.836) 9 13 (0.107) M470V C 62 (0.496) R 63 (0.504) 1898+15 2T/A C 84(0.641) R 47 (0.359) T854T Q1463Q D7S8 C 82 (0.636) R 47 (0.364) C 90 (0.692) R 40 (0.308) 1 38 (0.317) 2 82 (0.683) 33 (0.192) 139 (0.808) 0 (0.000) 32 (0.190) 136 (0.810) 156 (0.902) 17 (0.098) 163 (0.926) 13 (0.074) 162 (0.926) 13 (0.074) 162 (0.931) 12 (0.069) 91 (0.569) 69 (0.431) E60X, 622-2A-C, A455E, AF508 (98.3%), 1717-1G-A, G542X, 0.479 63.54 G628R(G-C)/S1235R,2183AA-G, G970R, W1282X, N1303K p<10~ G458V, AI5O7, AF508 (1.7%), 1898 + 1G-C, E73OX, 3272-26A-G, W1310X, 4218insT, UA, UB, UC I336K, W401X, 2T2ldelll, Y1092X, 3659delC, S1251N: not included (5%) E60X, 622-2A-C, W401X, G458V, AF5O8 (1.6%), 1898+ 1G-C, -0.541 90.63 G628R(G-Q/S1235R, E730X, G970R, 3272-26A-G (50.0%), p<10" Y1092X, 3659delC, S1251N, W1310X, UB, UTC A455E, AI507, AF5O8 (98.4%), 1717- 1G-A, G542X, 2183AA-G, 3272-26A-G (50.0%), W1282X, N13O3K, 4218insT, UA 1336K, 2721delU: not included (1%) E60X, 622-2A-C, W401X, G458V, 1898 +1G-C, E730X, G970R, -0.541 90.46 Y1092X, 3659delC, S1251N, W1310X, UB, UC p<10" A455E, AI507, AF508, 1717- 1G-A, G542X, G628R(G-Q/S1235R, 2183AA-G, 3272-26A-G, W1282X, N13O3K, 4218insT, UA I336K, 2721delll: not included (1%) E60X, 622-2A-C, I336K, W401X, G458V, AI507, 1717- 1G-A, -0.726 155.94 1898 + 1G-C, G628R(G-C)/S1235R, 2183AA-G, E730X, 2721delll, p< 10" G970R, 3272-26A-G, Y1092X, 3659delC, S1251N, W1282X, W1310X, 4218insT, UA, UB, UC A455E, AF5O8, G542X, N13O3K E60X, 622-2A-C, I336K, W401X, G458V, AI507, 1717-1G-A, 1898 + 1G-C, G628R(G-C)/S1235R, 2183AA-G, E730X, 2721delll, G970R, 3272-26A-G, Y1092X, 3659delC, S1251N, W1282X, W1310X, 4218insT, UA, UB, UC A455E, AF5O8, G542X, N13O3K A455E, AI5O7, AF508, 1717-1G-A, G542X, G628R(G-Q/S1235R, 2183AA-G, 3272-26A-G, W1282X, N13O3K, 4218insT, UA E60X, 622-2A-C, W401X, G458V, 1898 + 1G-C, E730X, G970R, Y1092X, 3659delC, S1251N, W1310X, UB, UC 1336K, midclll: not included (1%) E60X, 622-2A-C, W401X, A455E, G458V, AF508 (99.2%), G542X, 1898 + 1G-C, 2183AA-G, E730X, G970R, Y1092X, 3659delC, S1251N, N1303K, W1310X, UB, UC AI507, AF5O8 (0.8%), 1717-1G-A, G628R(G-Q/S1235R, 3272-26A-G, W1282X, 4218insT, UA I336K, 2721delU: not included (1%) E60X, 622-2A-C, W401X, A455E, G458V, AF508 (99.2%), G542X, 1898+1G-C, 2183AA-G, E730X, G970R, Y1092X, 3659delC,S1251N, N13O3K, W1310X, UB, UC AI507, AF508 (0.8%), 1717-1G-A, G628R(G-C)/S1235R, 3272-26A-G, W1282X, 4218insT, UA 1336K, midelll: not included (1%) E60X, 622-2A-C, W401X, A455E, G458V, AF5O8 (99.2%), G542X, G628R(G-Q/S1235R, 2183AA-G, E730X, G970R, Y1092X, 3659delC, S1251N,N1303K, W1310X, UC AI507, AF5O8 (0.8%), 1717-1G-A, 1898 + 1G-C, 3272-26A-G, W1282X, 4218insT 1336K, 2721del11. Login to comment
35 UA, UB: not included (2%) A455E, AF508 (61.2%), 1717-1G-A (66.7%), G542X, G628R(G-C)/S1235R, 3272-26A-G, S1251N, W1282X, W1310X E60X, 622-2A-C, W401X, G458V, AJ507, AF5O8 (38.8%), 1717- 1G-A (33.3%), 1898 +1G-C, 2183AA-G, E730X, G970R, Y1092X, 3659delC, N13O3K, 4218insT, UA, UB, UC 1336K, 2721delll: not included (1%) -0.694 139.81 p<10~ 0.452 60.83 p<10" 0.355 38.77 p<10" 0.360 39.44 p<10~7 0.314 29.91 0.250 17.54 p<10"4 The observed CFTR genes associated with a particular allele are given, proportions are given between brackets. Not all the mutations were informative for each of the tested loci, which were therefore not included. For the Tn locus the standardized linkage disequilibrium coefficient was calculated for the group of the non-T9 alleles and the T9 alleles. Login to comment
72 Extragenic (XV2c/KM19/D9) haplotypes Haplotype Normal Mutant Mutations 111 211 121 112 212 122 222 23 (0.204) 43 (0.381) 2 (0.018) 6 (0.053) 0 (0.000) 22 (0.195) 17 (0.150) 4 (0.026) E60X, 622-2A-C, G970R 6 (0.039) G458V, 1898+1G-C, E73OX, W1310X, UB, UC 0 (0.000) 3 (0.019) AF5O8 (1.7%), G628R(G-Q/S1235R 1 (0.006) 3272-26A-G (50.0%) 134 (0.870) A455E, AF508 (96.5%), 1717-1G-A, G542X, 2183AA-G, W1282X, N13O3K 6 (0.039) AI507, AF508 (1.8%), 3272-26A-G (50.0%), 4218insT, UA p<10"3 p<10"7 p<10~7 p<10"2 The observed CFTR genes associated with a particular haplotype are given, proportions are given between brackets. Login to comment
99 Other mutations found to be associated with haplotype backgrounds not present among normal CFTR genes were the G628R(G-C)/S1235R and the 2183AA -G mutations. Login to comment
103 CFTR haplocypes I II ma mb rv V VI Haplotype C7RCCC 211C7RCCC1 111C7RCCC1 /11C7RCCC1 211C7RCCC2 111C7RCCC2 /11C7RCCC2 122C7RCCC2 121C7RCCC2 C5CRRR 122C5CRRR1 211C5CRRR2 222C5CRRR2 C7CRRR 122C7CRRR1 222C7CRRR1 212C7CRRR1 122C7CRRR2 222C7CRRR2 122C7CRRR/ C9CRRR 211C9CRRR1 R9CCCC 122R9CCCC1 222R9CCCC1 /22R9CCCC1 112R9CCCC1 122R9CCCC2 222R9CCCC2 112R9CCCC2 R9CRRR 122R9CRRR1 C7CRRC 112C7CRRC1 112C7CRRC2 C9CRRC 211C9CRRC1 C7CCCC 211C7CCCC1 222C7CCCC1 122C7CCCC2 C7RCCR 211C7RCCR2 Normal 0.524 (43) 0.085 0.073 0.195 0.146 0.012 0.012 0.049 (4) 0.012 0.024 0.012 0.220 (18) 0.024 0.073 0.000 0.073 0.049 0.012 (1) 0.012 0.073 (6) 0.000 0.000 0.000 0.061 0.012 0.000 0.000 (0) 0.000 0.061 (5) 0.000 0.061 0.012 (1) 0.012 0.037 (3) 0.012 0.024 0.000 0.012 (1) 0.012 Mutant 0.080 (IS) 0.005 0.000 0.020 0.015 0.020 0.020 0.000 0.000 0.000 (0) 0.000 0.000 0.000 Mutations p<10"7 W1310X S1251N G458V, E730X, UC E60X, 622-2A-C, G970R W401X, Y1092X, 3659delC 0.055 (9) p<10"2 0.017 0.005 0.005 0.008 0.010 0.010 0.000 (0) 0.000 1717-1G-A (66.7%) 50.0% of 3272-26A-G 50.0% of 3272-26A-G 1717-1G-A(33.3%) AI507, 4218insT W1282X 0.819 (130) p<10~7 0.466 0.007 0.010 0.007 0.312 0.007 0.007 0.005 (1) 0.005 0.005 (1) 0.005 0.000 0.000 (0) 0.000 0.010 (2) 0.000 0.000 0.010 0.005 (1) 0.005 56.7% of AF508, G542X 1% of AF5O8 A455E 1% of AF5O8 38.1% of AF508, N1303K 1.0% of AF5O8 1% of AF508 1% of AF508 G628R(G-Q/S1235R 2183AA-G 1898+1G-C The proportion of CFTR genes associated with a particular haplotype, and the mutations found to be associated with that haplotype are given. Login to comment
162 Of the two missense mutations allele, G628R(G-Q and S1235R, S1235R is located in the second nucleotide binding fold. Login to comment

[hide] Suppressive interactions between mutations located... FEBS Lett. 2000 May 12;473(2):149-53. Wei L, Vankeerberghen A, Jaspers M, Cassiman J, Nilius B, Cuppens H
Suppressive interactions between mutations located in the two nucleotide binding domains of CFTR.
FEBS Lett. 2000 May 12;473(2):149-53., [PMID:10812063]

Abstract [show]
The S1235R locus in CFTR was studied in combination with alleles found at the M470V and G628R loci. While R628 caused a maturational defect, R1235 did not. The impact of R1235 was found to be influenced by the alleles present at the G628R and M470V loci. At the single channel level, R1235-V (R1235 on a V470 background) was characterized by an open probability significantly higher than V470-wildtype CFTR. M470, which on its own increases CFTR chloride transport activity when compared to V470-wildtype CFTR, suppressed the activity of R1235 in such a way that a protein with an open probability not significantly different from V470-wildtype CFTR was obtained. While R628-V CFTR had similar current densities as V470-wildtype CFTR in Xenopus laevis oocytes, R1235-V resulted in current densities that were more than twofold higher than those of V470-wildtype CFTR. However, the current densities generated by R1235/R628-V (R1235 and R628 on a V470 background) CFTR were significant lower than R1235-V or R628-V CFTR.

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0 Suppressive interactions between mutations located in the two nucleotide binding domains of CFTR Lin Weia , Anne Vankeerberghenb , Martine Jaspersb , Jean-Jacques Cassimanb , Bernd Niliusa , Harry Cuppensb; * a Department of Physiology, University of Leuven, B-3000 Leuven, Belgium b Center for Human Genetics, University of Leuven, Gasthuisberg OpN6, Herestraat 49, B-3000 Leuven, Belgium Received 24 March 2000 Edited by Maurice Montal Abstract The S1235R locus in CFTR was studied in combination with alleles found at the M470V and G628R loci. Login to comment
15 The S1235R amino acid alteration is such a mutation. It was 'rst found in a cystic 'brosis (CF) patient who carried S1235R and G628R (gCc) on the same allele [9]. Login to comment
16 In compound heterozygosity with a severe mutation, the S1235R amino acid alteration alone might also result in disease. Login to comment
20 In order to get better insight into the e&#a1;ect of the S1235R mutation, on different backgrounds, the maturational pattern and the electrophysiological properties of these mutant proteins were determined. Login to comment
23 Characterization of alleles at polymorphic loci Screening for the alleles at the (TG)m (located in intron 8), Tn (located in intron 8), M470V and S1235R loci was performed as previously described [9,11]. Login to comment
29 The di&#a1;erent amino acid alterations, V470M, G628R and S1235R, were introduced using the Transformer Site-Directed Mutagenesis kit (Clontech Laboratories, Inc., Palo Alto, CA, USA). Login to comment
91 The allele present at the S1235R locus could not bypass this maturation defect. Login to comment

[hide] Diagnosis of cystic fibrosis in adults with diffus... J Cyst Fibros. 2004 Mar;3(1):15-22. Hubert D, Fajac I, Bienvenu T, Desmazes-Dufeu N, Ellaffi M, Dall'ava-Santucci J, Dusser D
Diagnosis of cystic fibrosis in adults with diffuse bronchiectasis.
J Cyst Fibros. 2004 Mar;3(1):15-22., [PMID:15463882]

Abstract [show]
We assessed the contribution of the sweat test, genotyping and nasal potential difference (NPD) in the diagnosis of cystic fibrosis (CF) in adults with diffuse bronchiectasis (DB). Among 601 adults referred for DB from 1992 to 2001, 46 were diagnosed with CF. The sweat test was positive in 37 patients and normal or intermediate in nine patients. Two CF mutations were identified in 18 patients (39%) by screening for 31 mutations and in 36 patients (78%) after complete genetic analysis. NPD was suggestive of CF in 71% of the patients. The combination of the sweat test and genetic analysis led to the diagnosis of CF in 45 patients. In the nine patients with normal or intermediate sweat test, the diagnosis was confirmed by screening for 31 mutations in five, by complete genetic screening in three, and by NPD in the remaining patient. Searching for CF should start with sweat test. If the sweat test is normal or intermediate, screening for 31 mutations may help to diagnose CF. A complete genetic analysis is indicated when only one mutation is detected and/or when other clinical features, such as obstructive azoospermia or pancreatic insufficiency, are suggestive of CF. NPD measurement is indicated in controversial cases.

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141 The S1235R mutation was also found in one of our patients who had a negative sweat test, but chronic bronchial colonization with P. aeruginosa and obstructive azoospermia. Login to comment
142 Monaghan et al. w26x suggested that S1235R is pathogenic when combined with a second CF mutation, although phenotypic manifestations appear to be variable. Login to comment

[hide] CFTR p.Arg117His associated with CBAVD and other C... J Med Genet. 2013 Apr;50(4):220-7. doi: 10.1136/jmedgenet-2012-101427. Epub 2013 Feb 1. Thauvin-Robinet C, Munck A, Huet F, de Becdelievre A, Jimenez C, Lalau G, Gautier E, Rollet J, Flori J, Nove-Josserand R, Soufir JC, Haloun A, Hubert D, Houssin E, Bellis G, Rault G, David A, Janny L, Chiron R, Rives N, Hairion D, Collignon P, Valeri A, Karsenty G, Rossi A, Audrezet MP, Ferec C, Leclerc J, Georges Md, Claustres M, Bienvenu T, Gerard B, Boisseau P, Cabet-Bey F, Cheillan D, Feldmann D, Clavel C, Bieth E, Iron A, Simon-Bouy B, Izard V, Steffann J, Viville S, Costa C, Drouineaud V, Fauque P, Bi
CFTR p.Arg117His associated with CBAVD and other CFTR-related disorders.
J Med Genet. 2013 Apr;50(4):220-7. doi: 10.1136/jmedgenet-2012-101427. Epub 2013 Feb 1., [PMID:23378603]

Abstract [show]
BACKGROUND: The high frequency of the cystic fibrosis (CF) transmembrane conductance regulator (CFTR) gene mutation p.Arg117His in patients with congenital bilateral absence of the vas deferens (CBAVD) and in newborns screened for CF has created a dilemma. METHODS: Phenotypic and genotypic data were retrospectively collected in 179 non-newborn French individuals carrying p.Arg117His and a second CFTR mutation referred for symptoms or family history, by all French molecular genetics laboratories, referring physicians, CF care centres and infertility clinics. RESULTS: 97% of the patients had the intronic T7 normal variant in cis with p.Arg117His. 89% patients were male, with CBAVD being the reason for referral in 76%. In 166/179 patients with available detailed clinical features, final diagnoses were: four late-onset marked pulmonary disease, 83 isolated CBAVD, 67 other CFTR-related phenotypes, including 44 CBAVD with pulmonary and/or pancreatic symptoms and 12 asymptomatic cases. Respiratory symptoms were observed in 30% of the patients, but the overall phenotype was mild. No correlation was observed between sweat chloride concentrations and disease severity. Five couples at risk of CF offspring were identified and four benefited from prenatal or preimplantation genetic diagnoses (PND or PGD). Eight children were born, including four who were compound heterozygous for p.Arg117His and one with a severe CF mutation. CONCLUSIONS: Patients with CBAVD carrying p.Arg117His and a severe CF mutation should benefit from a clinical evaluation and follow-up. Depending on the CBAVD patients' genotype, a CFTR analysis should be considered in their partners in order to identify CF carrier couples and offer PND or PGD.

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126 (Leu206Trp);( Arg117His) p.Ser1235Arg 2000 2 ICSI cycles, no pregnancy Offer of donor sperm - CFTR-RD p. Login to comment
128 Notably, c.350G>A corresponds to p.Arg117His and c.3705T>G to p.Ser1235Arg. Login to comment

[hide] PGD for cystic fibrosis patients and couples at ri... Reprod Biomed Online. 2013 May;26(5):420-30. doi: 10.1016/j.rbmo.2013.01.006. Epub 2013 Jan 29. Rechitsky S, Verlinsky O, Kuliev A
PGD for cystic fibrosis patients and couples at risk of an additional genetic disorder combined with 24-chromosome aneuploidy testing.
Reprod Biomed Online. 2013 May;26(5):420-30. doi: 10.1016/j.rbmo.2013.01.006. Epub 2013 Jan 29., [PMID:23523379]

Abstract [show]
Preimplantation genetic diagnosis (PGD) for inherited disorders is presently applied for more than 300 different conditions. The most frequent PGD indication is cystic fibrosis (CF), the largest series of which is reviewed here, totalling 404 PGD cycles. This involved testing for 52 different CFTR mutations with almost half of the cases (195/404 cycles) performed for DeltaF508 mutation, one-quarter (103/404 cycles) for six other frequent mutations and only a few for the remaining 45 CFTR mutations. There were 44 PGD cycles performed for 25 CF-affected homozygous or double-heterozygous CF patients (18 male and seven female partners), which involved testing simultaneously for three mutations, resulting in birth of 13 healthy CF-free children and no misdiagnosis. PGD was also performed for six couples at a combined risk of producing offspring with CF and another genetic disorder. Concomitant testing for CFTR and other mutations resulted in birth of six healthy children, free of both CF and another genetic disorder in all but one cycle. A total of 96 PGD cycles for CF were performed with simultaneous aneuploidy testing, including microarray-based 24-chromosome analysis, as a comprehensive PGD for two or more conditions in the same biopsy material.

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42 [1075C>A; 1079C>A] p.[Gln359Lys; Thr360Lys] Exon 8 1 1 1 4 1 1 R297Q c.890G>A p.Arg297Gln Exon 8 1 1 1 2 0 0 R347P c.1040G>C p.Arg347Pro Exon 8 3 5 2 4 1 1 T338I c.1013C>T p.Thr338Ile Exon 8 1 1 1 2 1 1 DF508 c.1521_1523delCTT p.Phe508del Exon 11 130 195 172 345 88 (4) 92 DI507 c.1519_1521delATC p.Ile507del Exon 11 1 5 5 11 2 1 Q493R c.1478A>G p.Gln493Arg Exon 11 5 5 2 2 2 2 1717-1G-A c.1585-1G>A - Intron 11 6 10 9 18 6 8 G542X c.1624G>T p.Gly542X Exon 12 14 17 15 34 10 10 G551S c.1651G>A p.Gly551Ser Exon 12 1 1 1 2 1 1 G551D c.1652G>A p.Gly551Asp Exon 12 12 22 19 33 7 8 I556V c.1666A>G p.Ile556Val Exon 12 1 2 2 4 1 1 R553X c.1657C>T p.Arg553X Exon 12 3 4 2 4 0 0 R560T c.1679G>C p.Arg560Thr Exon 12 1 1 1 2 1 2 1898+1G-A c.1766 &#b1; 1G>A - Intron 13 1 1 1 2 1 1 2184delA c.2052delA p.Lys684AsnfsX38 Exon 14 1 1 0 0 0 0 G622D c.1865G>A p.Gly622Asp Exon 14 1 1 1 3 0 0 N703S c.2108A>G p.Asn703Ser Exon 14 1 2 2 3 2 2 S737F c.2210C>T p.Ser737Phe Exon 14 1 1 0 0 0 0 2622+1G-A c.2490 &#b1; 1G>A - Intron 14 1 5 5 13 1 1 2752-26A-G c.2620-26A>G - Intron 15 1 2 2 4 0 0 2789+5G-A c.2657 &#b1; 5G>A - Intron 16 3 5 4 8 0 0 3120G-A c.2988G>A - Exon 18 2 2 1 2 1 0 3067-72del c.3067_3072del p.Ile1023_Val1024del Exon 19 1 1 1 1 0 0 I1027T c.3080T>C p.Ile1027Thr Exon 19 1 1 1 1 0 0 L997F c.2991G>C p.Leu997Phe Exon 19 1 2 2 4 1 (1) 0 M1028R c.3083T>G p.Met1028Arg Exon 19 1 1 1 2 1 2 F1052V c.3154T>G p.Phe1052Val Exon 20 1 1 0 0 0 0 Y1092X c.3276C>A p.Tyr1092X Exon 20 1 2 1 2 1 1 A1136T c.3406G>A p.Ala1136Thr Exon 21 1 2 1 2 1 0 D1152H c.3454G>C p.Asp1152His Exon 21 3 7 7 15 1 1 3659 del C c.3528delC p.Lys1177SerfsX15 Exon 22 2 4 3 7 3 3 R1162X c.3484C>T p.Arg1162X Exon 22 1 3 2 5 2 2 S1235R c.3705T>G p.Ser1235Arg Exon 22 2 3 3 5 2 1 3849+10kbC>T c.3717 &#b1; 12191C>T - Intron 22 2 4 4 5 0 0 W1282X c.3846G>A p.Trp1282X Exon 23 15 20 20 42 11 11 N1303K c.3909C>G p.Asn1303Lys Exon 24 9 12 11 24 4 5 Q1352H c.4056G>C p.Gln1352His Exon 25 1 1 1 1 1 1 Total 265 404 345 685 172 (6a ) 175 Values are n unless otherwise stated. Login to comment

[hide] Novel CFTR variants identified during the first 3 ... J Mol Diagn. 2013 Sep;15(5):710-22. doi: 10.1016/j.jmoldx.2013.05.006. Epub 2013 Jun 28. Prach L, Koepke R, Kharrazi M, Keiles S, Salinas DB, Reyes MC, Pian M, Opsimos H, Otsuka KN, Hardy KA, Milla CE, Zirbes JM, Chipps B, O'Bra S, Saeed MM, Sudhakar R, Lehto S, Nielson D, Shay GF, Seastrand M, Jhawar S, Nickerson B, Landon C, Thompson A, Nussbaum E, Chin T, Wojtczak H
Novel CFTR variants identified during the first 3 years of cystic fibrosis newborn screening in California.
J Mol Diagn. 2013 Sep;15(5):710-22. doi: 10.1016/j.jmoldx.2013.05.006. Epub 2013 Jun 28., [PMID:23810505]

Abstract [show]
California uses a unique method to screen newborns for cystic fibrosis (CF) that includes gene scanning and DNA sequencing after only one California-40 cystic fibrosis transmembrane conductance regulator (CFTR) panel mutation has been identified in hypertrypsinogenemic specimens. Newborns found by sequencing to have one or more additional mutations or variants (including novel variants) in the CFTR gene are systematically followed, allowing for prospective assessment of the pathogenic potential of these variants. During the first 3 years of screening, 55 novel variants were identified. Six of these novel variants were discovered in five screen-negative participants and three were identified in multiple unrelated participants. Ten novel variants (c.2554_2555insT, p.F1107L, c.-152G>C, p.L323P, p.L32M, c.2883_2886dupGTCA, c.2349_2350insT, p.K114del, c.-602A>T, and c.2822delT) were associated with a CF phenotype (42% of participants were diagnosed at 4 to 25 months of age), whereas 26 were associated with CFTR-related metabolic syndrome to date. Associations with the remaining novel variants were confounded by the presence of other diseases or other mutations in cis or by inadequate follow-up. These findings have implications for how CF newborn screening and follow-up is conducted and will help guide which genotypes should, and which should not, be considered screen positive for CF in California and elsewhere.

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74 of parents receiving CFTR mutation testing Diagnosis/ status 49 W 80.6 p.F508del p.S13C 7T/9T 0 ND{ 50 H 90.3 c.274-1G>A p.T629A 7T/9T 0 ND{ 51 W, B 100.6 p.F508del p.P355L (c.1064C>T) 7T/9T 0 ND{ 52 H 79.1 p.F508del p.Q493H (c.1479G>C) 7T/9T 0 ND{ 53 W, B 64.8 p.F508del p.V1022M 7T/9T 0 ND{ 54 W 74.7 p.F508del c.-887C>T c.4243-5C>T 7T/9T 0 NDk 55 O 136.6 p.F508del p.P718R 7T/9T 0 ND{ Study participants with negative NBS results 56 H 276.7 c.2822delT c.2822delT 7T/7T 0 CF 57 H 179.2 c.2822delT c.2822delT 7T/7T 0 CF 58 W 15.6 p.S1235R c.-288G>C 7T/9T 0 CF 59 H 35.1 c.164 &#fe; 4T>A* p.G1173S* Not done 1 Carrier 60 O 20.2 c.4136 &#fe; 12A>G* p.M837Ty Not done 2 NDk *Confirmed by parental CFTR mutation testing to be on chromosome 1. y Confirmed by parental CFTR mutation testing to be on chromosome 2. z 5T variant associated with (TG)11. x 5T variant associated with (TG)12. Login to comment

[hide] Effect of ivacaftor on CFTR forms with missense mu... J Cyst Fibros. 2014 Jan;13(1):29-36. doi: 10.1016/j.jcf.2013.06.008. Epub 2013 Jul 23. Van Goor F, Yu H, Burton B, Hoffman BJ
Effect of ivacaftor on CFTR forms with missense mutations associated with defects in protein processing or function.
J Cyst Fibros. 2014 Jan;13(1):29-36. doi: 10.1016/j.jcf.2013.06.008. Epub 2013 Jul 23., [PMID:23891399]

Abstract [show]
BACKGROUND: Ivacaftor (KALYDECO, VX-770) is a CFTR potentiator that increased CFTR channel activity and improved lung function in patients age 6 years and older with CF who have the G551D-CFTR gating mutation. The aim of this in vitro study was to evaluate the effect of ivacaftor on mutant CFTR protein forms with defects in protein processing and/or channel function. METHODS: The effect of ivacaftor on CFTR function was tested in electrophysiological studies using a panel of Fischer rat thyroid (FRT) cells expressing 54 missense CFTR mutations that cause defects in the amount or function of CFTR at the cell surface. RESULTS: Ivacaftor potentiated multiple mutant CFTR protein forms that produce functional CFTR at the cell surface. These included mutant CFTR forms with mild defects in CFTR processing or mild defects in CFTR channel conductance. CONCLUSIONS: These in vitro data indicated that ivacaftor is a broad acting CFTR potentiator and could be used to help stratify patients with CF who have different CFTR genotypes for studies investigating the potential clinical benefit of ivacaftor.

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44 None M1V A46D E56K P67L R74W G85E E92K D110E D110H R117C R117H E193K L206W R334W I336K T338I S341P R347H R347P R352Q A455E L467P S492F F508del V520F A559T R560S R560T A561E Y569D D579G R668C L927P S945L S977F L997F F1052V H1054D K1060T L1065P R1066C R1066H R1066M A1067T R1070Q R1070W F1074L L1077P H1085R M1101K D1152H S1235R D1270N N1303K 0 100 200 300 400 500 600 * * * CFTR Mutation mRNA (% Normal CFTR) Fig. 1. Login to comment
64 Mutant CFTR form CFTR processing Mature/total % Normal CFTR Normal 0.89 &#b1; 0.01 100.0 &#b1; 18.5 G85E -0.05 &#b1; 0.04 -1.0 &#b1; 0.9 R560S 0.00 &#b1; 0.00 0.0 &#b1; 0.0 R1066C 0.02 &#b1; 0.01 0.0 &#b1; 0.0 S492F 0.00 &#b1; 0.00 0.1 &#b1; 0.1 R560T 0.01 &#b1; 0.01 0.2 &#b1; 0.1 V520F 0.05 &#b1; 0.03 0.3 &#b1; 0.2 M1101K 0.05 &#b1; 0.03 0.3 &#b1; 0.1 A561E 0.08 &#b1; 0.04 0.5 &#b1; 0.2 R1066M 0.02 &#b1; 0.02 0.5 &#b1; 0.4 N1303K 0.02 &#b1; 0.02 0.5 &#b1; 0.3 A559T 0.16 &#b1; 0.09 0.6 &#b1; 0.2 M1V 0.06 &#b1; 0.06 0.7 &#b1; 0.6 Y569D 0.11 &#b1; 0.04 0.6 &#b1; 0.2 R1066H 0.08 &#b1; 0.02a 0.7 &#b1; 0.2a L1065P 0.05 &#b1; 0.05 1.0 &#b1; 0.8 L467P 0.10 &#b1; 0.07 1.2 &#b1; 0.8 L1077P 0.08 &#b1; 0.04 1.5 &#b1; 0.6 A46D 0.21 &#b1; 0.08 1.9 &#b1; 0.5a E92K 0.06 &#b1; 0.05 1.9 &#b1; 1.3 H1054D 0.09 &#b1; 0.04 1.9 &#b1; 0.8 F508del 0.09 &#b1; 0.02a 2.3 &#b1; 0.5a H1085R 0.06 &#b1; 0.01a 3.0 &#b1; 0.7a I336K 0.42 &#b1; 0.05a 6.5 &#b1; 0.7a L206W 0.35 &#b1; 0.10a 6.8 &#b1; 1.7a F1074L 0.52 &#b1; 0.03a 10.9 &#b1; 0.6a A455E 0.26 &#b1; 0.10a 11.5 &#b1; 2.5a E56K 0.29 &#b1; 0.04a 12.2 &#b1; 1.5a R347P 0.48 &#b1; 0.04a 14.6 &#b1; 1.8a R1070W 0.61 &#b1; 0.04a 16.3 &#b1; 0.6a P67L 0.36 &#b1; 0.04a 28.4 &#b1; 6.8a R1070Q 0.90 &#b1; 0.01a 29.5 &#b1; 1.4a S977F 0.97 &#b1; 0.01a 37.3 &#b1; 2.4a A1067T 0.78 &#b1; 0.03a 38.6 &#b1; 6.1a D579G 0.72 &#b1; 0.02a 39.3 &#b1; 3.1a D1270N 1.00 &#b1; 0.00a,c 40.7 &#b1; 1.2a S945L 0.65 &#b1; 0.04a 42.4 &#b1; 8.9a L927P 0.89 &#b1; 0.01a,b 43.5 &#b1; 2.5a,b R117C 0.87 &#b1; 0.02a,b 49.1 &#b1; 2.9a,b T338I 0.93 &#b1; 0.03a,b 54.2 &#b1; 3.7a,b L997F 0.90 &#b1; 0.04a,b 59.8 &#b1; 10.4a,b D110H 0.97 &#b1; 0.01a,b 60.6 &#b1; 1.5a,b S341P 0.79 &#b1; 0.02a 65.0 &#b1; 4.9a,b R668C 0.94 &#b1; 0.03a,b 68.5 &#b1; 1.9a,b R74W 0.78 &#b1; 0.01a 69.0 &#b1; 2.7a,b D110E 0.92 &#b1; 0.05a,b 87.5 &#b1; 9.5a,b R334W 0.91 &#b1; 0.05a,b 97.6 &#b1; 10.0a,b K1060T 0.87 &#b1; 0.02a,b 109.9 &#b1; 28.0a,b R347H 0.96 &#b1; 0.02a,c 120.7 &#b1; 2.8a,b S1235R 0.96 &#b1; 0.00a,c 139.0 &#b1; 9.0a,b E193K 0.84 &#b1; 0.02a,b 143.0 &#b1; 17.1a,b R117H 0.86 &#b1; 0.01a,b 164.5 &#b1; 34.2a,b R352Q 0.98 &#b1; 0.01a,b 179.9 &#b1; 8.0a,c F1052V 0.90 &#b1; 0.01a,b 189.9 &#b1; 33.1a,b D1152H 0.96 &#b1; 0.02a,c 312.0 &#b1; 45.5a,b Notes to Table 1: Quantification of steady-state CFTR maturation expressed as the mean (&#b1;SEM; n = 5-9) ratio of mature CFTR to total CFTR (immature plus mature) or level of mature mutant CFTR relative to mature normal-CFTR (% normal CFTR) in FRT cells individually expressing CFTR mutations. Login to comment
71 This was expected, as the CFTR mutations tested include known or putative CF-causing mutations, as well as CFTR mutations associated with varying clinical consequences (e.g., R668C, F1052V, D1152H) or complex CFTR alleles that may modify disease severity (e.g., S1235R) (www.CFTR2.org) [8,16]. Login to comment
74 Because the level of CFTR mRNA was similar across the panel of cell lines tested, the range in baseline activity and ivacaftor response likely reflects the severity of the functional defect and/or the 0 50 100 150 200 S341P R347P L467P S492F A559T A561E Y569D L1065P R1066C R1066M L1077P M1101K N1303K R560S L927P R560T H1085R V520F E92K M1V F508del H1054D I336K A46D G85E R334W T338I R1066H R352Q R117C L206W R347H S977F S945L A455E F1074L E56K P67L R1070W D110H D579G D110E R1070Q L997F A1067T E193K R117H R74W K1060T R668C D1270N D1152H S1235R F1052V Baseline With ivacaftor * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Chloride transport (% Normal) Mutant CFTR form 0 100 200 300 400 S341P R347P L467P S492F A559T A561E Y569D L1065P R1066C R1066M L1077P M1101K N1303K R560S L927P R560T H1085R V520F E92K M1V F508del H1054D I336K A46D G85E R334W T338I R1066H R352Q R117C L206W R347H S977F S945L A455E F1074L P67L E56K R1070W D110H D579G D110E R1070Q L997F A1067T E193K R117H R74W K1060T R668C D1270N D1152H S1235R F1052V * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Mature CFTR (% Normal) Mutant CFTR form A B Fig. 2. Login to comment
82 Mutation Patientsa Chloride transport (bc;A/cm2 ) Chloride transport (% normal) EC50 Baseline With ivacaftor Baseline With ivacaftor Fold increase over baselineb Normal 204.5 &#b1; 33.3 301.3 &#b1; 33.8c 100.0 &#b1; 16.3 147.3 &#b1; 16.5c 1.5 266 &#b1; 42 G551D 1282 1.5 &#b1; 0.7 113.2 &#b1; 13.0c 1.0 &#b1; 0.5 55.3 &#b1; 6.3c 55.3 312 &#b1; 73 F1052V 12 177.3 &#b1; 13.7 410.2 &#b1; 11.3c 86.7 &#b1; 6.7 200.7 &#b1; 5.6c 2.3 177 &#b1; 14 S1235R ND 160.6 &#b1; 25.7 352.1 &#b1; 43.4c 78.5 &#b1; 12.6 172.2 &#b1; 21.2c 2.2 282 &#b1; 104 D1152H 185 117.3 &#b1; 23.0 282.7 &#b1; 46.9c 57.4 &#b1; 11.2 138.2 &#b1; 22.9c 2.4 178 &#b1; 67 D1270N 32 109.5 &#b1; 20.5 209.5 &#b1; 27.4c 53.6 &#b1; 10.0 102.4 &#b1; 13.4c 1.9 254 &#b1; 56 R668C 45 99.0 &#b1; 9.4 217.6 &#b1; 11.7c 48.4 &#b1; 4.6 106.4 &#b1; 5.7c 2.2 517 &#b1; 105 K1060T ND 89.0 &#b1; 9.8 236.4 &#b1; 20.3c 43.5 &#b1; 4.8 115.6 &#b1; 9.9c 2.7 131 &#b1; 73 R74W 25 86.8 &#b1; 26.9 199.1 &#b1; 16.8c 42.5 &#b1; 13.2 97.3 &#b1; 8.2c 2.3 162 &#b1; 17 R117H 739 67.2 &#b1; 13.3 274.1 &#b1; 32.2c 32.9 &#b1; 6.5 134.0 &#b1; 15.7c 4.1 151 &#b1; 14 E193K ND 62.2 &#b1; 9.8 379.1 &#b1; 1.1c 30.4 &#b1; 4.8 185.4 &#b1; 1.0c 6.1 240 &#b1; 20 A1067T ND 55.9 &#b1; 3.2 164.0 &#b1; 9.7c 27.3 &#b1; 1.6 80.2 &#b1; 4.7c 2.9 317 &#b1; 214 L997F 27 43.7 &#b1; 3.2 145.5 &#b1; 4.0c 21.4 &#b1; 1.6 71.2 &#b1; 2.0c 3.3 162 &#b1; 12 R1070Q 15 42.0 &#b1; 0.8 67.3 &#b1; 2.9c 20.6 &#b1; 0.4 32.9 &#b1; 1.4c 1.6 164 &#b1; 20 D110E ND 23.3 &#b1; 4.7 96.4 &#b1; 15.6c 11.4 &#b1; 2.3 47.1 &#b1; 7.6c 4.1 213 &#b1; 51 D579G 21 21.5 &#b1; 4.1 192.0 &#b1; 18.5c 10.5 &#b1; 2.0 93.9 &#b1; 9.0c 8.9 239 &#b1; 48 D110H 30 18.5 &#b1; 2.2 116.7 &#b1; 11.3c 9.1 &#b1; 1.1 57.1 &#b1; 5.5c 6.2 249 &#b1; 59 R1070W 13 16.6 &#b1; 2.6 102.1 &#b1; 3.1c 8.1 &#b1; 1.3 49.9 &#b1; 1.5c 6.2 158 &#b1; 48 P67L 53 16.0 &#b1; 6.7 88.7 &#b1; 15.7c 7.8 &#b1; 3.3 43.4 &#b1; 7.7c 5.6 195 &#b1; 40 E56K ND 15.8 &#b1; 3.1 63.6 &#b1; 4.4c 7.7 &#b1; 1.5 31.1 &#b1; 2.2c 4.0 123 &#b1; 33 F1074L ND 14.0 &#b1; 3.4 43.5 &#b1; 5.4c 6.9 &#b1; 1.6 21.3 &#b1; 2.6c 3.1 141 &#b1; 19 A455E 120 12.9 &#b1; 2.6 36.4 &#b1; 2.5c 6.3 &#b1; 1.2 17.8 &#b1; 1.2c 2.8 170 &#b1; 44 S945L 63 12.3 &#b1; 3.9 154.9 &#b1; 47.6c 6.0 &#b1; 1.9 75.8 &#b1; 23.3c 12.6 181 &#b1; 36 S977F 9 11.3 &#b1; 6.2 42.5 &#b1; 19.1c 5.5 &#b1; 3.0 20.8 &#b1; 9.3c 3.8 283 &#b1; 36 R347H 65 10.9 &#b1; 3.3 106.3 &#b1; 7.6c 5.3 &#b1; 1.6 52.0 &#b1; 3.7c 9.8 280 &#b1; 35 L206W 81 10.3 &#b1; 1.7 36.4 &#b1; 2.8c 5.0 &#b1; 0.8 17.8 &#b1; 1.4c 3.6 101 &#b1; 13 R117C 61 5.8 &#b1; 1.5 33.7 &#b1; 7.8c 2.9 &#b1; 0.7 16.5 &#b1; 3.8c 5.7 380 &#b1; 136 R352Q 46 5.5 &#b1; 1.0 84.5 &#b1; 7.8c 2.7 &#b1; 0.5 41.3 &#b1; 3.8c 15.2 287 &#b1; 75 R1066H 29 3.0 &#b1; 0.3 8.0 &#b1; 0.8c 1.5 &#b1; 0.1 3.9 &#b1; 0.4c 2.6 390 &#b1; 179 T338I 54 2.9 &#b1; 0.8 16.1 &#b1; 2.4c 1.4 &#b1; 0.4 7.9 &#b1; 1.2c 5.6 334 &#b1; 38 R334W 150 2.6 &#b1; 0.5 10.0 &#b1; 1.4c 1.3 &#b1; 0.2 4.9 &#b1; 0.7c 3.8 259 &#b1; 103 G85E 262 1.6 &#b1; 1.0 1.5 &#b1; 1.2 0.8 &#b1; 0.5 0.7 &#b1; 0.6 NS NS A46D ND 2.0 &#b1; 0.6 1.1 &#b1; 1.1 1.0 &#b1; 0.3 0.5 &#b1; 0.6 NS NS I336K 29 1.8 &#b1; 0.2 7.4 &#b1; 0.1c 0.9 &#b1; 0.1 3.6 &#b1; 0.1c 4 735 &#b1; 204 H1054D ND 1.7 &#b1; 0.3 8.7 &#b1; 0.3c 0.8 &#b1; 0.1 4.2 &#b1; 0.1c 5.3 187 &#b1; 20 F508del 29,018 0.8 &#b1; 0.6 12.1 &#b1; 1.7c 0.4 &#b1; 0.3 5.9 &#b1; 0.8c 14.8 129 &#b1; 38 M1V 9 0.7 &#b1; 1.4 6.5 &#b1; 1.9c 0.4 &#b1; 0.7 3.2 &#b1; 0.9c 8.0 183 &#b1; 85 E92K 14 0.6 &#b1; 0.2 4.3 &#b1; 0.8c 0.3 &#b1; 0.1 2.1 &#b1; 0.4c 7.0 198 &#b1; 46 V520F 58 0.4 &#b1; 0.2 0.5 &#b1; 0.2 0.2 &#b1; 0.1 0.2 &#b1; 0.1 NS NS H1085R ND 0.3 &#b1; 0.2 2.1 &#b1; 0.4 0.2 &#b1; 0.1 1.0 &#b1; 0.2 NS NS R560T 180 0.3 &#b1; 0.3 0.5 &#b1; 0.5 0.1 &#b1; 0.1 0.2 &#b1; 0.2 NS NS L927P 15 0.2 &#b1; 0.1 10.7 &#b1; 1.7c 0.1 &#b1; 0.1 5.2 &#b1; 0.8c 52.0 313 &#b1; 66 R560S ND 0.0 &#b1; 0.1 -0.2 &#b1; 0.2 0.0 &#b1; 0.0 -0.1 &#b1; 0.1 NS NS N1303K 1161 0.0 &#b1; 0.0 1.7 &#b1; 0.3 0.0 &#b1; 0.0 0.8 &#b1; 0.2 NS NS M1101K 79 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 NS NS L1077P 42 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 NS NS R1066M ND 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 NS NS R1066C 100 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 NS NS L1065P 25 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 NS NS Y569D 9 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 NS NS A561E ND 0.0 &#b1; 0.1 0.0 &#b1; 0.1 0.0 &#b1; 0.0 0.0 &#b1; 0.1 NS NS A559T 43 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 NS NS S492F 16 0.0 &#b1; 0.0 1.7 &#b1; 1.2 0.0 &#b1; 0.0 0.8 &#b1; 0.6 NS NS L467P 16 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 NS NS R347P 214 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 0.0 &#b1; 0.0 NS NS S341P 9 0.0 &#b1; 0.0 0.2 &#b1; 0.2 0.0 &#b1; 0.0 0.1 &#b1; 0.1 NS NS a Number of individuals with the individual mutation in the CFTR-2 database (www.CFTR2.org). Login to comment
92 Mutant CFTR forms that did not significantly respond to ivacaftor under the experimental conditions used in this study were generally associated with severe defects in CFTR processing A B C D E F 0 100 200 300 400 -9 -8 -7 -6 -5 -4 0 S1235R D1152H F1052V D1270N ivacaftor [Log M] 0 100 200 300 400 -9 -8 -7 -6 -5 -4 0 R668C K1060T R74W R117H ivacaftor [Log M] 0 100 200 300 400 -9 -8 -7 -6 -5 -4 0 E193K A1067T L997F R1070Q ivacaftor [Log M] Chloride Transport ( &#b5;A/cm 2 ) Chloride Transport ( &#b5;A/cm 2 ) Chloride Transport ( &#b5;A/cm 2 ) Chloride Transport ( &#b5;A/cm 2 ) Chloride Transport ( &#b5;A/cm 2 ) Chloride Transport ( &#b5;A/cm 2 ) Chloride Transport ( &#b5;A/cm 2 ) Chloride Transport ( &#b5;A/cm 2 ) Chloride Transport ( &#b5;A/cm 2 ) 0 100 200 300 400 -9 -8 -7 -6 -5 -4 0 D110E D579G D110H R1070W ivacaftor [Log M] 0 100 200 300 400 -9 -8 -7 -6 -5 -4 0 F1074L E56K P67L A455E ivacaftor [Log M] 0 100 200 300 400 -9 -8 -7 -6 -5 -4 0 R347H S945L L206W S977F ivacaftor [Log M] 0 100 200 300 400 -8 -6 -4 0 T338I R1066H R117C R352Q ivacaftor [Log M] 0 100 200 300 400 -9 -8 -7 -6 -5 -4 0 F508del R334W H1054D E92K ivacaftor [Log M] 0 5 10 15 20 -9 -8 -7 -6 -5 -4 0 F508del R334W H1054D E92K R1066H T338I ivacaftor [Log M] G H I Fig. 3. Login to comment

[hide] Defining the disease liability of variants in the ... Nat Genet. 2013 Oct;45(10):1160-7. doi: 10.1038/ng.2745. Epub 2013 Aug 25. Sosnay PR, Siklosi KR, Van Goor F, Kaniecki K, Yu H, Sharma N, Ramalho AS, Amaral MD, Dorfman R, Zielenski J, Masica DL, Karchin R, Millen L, Thomas PJ, Patrinos GP, Corey M, Lewis MH, Rommens JM, Castellani C, Penland CM, Cutting GR
Defining the disease liability of variants in the cystic fibrosis transmembrane conductance regulator gene.
Nat Genet. 2013 Oct;45(10):1160-7. doi: 10.1038/ng.2745. Epub 2013 Aug 25., [PMID:23974870]

Abstract [show]
Allelic heterogeneity in disease-causing genes presents a substantial challenge to the translation of genomic variation into clinical practice. Few of the almost 2,000 variants in the cystic fibrosis transmembrane conductance regulator gene CFTR have empirical evidence that they cause cystic fibrosis. To address this gap, we collected both genotype and phenotype data for 39,696 individuals with cystic fibrosis in registries and clinics in North America and Europe. In these individuals, 159 CFTR variants had an allele frequency of l0.01%. These variants were evaluated for both clinical severity and functional consequence, with 127 (80%) meeting both clinical and functional criteria consistent with disease. Assessment of disease penetrance in 2,188 fathers of individuals with cystic fibrosis enabled assignment of 12 of the remaining 32 variants as neutral, whereas the other 20 variants remained of indeterminate effect. This study illustrates that sourcing data directly from well-phenotyped subjects can address the gap in our ability to interpret clinically relevant genomic variation.

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137 In addition to these ten variants, c.1210-12(7) (legacy name 7T) had already been reported to be non-penetrant48 and was identified as a second variant in numerous fathers, and a twelfth variant, p.Ile1027Thr, was deemed 159 variants ࣙ0.01% frequency in CFTR2 127 variants meet clinical and functional criteria Clinical and functional analysis 13 variants meet neither criteria 14 variants 5 variants 7 variants 6 variants Evidence of non-penetrance No evidence of non-penetrance 19 variants meet clinical or functional criteria 127 variants are CF causing 12 variants are non CF causing 20 variants are indeterminate p.Arg117HisߤC p.Arg75Gln p.Gly576Alaߤ p.Arg668Cys ߤ p.Met470Val C p.IIe1027Thr ߤC p.Val754Met ߤC p.IIe148Thr ߤC p.Arg31Cys C p.Ser1235Arg ߤ p.Leu997Phe ߤ p.Arg1162Leu p.Leu227Arg F p.Gln525* F p.Leu558SerC p.Asp614Gly C c.2657+2_2657+3insA C c.1418delG F c.1210-12(7) ߤ p.Arg1070Gln C p.Asp1270Asn ߤC p.[Gln359Lys; Thr360Lys] p.Gly1069Argߤ p.Asp1152His p.Phe1052Val c.1210-12(5) p.Arg74Trpߤ p.IIe1234Val ߤC p.Arg1070Trp ߤF p.Ser977Phe F p.Asp579Gly C p.Tyr569Asp F Penetrance analysis Figure 4ߒ Assignment of disease liability to the 159 most frequent CFTR variants using three criteria. Login to comment
173 The 127 variants that met both clinical and functional criteria were designated cystic fibrosis causing; however, 32 remaining -variants Table 1ߒ Variants associated with incomplete penetrance Variant Number of alleles in CFTR2 Frequency in CFTR2 (out of 70,777 known alleles) Number that occur in trans with a CF-causing variant in fathers Number reported in 2,062 fathers Frequency in fathers (out of 4,124 alleles) Allele frequency in 1000 Genomes Project Variants that met clinical criteria but did not meet functional criteria p.Arg31Cys 13 0.00018 4 4 0.00097 0.001-0.004 p.Ile148Thra 99 0.00140 4 9 0.00218 Not available p.Met470Val 41 0.00058 Not analyzed 1,412 0.34239 0.087-0.647 p.Val754Met 9 0.00013 4 7 0.00170 0-0.003 Variants that did not meet clinical or functional criteria p.Arg75Gln 28 0.00040 48 74 0.01794 0.009-0.033 p.Gly576Alab 42 0.00059 12 20 0.00485 0.004-0.009 p.Arg668Cysc 49 0.00069 16 29 0.00703 0.004-0.009 p.Leu997Phe 28 0.00040 5 9 0.00218 0.001-0.003 p.Arg1162Leu 9 0.00013 2 6 0.00145 0.001 p.Ser1235Arg 54 0.00076 15 21 0.00509 0.005-0.016 aDoes not cause cystic fibrosis unless in cis with the known deleterious variant p.Ile1023_Val1024del66. Login to comment

[hide] Ivacaftor: a review of its use in patients with cy... Drugs. 2013 Sep;73(14):1595-604. doi: 10.1007/s40265-013-0115-2. Deeks ED
Ivacaftor: a review of its use in patients with cystic fibrosis.
Drugs. 2013 Sep;73(14):1595-604. doi: 10.1007/s40265-013-0115-2., [PMID:24030637]

Abstract [show]
Ivacaftor (Kalydeco) is a potentiator of the cystic fibrosis transmembrane conductance regulator (CFTR) and is the first drug that treats an underlying cause of cystic fibrosis to be licensed for use. Ivacaftor increases the open probability (i.e. gating) of CFTR channels with the G551D mutation, thus enhancing chloride transport, and is indicated in a number of countries for the treatment of cystic fibrosis in patients aged >/=6 years who carry this mutation. This review focuses on pharmacological, clinical efficacy and tolerability data relevant to the use of ivacaftor in this indication. In two 48-week, double-blind, phase III trials in patients aged >/=12 (STRIVE) or 6-11 (ENVISION) years with cystic fibrosis and the G551D mutation, oral ivacaftor 150 mg every 12 h significantly improved lung function relative to placebo, when used in combination with standard care. Significant improvements in pulmonary exacerbation risk (in STRIVE) as well as bodyweight and some aspects of health-related quality of life (both studies) were also seen with the drug versus placebo. Moreover, the beneficial effects of ivacaftor on parameters such as lung function and bodyweight were maintained over up to 96 weeks of treatment in an ongoing open-label extension of these studies. Ivacaftor was generally well tolerated, with headache, oropharyngeal pain, upper respiratory tract infection and nasal congestion being among the most common adverse events. Thus, ivacaftor expands the current treatment options for patients with cystic fibrosis who have the G551D mutation. Its potential for use in patients with other CFTR mutations is also of interest.

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36 Further in vitro data suggest that other CFTR proteins with residual function may also be potentiated by ivacaftor, including those with mutations that affect conductance (e.g. R117H, D110H), mildly affect CFTR processing (e.g. E56K, P67L) or have uncharacterized effects (e.g. D110E, S1235R) [5, 16]. Login to comment

[hide] Genetic, cell biological, and clinical interrogati... Genet Med. 2014 Aug;16(8):625-32. doi: 10.1038/gim.2014.4. Epub 2014 Feb 20. Molinski SV, Gonska T, Huan LJ, Baskin B, Janahi IA, Ray PN, Bear CE
Genetic, cell biological, and clinical interrogation of the CFTR mutation c.3700 A>G (p.Ile1234Val) informs strategies for future medical intervention.
Genet Med. 2014 Aug;16(8):625-32. doi: 10.1038/gim.2014.4. Epub 2014 Feb 20., [PMID:24556927]

Abstract [show]
PURPOSE: The purpose of this study was to determine the molecular consequences of the variant c.3700 A>G in the cystic fibrosis transmembrane conductance regulator (CFTR) gene, a variant that has been predicted to cause a missense mutation in the CFTR protein (p.Ile1234Val). METHODS: Clinical assays of CFTR function were performed, and genomic DNA from patients homozygous for c.3700 A>G and their family members was sequenced. Total RNA was extracted from epithelial cells of the patients, transcribed into complementary DNA, and sequenced. CFTR complementary DNA clones containing the missense mutation p.Ile1234Val or a truncated exon 19 (p.Ile1234_Arg1239del) were constructed and heterologously expressed to test CFTR protein synthesis and processing. RESULTS: In vivo functional measurements revealed that the individuals homozygous for the variant c.3700 A>G exhibited defective CFTR function. We show that this mutation in exon 19 activates a cryptic donor splice site 18 bp upstream of the original donor splice site, resulting in deletion of six amino acids (r.3700_3717del; p.Ile1234_Arg1239del). This deletion, similar to p.Phe508del, causes a primary defect in folding and processing. Importantly, Lumacaftor (VX-809), currently in clinical trial for cystic fibrosis patients with the major cystic fibrosis-causing mutation, p.Phe508del, partially ameliorated the processing defect caused by p.Ile1234_Arg1239del. CONCLUSION: These studies highlight the need to verify molecular and clinical consequences of CFTR variants to define possible therapeutic strategies.

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131 Interestingly, the CF Mutation Database5 contains several disease-associated mutations within the p.Ile1234_Arg1239 sequence and includes c.3705T>G (p.Ser1235Arg), c.3709G>A (p.Gly1237Ser), c.3713A>G (p.Gln1238Arg), c.3712C>T (p.Gln1238X), and c.3717G>C (p.Arg1239Ser). Login to comment

[hide] Genetics and treatment options for recurrent acute... Curr Treat Options Gastroenterol. 2014 Sep;12(3):359-71. doi: 10.1007/s11938-014-0022-y. Shelton CA, Whitcomb DC
Genetics and treatment options for recurrent acute and chronic pancreatitis.
Curr Treat Options Gastroenterol. 2014 Sep;12(3):359-71. doi: 10.1007/s11938-014-0022-y., [PMID:24954874]

Abstract [show]
OPINION STATEMENT: Worldwide research efforts demonstrate a major role of gene-environment interactions for the risk, development, and progression of most pancreatic diseases, including recurrent acute and chronic pancreatitis. New findings of pancreas disease-associated risk variants have been reported in the CPA1, GGT1, CLDN2, MMP1, MTHFR, and other genes. These risk genes and their regulatory regions must be added to the known pathogenic variants in the PRSS1, SPINK1, CFTR, CTRC, CASR, UBR1, SBDS, CEL, and CTSB genes. This new knowledge promises to improve disease management and prevention through personalized medicine. At the same time, however, knowledge of an increasing number of pathogenic variants, and their complicated effects when present in combination, results in increasing difficulty in interpretation and development of recommendations. Direct-to-consumer marketing of genetic testing results also adds complexity to disease management paradigms, especially without interpretation and, in many cases, proven accuracy. While improvements in the ability to rapidly and accurately interpret complex genetic tests are clearly needed, some results, such as pathogenic CFTR variants, including a new class of bicarbonate-defective mutations, and PRSS1 variants have immediate implications that direct management. In addition, discovery of pancreatitis-associated genetic variants in patients with glucose intolerance may suggest underlying type 3c diabetes, which also has implications for treatment and disease management.

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44 Members of the CFTR bicarbonate-defective genetic variants (CFTRBD ) include R74Q, R75Q, R117H, R170H, L967S, L997F, D1152H, S1235R, and D1270N [23ߦߦ, 25]. Login to comment

[hide] Mechanisms of CFTR functional variants that impair... PLoS Genet. 2014 Jul 17;10(7):e1004376. doi: 10.1371/journal.pgen.1004376. eCollection 2014 Jul. LaRusch J, Jung J, General IJ, Lewis MD, Park HW, Brand RE, Gelrud A, Anderson MA, Banks PA, Conwell D, Lawrence C, Romagnuolo J, Baillie J, Alkaade S, Cote G, Gardner TB, Amann ST, Slivka A, Sandhu B, Aloe A, Kienholz ML, Yadav D, Barmada MM, Bahar I, Lee MG, Whitcomb DC
Mechanisms of CFTR functional variants that impair regulated bicarbonate permeation and increase risk for pancreatitis but not for cystic fibrosis.
PLoS Genet. 2014 Jul 17;10(7):e1004376. doi: 10.1371/journal.pgen.1004376. eCollection 2014 Jul., [PMID:25033378]

Abstract [show]
CFTR is a dynamically regulated anion channel. Intracellular WNK1-SPAK activation causes CFTR to change permeability and conductance characteristics from a chloride-preferring to bicarbonate-preferring channel through unknown mechanisms. Two severe CFTR mutations (CFTRsev) cause complete loss of CFTR function and result in cystic fibrosis (CF), a severe genetic disorder affecting sweat glands, nasal sinuses, lungs, pancreas, liver, intestines, and male reproductive system. We hypothesize that those CFTR mutations that disrupt the WNK1-SPAK activation mechanisms cause a selective, bicarbonate defect in channel function (CFTRBD) affecting organs that utilize CFTR for bicarbonate secretion (e.g. the pancreas, nasal sinus, vas deferens) but do not cause typical CF. To understand the structural and functional requirements of the CFTR bicarbonate-preferring channel, we (a) screened 984 well-phenotyped pancreatitis cases for candidate CFTRBD mutations from among 81 previously described CFTR variants; (b) conducted electrophysiology studies on clones of variants found in pancreatitis but not CF; (c) computationally constructed a new, complete structural model of CFTR for molecular dynamics simulation of wild-type and mutant variants; and (d) tested the newly defined CFTRBD variants for disease in non-pancreas organs utilizing CFTR for bicarbonate secretion. Nine variants (CFTR R74Q, R75Q, R117H, R170H, L967S, L997F, D1152H, S1235R, and D1270N) not associated with typical CF were associated with pancreatitis (OR 1.5, p = 0.002). Clones expressed in HEK 293T cells had normal chloride but not bicarbonate permeability and conductance with WNK1-SPAK activation. Molecular dynamics simulations suggest physical restriction of the CFTR channel and altered dynamic channel regulation. Comparing pancreatitis patients and controls, CFTRBD increased risk for rhinosinusitis (OR 2.3, p<0.005) and male infertility (OR 395, p<<0.0001). WNK1-SPAK pathway-activated increases in CFTR bicarbonate permeability are altered by CFTRBD variants through multiple mechanisms. CFTRBD variants are associated with clinically significant disorders of the pancreas, sinuses, and male reproductive system.

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5 Nine variants (CFTR R74Q, R75Q, R117H, R170H, L967S, L997F, D1152H, S1235R, and D1270N) not associated with typical CF were associated with pancreatitis (OR 1.5, p = 0.002). Login to comment
62 Of 43 CFTR variants identified in the NAPS2 cohort (Table 1), nine not associated with typical CF but reported in patients with pancreatitis[25-29] were of particular interest: R74Q, R75Q, R117H (CFTRm-v only when in cis with IVS8-T5[30]; R117H*T5), R170H, L967S, L997F, D1152H, S1235R, and D1270N. Login to comment
95 CFTR variant %Cases %Uctrls OR p-value %Cases w/N34S OR w/N34S p-value w/N34S CF/BD or BD/BD 2.5 0.1 31.9 ,0.0001 5.5 7.46 0.12 All CF 8.7 3.3 2.76 ,0.0001 16.4 5.65 ,0.0001 F508del CF 6.9 3.1 2.32 ,0.0001 14.5 5.13 ,0.0001 IVS8T5** CF 9.9 8.2 1.24 0.079 10.9 1.37 0.47 2789+5G.A CF 0.3 0.0 0.028 0.0 3849+10kbC.T CF 0.3 0.0 0.028 0.0 N1303K CF 0.3 0.0 0.027 0.0 621+1G.T CF 0.1 0.0 0.13 1.8 ,0.0001 2184delA CF 0.1 0.0 0.13 0.0 3120+1G.A CF 0.1 0.0 0.13 0.0 G551D CF 0.2 0.1 2.50 0.20 0.0 0.00 0.83 W1282X CF 0.2 0.1 2.50 0.20 0.0 0.00 0.83 G542X CF 0.2 0.0 0.059 0.0 R1162X CF 0.1 0.0 0.13 0.0 2183AA.G CF 0.0 0.1 0.17 0.0 0.00 0.83 All BD 14.2 9.8 1.50 0.002 25.5 4.63 ,0.0001 R75Q BD 6.3 6.2 1.02 0.30 16.4 2.97 0.003 S1235R BD 2.4 1.4 1.69 0.052 1.8 1.30 0.80 R117H CF/BD 2.3 0.7 3.49 0.0007 5.5 8.74 0.0002 L967S BD 1.1 0.2 6.87 0.002 1.8 11.17 0.014 L997F BD 0.8 1.0 0.82 0.26 1.8 1.84 0.55 D1152H BD 0.4 0.0 0.014 0.0 D1270N BD 0.3 0.2 1.25 0.29 0.0 0.00 0.71 R170H BD 0.3 0.0 0.028 0.0 R74Q BD 0.3 0.1 3.02 0.17 1.8 21.15 0.002 Other M470V 76.1 74.2 1.11 0.14 70.9 0.85 0.59 T854T 57.3 57.8 0.98 0.29 45.5 0.61 0.071 Q1463Q 39.6 39.5 1.01 0.30 40.0 1.02 0.94 1001+11C.T* 13.4 10.9 1.27 0.016 14.5 1.40 0.42 125G.C 10.3 9.7 1.07 0.26 12.7 1.36 0.45 P1290P 7.6 7.9 0.95 0.28 7.3 0.91 0.86 1716G.A 4.5 4.1 1.10 0.26 1.8 0.43 0.39 R668C 1.0 1.4 0.72 0.19 0.0 0.00 0.38 G576A 0.7 1.2 0.58 0.11 0.0 0.00 0.41 computationally modeled the molecular structure, and studied the dynamics, of wild type (WT) and mutated CFTR channels. Login to comment
124 We identified the R75Q, R117H, L967S, L997F, D1152H, and S1235R CFTRBD variants as well as CFTRCF -associated variants (e.g., F508del, G542X) in cases with rhinosinusitis. Login to comment
129 We identified R75Q, R117H, and S1235R as well as the CFTRCF variants F508del, G542X and 2789+5G,A in male cases with infertility. Login to comment
207 While this did not reach statistical significance in this cohort, multiple previous reports of CFTR S1235R in idiopathic pancreatitis patients[56,57] and complex functional features [27] were noted. Login to comment
269 67 SNPs (125GtoC, 1716G.A, 1717-1G.A, 1898+1G.A, 2183AA.G, 2184delA, 2789+5G.A, 3120+1G.A, 3659delC, 3849+10kbC.T, 621+ 1G.T, 711+5G.A, A455E, D110H, D1152H, D1270N, D443Y, D579G, F1052V, F1074L, F508C, F508del, G1069R, G1244E, G1349D, G178R, G542X, G551D, G551S, I1131L/V, I148T, I336K/T, I507del, I807M, IVS8T5, K1180T, L1065P, L967S, L997F, M1V, M470V, M952I, M952T, N1303K, P67L, Q1463Q, R1070Q, R1162X, R117C, R117H, R170H, R258G, R297Q, R31C, R352Q, R553X, R668C, R74W, R75Q, S1235R, S1255P, S485R, S977F, T338I, T854T, V201M, W1282X) were multiplexed into 6 wells; 14 SNPs (S492F, S945L, R74Q, R560T, R1162L, G85E, I1027T, R334W, R347P, G576A, 711+1G.T, 1001+11C.T, P1290P, 3199del6) were ascertained separately via TaqMan Gene Expression Assays, with repeat confirmation of all positive results. Login to comment

[hide] Improving newborn screening for cystic fibrosis us... Genet Med. 2015 Feb 12. doi: 10.1038/gim.2014.209. Baker MW, Atkins AE, Cordovado SK, Hendrix M, Earley MC, Farrell PM
Improving newborn screening for cystic fibrosis using next-generation sequencing technology: a technical feasibility study.
Genet Med. 2015 Feb 12. doi: 10.1038/gim.2014.209., [PMID:25674778]

Abstract [show]
Purpose:Many regions have implemented newborn screening (NBS) for cystic fibrosis (CF) using a limited panel of cystic fibrosis transmembrane regulator (CFTR) mutations after immunoreactive trypsinogen (IRT) analysis. We sought to assess the feasibility of further improving the screening using next-generation sequencing (NGS) technology.Methods:An NGS assay was used to detect 162 CFTR mutations/variants characterized by the CFTR2 project. We used 67 dried blood spots (DBSs) containing 48 distinct CFTR mutations to validate the assay. NGS assay was retrospectively performed on 165 CF screen-positive samples with one CFTR mutation.Results:The NGS assay was successfully performed using DNA isolated from DBSs, and it correctly detected all CFTR mutations in the validation. Among 165 screen-positive infants with one CFTR mutation, no additional disease-causing mutation was identified in 151 samples consistent with normal sweat tests. Five infants had a CF-causing mutation that was not included in this panel, and nine with two CF-causing mutations were identified.Conclusion:The NGS assay was 100% concordant with traditional methods. Retrospective analysis results indicate an IRT/NGS screening algorithm would enable high sensitivity, better specificity and positive predictive value (PPV). This study lays the foundation for prospective studies and for introducing NGS in NBS laboratories.Genet Med advance online publication 12 February 2015Genetics in Medicine (2015); doi:10.1038/gim.2014.209.

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32 [1075C>A;1079C>A] (Q359K/T360K) - - - Mutations that do not cause CF when combined with another CF-causing mutation c.1727G>C (G576A) c.3485G>T (R1162L) c.224G>A (R75Q) - - c.3080T>C (I1027T) c.91C>T (R31C) c.3705T>G (S1235R) - - c.2991G>C (L997F) c.2002C>T (R668C) c.2260G>A (V754M) - - Mutations/variants that were validated in this study are in bold. CF, cystic fibrosis. Table 1ߒContinued (http://www.hgvs.org/mutnomen/) and legacy mutation nomenclature (http://www.cftr2.org/browse.php). Login to comment

[hide] Should diffuse bronchiectasis still be considered ... J Cyst Fibros. 2015 Sep;14(5):646-53. doi: 10.1016/j.jcf.2015.02.012. Epub 2015 Mar 18. Bergougnoux A, Viart V, Miro J, Bommart S, Molinari N, des Georges M, Claustres M, Chiron R, Taulan-Cadars M
Should diffuse bronchiectasis still be considered a CFTR-related disorder?
J Cyst Fibros. 2015 Sep;14(5):646-53. doi: 10.1016/j.jcf.2015.02.012. Epub 2015 Mar 18., [PMID:25797027]

Abstract [show]
BACKGROUND: Although several comprehensive studies have evaluated the role of the CFTR gene in idiopathic diffuse bronchiectasis (DB), it remains controversial. METHODS: We analyzed the whole coding region of the CFTR gene, its flanking regions and the promoter in 47 DB patients and 47 controls. Available information about demographic, spirometric, radiological and microbiological data for the DB patients was collected. Unclassified CFTR variants were in vitro functionally assessed. RESULTS: CFTR variants were identified in 24 DB patients and in 27 controls. DB variants were reclassified based on the results of in silico predictive analyses, in vitro functional assays and data from epidemiological and literature databases. Except for the sweat test value, no clear genotype-phenotype correlation was observed. CONCLUSIONS: DB should not be considered a classical autosomal recessive CFTR-RD. Moreover, although further investigations are necessary, we proposed a new class of "Non-Neutral Variants" whose impact on lung disease requires more studies.

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115 In silico analysis predicted that among the variants exclusively found in the control group only p.Ser1235Arg could induce functional alterations. Login to comment

[hide] Rescue of NBD2 mutants N1303K and S1235R of CFTR b... PLoS One. 2015 Mar 23;10(3):e0119796. doi: 10.1371/journal.pone.0119796. eCollection 2015. Rapino D, Sabirzhanova I, Lopes-Pacheco M, Grover R, Guggino WB, Cebotaru L
Rescue of NBD2 mutants N1303K and S1235R of CFTR by small-molecule correctors and transcomplementation.
PLoS One. 2015 Mar 23;10(3):e0119796. doi: 10.1371/journal.pone.0119796. eCollection 2015., [PMID:25799511]

Abstract [show]
Although, the most common Cystic Fibrosis mutation, DeltaF508, in the cystic fibrosis transmembrane regulator. (CFTR), is located in nucleotide binding domain (NBD1), disease-causing mutations also occur in NBD2. To provide information on potential therapeutic strategies for mutations in NBD2, we studied, using a combination of biochemical approaches and newly created cell lines, two disease-causing NBD2 mutants, N1303K and S1235R. Surprisingly, neither was rescued by low temperature. Inhibition of proteasomes with MG132 or aggresomes with tubacin rescued the immature B and mature C bands of N1303K and S1235R, indicating that degradation occurs via proteasomes and aggresomes. We found no effect of the lysosome inhibitor E64. Thus, our results show that these NBD2 mutants are processing mutants with unique characteristics. Several known correctors developed to rescue DeltaF508-CFTR, when applied either alone or in combination, significantly increased the maturation of bands B and C of both NBD 2 mutants. The best correction occurred with the combinations of C4 plus C18 or C3 plus C4. Co-transfection of truncated CFTR (27-264) into stably transfected cells was also able to rescue them. This demonstrates for the first time that transcomplementation with a truncated version of CFTR can rescue NBD2 mutants. Our results show that the N1303K mutation has a more profound effect on NBD2 processing than S1235R and that small-molecule correctors increase the maturation of bands B and C in NBD2 mutants. In addition, 27-264 was able to transcomplement both NDB2 mutants. We conclude that differences and similarities occur in the impact of mutations on NBD2 when compared to DeltaF508-CFTR suggesting that individualized strategies may be needed to restore their function. Finally our results are important because they suggest that gene or corrector molecule therapies either alone or in combination individualized for NBD2 mutants may be beneficial for patients bearing N1303K or S1235R mutations.

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0 RESEARCH ARTICLE Rescue of NBD2 Mutants N1303K and S1235R of CFTR by Small-Molecule Correctors and Transcomplementation Daniele Rapino1,2 , Inna Sabirzhanova1,2 , Miqu&#e9;ias Lopes-Pacheco1,2 , Rahul Grover1,2 , William B. Guggino2 , Liudmila Cebotaru1 * 1 Department of Medicine, Johns Hopkins University, School of Medicine, Baltimore, Maryland, United States of America, 2 Department of Physiology, Johns Hopkins University, School of Medicine, Baltimore, Maryland, United States of America * lcebotaru@jhmi.edu. Login to comment
3 To provide information on potential therapeutic strategies for mutations in NBD2, we studied, using a combination of biochemical approaches and newly created cell lines, two disease-causing NBD2 mutants, N1303K and S1235R. Login to comment
5 Inhibition of proteasomes with MG132 or aggresomes with tubacin rescued the immature B and mature C bands of N1303K and S1235R, indicating that degradation occurs via proteasomes and aggresomes. Login to comment
12 Our results show that the N1303K mutation has a more profound effect on NBD2 processing than S1235R and that small-molecule correctors increase the maturation of bands B and C in NBD2 mutants. Login to comment
15 Finally our results are important because they suggest that gene or corrector molecule therapies either alone or in combination individualized for NBD2 mutants may be beneficial for patients bearing N1303K or S1235R mutations. Login to comment
16 PLOS ONE | DOI:10.1371/journal.pone.0119796 March 23, 2015 1 / 17 a11111 OPEN ACCESS Citation: Rapino D, Sabirzhanova I, Lopes-Pacheco M, Grover R, Guggino WB, Cebotaru L (2015) Rescue of NBD2 Mutants N1303K and S1235R of CFTR by Small-Molecule Correctors and Transcomplementation. Login to comment
44 To address this question, we have now focused on two NBD2 mutations, N1303K and S1235R. Login to comment
48 The incidence of S1235R is approximately 1% (3.3% in Eastern Europe), significantly higher than other rare mutations. Login to comment
60 The human embryonic kidney Flp-In-293 cell line was used to generate two stable cell lines expressing the PBI CMV2 N1303K CFTR and PBI CMV2 S1235R CFTR plasmids (provided by Phil Thomas (U. Texas, Southwestern). Login to comment
63 PBI CMV2 N1303K CFTR, pc-DNA Ɗ27-264, PBI CMV2 S1235R CFTR, PBI CMV2 CFTR and PBI CMV2 ƊF508 plasmids were used to perform transient transfections using Lipofectamine 2000. Login to comment
93 The effect of proteasome, aggresome, and lysosome inhibitors (MG132, tubacin, and E64, respectively) on the N1303K and S1235R mutations was also studied. Login to comment
109 SPSS (version 17.0 SPSS, Inc, Chicago, III) was used for data analysis Results Characterization of N1303K and S1235 mutations cDNA of N1303K and S1235R, wild-type CFTR, and ƊF508 was transfected into the Cos-7 cell line, and the protein expression of both mutations, N1303K and S1235R, was compared with wt CFTR and ƊF508, the most common CF mutation. Login to comment
110 Densitometry analysis showed that N1303K expressed a level of immature band B similar to that of ƊF508 and a barely detectable mature band C. S1235R expressed both band B and C again at lower levels compared to wt CFTR (Fig. 1). Login to comment
113 In sharp contrast, the results differed for the NBD2 mutants: Temperature rescue had no effect on the maturation of band C of either N1303K or S1235R (Fig. 1). Login to comment
114 The only significant effect was an increase in the mature band B of S1235R when the cells were grown at the reduced temperature. Login to comment
115 Next, we applied inhibitors of proteasomes, aggresomes, and lysosomes in order to investigate the degradation pathway of the N1303K and S1235R mutants (Figs. 2 and 3). Login to comment
120 Like N1303K, the S1235R mutation was not affected by E64 inhibition. Login to comment
121 Interestingly, when we applied MG132 to cells expressing the S1235R mutant, we saw a 6-fold increase in the immature B band (Fig. 3). Login to comment
126 Characterization and temperature correction of N1303K and S1235R. Login to comment
127 (A) Cos7 cells were transfected with wild type (wt) CFTR, ƊF508, N1303K, or S1235R and then grown either continuously at 37&#b0;C or at 25&#b0;C for 24 h. Login to comment
131 For S1235R, some increase in band B is seen, but no significant effect on band C. Login to comment
139 Degradation pathways for the S1235R mutation. An HEK 293 cell line stably expressing S1235R was treated with (A) the lysosome inhibitor E64, (B) proteasome inhibitor MG132, or (C) aggresome inhibitor tubacin. Login to comment
140 (D) The graph shows that the S1235R mutant is mainly degraded by proteasomes and aggresomes; no effect was detected after lysosome treatment. Login to comment
144 Rescue of N1303K and S1235R by small-molecule correctors. Login to comment
145 HEK 293 cell lines stably expressing either (A) N1303K or (B) S1235R were treated with compound alone (C3, C4, C18, CFFT 002, CFFT 003) or the combination of two compounds (C3+C4, C4+C18, or C3+C18). Login to comment
146 (C and D) Graphs show that all compounds are able to significantly increase bands B and C of N1303K and S1235R. Login to comment
150 doi:10.1371/journal.pone.0119796.g004 Application of small-molecule correctors has a significant effect in rescuing the protein expression levels of N1303K and S1235R A number of corrector molecules have been shown to rescue ƊF508-CFTR [33], and the question we asked here is whether they would rescue mutants in NBD2. Login to comment
156 In the case of S1235R, all correctors appeared to have a similar effect either alone or in combination, giving an increase of approximately two fold in both the B and C bands (Fig. Login to comment
158 Stability of both the B and C bands of N1303K and S1235R is significantly higher than that of the control, after treatment with corrector compounds Cells were treated with cycloheximide to inhibit protein synthesis [34] and then harvested at time 0 or after 1, 2, 4, 8, or 24 h. Login to comment
167 On the other hand, the half-life of the S1235R mutation exceeded 24 h (Fig. Login to comment
170 Thus, it appears that corrector compounds exert their effect by increasing the amount of C and B bands in S1235R, whereas in the case of the N1303K mutant, the half-life is also increased. Login to comment
171 Small-molecule compounds increase the amount of mature CFTR localized to the plasma membrane Biotinylation was performed to determine whether the treatment with small-molecule correctors of N1303K and S1235R could increase the amount of band C in these CFTR mutants that was present at the plasma membrane. When compounds C3 + C4 at 5 bc;M were applied, they were able to increase by more than two fold the amount of mature CFTR capable of reaching the cell surface, as compared with the controls for both mutants (Fig. 7). Login to comment
178 doi:10.1371/journal.pone.0119796.g005 Fig 6. Half-live of S1235R with and without treatment with compounds. HEK 293 cell lines stably expressing either mutant were treated with cycloheximide (25bc;g/ml) and harvested after 1, 2, 4, 8, or 24 h. Login to comment
179 (A, C) The half-life of the C band of the S1235R mutant exceeds 24 h. Login to comment
180 When C3+C4 5 (bc;M) was applied, the levels of both the B and C bands were higher at each time point for S1235R (B, D). Login to comment
186 Compounds C3+C4 (5 bc;M) demonstrate the ability to significantly increase the delivery of the fully glycosylated protein to the plasma membrane, in the case of the N1303K (A and C) and S1235R (B and D) mutations. Login to comment
189 Co-immunoprecipitation of CFTR, HSPs, VCP, and HDAC6 in the N1303K and S1235R cell lines treated or untreated with the compounds. HEK 293 cell lines stably expressing either mutant were treated with C3+C4 (5bc;M), and CFTR was immunoprecipitated with anti-CFTR antibody M3A7. Login to comment
198 As shown in Figs. 8 and 9, a number of chaperones, including heat shock proteins (HSP) 27, 40, 70, and 90, bind to the N1303K and S1235R mutants. Login to comment
204 It is also noteworthy that the reduction in binding was greater with the N1303K mutant than with the S1235R mutant (Fig. 8B). Login to comment
205 Given that N1303K causes a more severe form of CF than does S1235R, these results may indicate a more avid engagement of N1303K with the degradative process. Login to comment
206 The binding data precisely paralleled the increase in the rescue of mature C band of N1303K, which was increased by more than 2 folds by the combined treatment with C3+C4, as compared with the rescue of S1235R (Fig. 8B). Login to comment
208 The main difference in the total lysate is a significant increase in the total amount of HSP27 for S1235R and a significant but slightly decreased amount of HSP27 for N1303K when compared to the control (HEK 293 cell lines without any CFTR mutation) (Fig. 9). Login to comment
210 Transient transfection of the Ɗ27-264 plasmid into the N1303K and S1235R HEK Flp-In-293 stable cell lines was able to rescue the N1303K mutation, increasing the band C expression by 3-fold when compared to the control (Fig. Login to comment
212 Treatment with the CFTR truncated form Ɗ27-264 was also able to rescue band C of S1235R, increasing it by more than 2-fold (Fig. Login to comment
218 Discussion Here we have studied two mutations in NBD2, S1235R and N1303K, and showed that both can be rescued by small-molecule correctors, used in combination, and transcomplementation using a truncated version of CFTR. Login to comment
222 Total lysate levels of CFTR, HSPs, VCP and HDAC6 in the N1303K and S1235R cell lines. Login to comment
224 (B) The main difference in the total lysate is a significant increase in the total amount of HSP27 for S1235R and a significant but slightly decreased binding of HSP27 to N1303K when compared with the control (HEK 293 cell lines without any CFTR mutation). Login to comment
225 The graphs show that HSP27 in the cell line bearing the S1235R mutant, whether treated or untreated with the compounds, is four times higher than in the control and the N1303K cell line. Login to comment
230 Effect of transcomplementation with Ɗ27-264 on N1303K and S1235R mutants. Login to comment
232 Ɗ27-264-is able to increase significantly band C of (A) N1303K and (B) S1235R. Login to comment
233 Graphs show that the fully glycosylated protein is increased by 3 times for (C) N1303K and more than 2 times for (D) S1235R. Login to comment
239 S1235R, in contrast, is associated with mild or minimal disease [43]. Login to comment
241 In NBD1, the equivalent amino acid is glutamic acid, and thus the arginine replacement in S1235R seems to be mildly disruptive; the conductance measured in FRT cells is approximately 79% of wt-CFTR, and the protein processing is nearly equivalent to that measured for the G551D mutant [43]. Login to comment
244 Unlike ƊF508-CFTR and A455E, both of which undergo significant trafficking of immature band B to mature band C [12], the mature bands of N1303K and S1235R are not enhanced when cells are grown at low temperature. Login to comment
250 S1235R is particularly sensitive to tubacin, the aggresome inhibitor. Login to comment
251 This response of S1235R is in sharp contrast to that of A455E, which is not sensitive to tubacin. Login to comment
252 There was surprisingly little effect of lysosomal inhibition, especially on the S1235R mutant, even though this mutant does have significant quantities of mature C band at the plasma membrane. When protein translation is inhibited by cycloheximide, the immature B band of N1303K is more stable than ƊF508-CFTR, which is rapidly degraded and disappears rather quickly (see Fig 11. Login to comment
264 Similar results were found for S1235R; all compounds were effective to some extent when administered individually. Login to comment
267 The results showed a significant increase in the presence of the fully glycosylated bands of both N1303K and S1235R at the cell surface when C3+C4 was applied. Login to comment
280 We show here that transfection of the Ɗ27-264 plasmid does indeed lead to rescue of the fully glycosylated band of N1303K and S1235R. Login to comment
284 In summary Our results suggest that the N1303K mutation has a more profound effect on CFTR processing than does S1235R, consistent with the observation that N1303K causes severe CF and S1235R only mild-to-borderline disease [19,23,46]. Login to comment
287 Finally, our results suggest that patients with N1303K or S1235R mutations may be good candidates for therapy with small-molecule correctors, combined with transcomplementation with the truncated form of CFTR, Ɗ27-264. Login to comment

[hide] Benign outcome among positive cystic fibrosis newb... J Cyst Fibros. 2015 Nov;14(6):714-9. doi: 10.1016/j.jcf.2015.03.006. Epub 2015 Mar 29. Salinas DB, Sosnay PR, Azen C, Young S, Raraigh KS, Keens TG, Kharrazi M
Benign outcome among positive cystic fibrosis newborn screen children with non-CF-causing variants.
J Cyst Fibros. 2015 Nov;14(6):714-9. doi: 10.1016/j.jcf.2015.03.006. Epub 2015 Mar 29., [PMID:25824995]

Abstract [show]
BACKGROUND: The Clinical and Functional Translation of CFTR project (CFTR2) classified some cystic fibrosis transmembrane conductance regulator (CFTR) gene variants as non-cystic fibrosis (CF)-causing. To evaluate this, the clinical status of children carrying these mutations was examined. METHODS: We analyzed CF disease-defining variables over 2-6 years in two groups of California CF screen- positive neonates born from 2007 to 2011: (1) children with two CF-causing variants and (2) children with one CF-causing and one non-CF-causing variant, as defined by CFTR2. RESULTS: Children carrying non-CF-causing variants had significantly higher birth weight, lower immunoreactive trypsinogen and sweat chloride values, higher first year growth curves, and a lower rate of persistent Pseudomonas aeruginosa colonization compared to children with two CF-causing variants. CONCLUSIONS: The outcomes in children 2-6 years of age with the L997F, G576A, R1162L, V754M, R668C, R31C, and S1235R variants are consistent with the CFTR2 non-CF-causing classification.

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4 Conclusions: The outcomes in children 2-6 years of age with the L997F, G576A, R1162L, V754M, R668C, R31C, and S1235R variants are consistent with the CFTR2 non-CF-causing classification. Login to comment
95 Non-CF-causing variants from CF NBS in California cDNA name Number of patients identified from the CA CF NBS Mean [Cl-] conductance (as % WT-CFTR) b C/(B + C) (as % of WT-CFTR) in HeLa cellsc C/(B + C) (as % of WT-CFTR) in FRT cellsd CFTR protein quantity (as % WT-CFTR)e L997F c.1408A N G 34 22 97 104 100 G576Aa c.1727G N C 7 147 98 110 104 R1162L c.3485G N T 6 130 93 94 94 V754M c.2260G N A 4 140 98 107 102 R668Ca c.2002C N T 2 58 97 106 102 R31C c.91C N T 2 105 92 86 89 S1235R c.3705T N G 2 79 96 106 101 CA CF NBS = California Cystic Fibrosis Newborn Screening Program. Login to comment

[hide] A Genotypic-Oriented View of CFTR Genetics Highlig... Mol Med. 2015 Apr 21;21:257-75. doi: 10.2119/molmed.2014.00229. Lucarelli M, Bruno SM, Pierandrei S, Ferraguti G, Stamato A, Narzi F, Amato A, Cimino G, Bertasi S, Quattrucci S, Strom R
A Genotypic-Oriented View of CFTR Genetics Highlights Specific Mutational Patterns Underlying Clinical Macrocategories of Cystic Fibrosis.
Mol Med. 2015 Apr 21;21:257-75. doi: 10.2119/molmed.2014.00229., [PMID:25910067]

Abstract [show]
Cystic fibrosis (CF) is a monogenic disease caused by mutations of the cystic fibrosis transmembrane conductance regulator (CFTR) gene. The genotype-phenotype relationship in this disease is still unclear, and diagnostic, prognostic and therapeutic challenges persist. We enrolled 610 patients with different forms of CF and studied them from a clinical, biochemical, microbiological and genetic point of view. Overall, there were 125 different mutated alleles (11 with novel mutations and 10 with complex mutations) and 225 genotypes. A strong correlation between mutational patterns at the genotypic level and phenotypic macrocategories emerged. This specificity appears to largely depend on rare and individual mutations, as well as on the varying prevalence of common alleles in different clinical macrocategories. However, 19 genotypes appeared to underlie different clinical forms of the disease. The dissection of the pathway from the CFTR mutated genotype to the clinical phenotype allowed to identify at least two components of the variability usually found in the genotype-phenotype relationship. One component seems to depend on the genetic variation of CFTR, the other component on the cumulative effect of variations in other genes and cellular pathways independent from CFTR. The experimental dissection of the overall biological CFTR pathway appears to be a powerful approach for a better comprehension of the genotype-phenotype relationship. However, a change from an allele-oriented to a genotypic-oriented view of CFTR genetics is mandatory, as well as a better assessment of sources of variability within the CFTR pathway.

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309 [Gly576Ala;Arg668Cys]) (without the first mutation in cis) was found in two CFTR-RD patients with F508del (p.Phe508del) and S1235R (p.Ser1235Arg) on the other allele, with sweat tests, respectively, of 19 &#b1; 2 and 17 &#b1; 1 mEq/L (average 18 &#b1; 1 mEq/L). Login to comment
390 L1077P c.3230T>C CF-PI CF-causing p.Leu1077Pro Y1092X(C>A) c.3276C>A CF-PI CF-causing p.Tyr1092* M1137V c.3409A>G CFTR-RD nd p.Met1137Val D1152H c.3454G>C CF-PI,CF-PS,CFTR-RD varying clinical consequence p.Asp1152His R1162X c.3484C>T CF-PI CF-causing p.Arg1162* D1168G c.3503A>G CFTR-RD nd p.Asp1168Gly 3667ins4 c.3535_3536insTCAA CF-PI CF-causing p.Thr1179IlefsX17 S1206X c.3617C>A uncertain: CF-PI and/or CF-PS nd p.Ser1206* I1234V c.3700A>G CF-PI,CF-PS CF-causing p.Ile1234Val S1235R c.3705T>G CFTR-RD non CF-causing p.Ser1235Arg 3849+10kbC>T c.3717+12191C>T CF-PI,CF-PS CF-causing V1240G c.3719T>G CFTR-RD nd p.Val1240Gly G1244R c.3730G>A uncertain: CF-PI and/or CF-PS nd p.Gly1244Arg G1244E c.3731G>A CF-PI,CF-PS CF-causing p.Gly1244Glu G1247R(G>C) c.3739G>C CF-PS nd p.Gly1247Arg W1282X c.3846G>A CF-PI CF-causing p.Trp1282* Q1291R c.3872A>G CF-PI,CF-PS,CFTR-RD nd p.Gln1291Arg 4016insT c.3884_3885insT CF-PI CF-causing p.Ser1297PhefsX5 4040delA c.3908delA CF-PI nd p.Asn1303ThrfsX25 N1303K c.3909C>G CF-PI CF-causing p.Asn1303Lys ex22-24del c.3964-3890_4443+3143del9454ins5 CF-PI nd ex22,23del c.3964-78_4242+577del1532 CF-PI CF-causing 4168delCTAAGCC c.4036_4042del CF-PI nd p.Leu1346MetfsX6 G1349D c.4046G>A CF-PI CF-causing p.Gly1349Asp H1375P c.4124A>C uncertain: CF-PI and/or CF-PS nd p.His1375Pro S1455X c.4364C>G CF-PS,CFTR-RD nd p.Ser1455* Q1476X c.4426C>T CFTR-RD nd p.Gln1476* nd,Not determined.According to the three rules described (see Materials and Methods),each mutated allele was classified according to its clinical outcome.It was impossible to univocally assign 16 of the 125 different mutated alleles to one or more macrocategories.A comparison with the CFTR2 project (11) (http://www.cftr2.org) is shown.The alleles are ordered according to their nucleotidic position. Login to comment
423 A similar good match may also be assumed for two mutations classified as non-CF-causing in CFTR2 [S1235R (p.Ser1235Arg) and R31C (p.Arg31Cys)] but as CFTR-RD-causing in our study, owing to the fact that CFTR2 is mainly aimed at classic CF and is more prone to a classification as non-causing for those mutations originating nonclassic clinical and biochemical phenotypes. Login to comment

[hide] Inconclusive diagnosis of cystic fibrosis after ne... Pediatrics. 2015 Jun;135(6):e1377-85. doi: 10.1542/peds.2014-2081. Epub 2015 May 11. Ooi CY, Castellani C, Keenan K, Avolio J, Volpi S, Boland M, Kovesi T, Bjornson C, Chilvers MA, Morgan L, van Wylick R, Kent S, Price A, Solomon M, Tam K, Taylor L, Malitt KA, Ratjen F, Durie PR, Gonska T
Inconclusive diagnosis of cystic fibrosis after newborn screening.
Pediatrics. 2015 Jun;135(6):e1377-85. doi: 10.1542/peds.2014-2081. Epub 2015 May 11., [PMID:25963003]

Abstract [show]
OBJECTIVES: To prospectively study infants with an inconclusive diagnosis of cystic fibrosis (CF) identified by newborn screening (NBS; "CF screen positive, inconclusive diagnosis" [CFSPID]) for disease manifestations. METHODS: Infants with CFSPID and CF based on NBS from 8 CF centers were prospectively evaluated and monitored. Genotype, phenotype, repeat sweat test, serum trypsinogen, and microbiology data were compared between subjects with CF and CFSPID and between subjects with CFSPID who did (CFSPID-->CF) and did not (CFSPID-->CFSPID) fulfill the criteria for CF during the first 3 years of life. RESULTS: Eighty-two subjects with CFSPID and 80 subjects with CF were enrolled. The ratio of CFSPID to CF ranged from 1:1.4 to 1:2.9 in different centers. CFTR mutation rates did not differ between groups; 96% of subjects with CFSPID and 93% of subjects with CF had 2 mutations. Subjects with CFSPID had significantly lower NBS immunoreactive trypsinogen (median [interquartile range]:77 [61-106] vs 144 [105-199] mug/L; P < .0001) than did subjects with CF. Pseudomonas aeruginosa and Stenotrophomonas maltophilia were isolated in 12% and 5%, respectively, of subjects with CFSPID. CF was diagnosed in 9 of 82 (11%) subjects with CFSPID (genotype and abnormal sweat chloride = 3; genotype alone = 4; abnormal sweat chloride only = 2). Sweat chloride was abnormal in CFSPID-->CF patients at a mean (SD) age of 21.3 (13.8) months. CFSPID-->CF patients had significantly higher serial sweat chloride (P < .0001) and serum trypsinogen (P = .009) levels than did CFSPID-->CFSPID patients. CONCLUSIONS: A proportion of infants with CFSPID will be diagnosed with CF within the first 3 years. These findings underscore the need for clinical monitoring, repeat sweat testing at age 2 to 3 years, and extensive genotyping.

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103 In combination with a disease-causing mutation, R117H-7T has been associated with diagnostic uncertainties in CF, TABLE 2 Genotypes of Subjects With CFSPID According to Initial Sweat Chloride Measurements Sweat Chloride ,30 mmol/L Sweat Chloride 30-59 mmol/L Allele 1 Allele 2 n Allele 1 Allele 2 n F508dela R117H (7T)b 9 F508dela R117Cd 2c F508dela 5Tb 2 F508dela L206Wd 2c F508dela D1152Hb 2 F508dela P67Ld 1c F508dela R117Hb 1 F508dela 5Tb 8 F508dela D1270Nb 1 F508dela R117H (7T)b 3 F508dela L997F 3 F508dela R117Hb 3 F508dela 1716G.A 1 F508dela S1455X 1c F508dela 621+3G.A 1 F508dela R170H 1 F508dela I1328T 1 F508dela I148T 1 F508dela L967S 1 F508dela L997F 1 F508dela M1137T 1 F508dela Q1476X 1 F508dela Y301C 1 F508dela S1235R 1 1717-1G.Aa D1152Hb 1 F508dela T1299I 1 2183AA.Ga 5Tb 1 2183AA.Ga R117Cd 1 2183AA.Ga S431G 1 2789+5G.Aa R117H (7T)b 1 3849+10kbC.Ta 3041-15T.G 1 3849+10kbC.Ta 3041-15T.G 1 621+1G.Ta R117H (7T)b 1 621+1G.Ta G1069Rb 1 711+1G.Ta D1152Hb 1 G542Xa L206Wd 1c G542Xa R117H (7T)b 1 G542Xa C1410T 1 G542Xa D1152Hb 1 G551Da 5Tb 1 G551Da D1152Hb 1 N1303Ka 5Tb 1 N1303Ka D1152Hb 1 R1162Xa R117H (7T)b 1c N1303Ka E527G 1 R553Xa 5Tb 1 R117H (5T)a 5Tb 1 R553Xa L997F 1 R117H (7T)b R117H (7T)b 1 R560Ta G576A 1 R117H (7T)b 3041_71G.C 1 W1282Xa 5Tb 2 R117Hb Q1476X 1 F508dela - 2 R117H (5T)a - 1 -, no mutation identified on the second allele. Login to comment

[hide] The improvement of the best practice guidelines fo... Eur J Hum Genet. 2015 May 27. doi: 10.1038/ejhg.2015.99. Girardet A, Viart V, Plaza S, Daina G, De Rycke M, Des Georges M, Fiorentino F, Harton G, Ishmukhametova A, Navarro J, Raynal C, Renwick P, Saguet F, Schwarz M, SenGupta S, Tzetis M, Roux AF, Claustres M
The improvement of the best practice guidelines for preimplantation genetic diagnosis of cystic fibrosis: toward an international consensus.
Eur J Hum Genet. 2015 May 27. doi: 10.1038/ejhg.2015.99., [PMID:26014425]

Abstract [show]
Cystic fibrosis (CF) is one of the most common indications for preimplantation genetic diagnosis (PGD) for single gene disorders, giving couples the opportunity to conceive unaffected children without having to consider termination of pregnancy. However, there are no available standardized protocols, so that each center has to develop its own diagnostic strategies and procedures. Furthermore, reproductive decisions are complicated by the diversity of disease-causing variants in the CFTR (cystic fibrosis transmembrane conductance regulator) gene and the complexity of correlations between genotypes and associated phenotypes, so that attitudes and practices toward the risks for future offspring can vary greatly between countries. On behalf of the EuroGentest Network, eighteen experts in PGD and/or molecular diagnosis of CF from seven countries attended a workshop held in Montpellier, France, on 14 December 2011. Building on the best practice guidelines for amplification-based PGD established by ESHRE (European Society of Human Reproduction and Embryology), the goal of this meeting was to formulate specific guidelines for CF-PGD in order to contribute to a better harmonization of practices across Europe. Different topics were covered including variant nomenclature, inclusion criteria, genetic counseling, PGD strategy and reporting of results. The recommendations are summarized here, and updated information on the clinical significance of CFTR variants and associated phenotypes is presented.European Journal of Human Genetics advance online publication, 27 May 2015; doi:10.1038/ejhg.2015.99.

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87 [Gln359Lys; Thr360Lys] L558S c.1673 T4C p.Leu558Ser Y569D c.1705 T4G p.Tyr569Asp D579G c.1736 A4G p.Asp579Gly D614G c.1841 A4G p.Asp614Gly S977F c.2930C4T p.Ser977Phe F1052V c.3154 T4G p.Phe1052Val G1069R c.3205G4A p.Gly1069Arg R1070Q c.3209G4A p.Arg1070Gln D1152H c.3454G4C p.Asp1152His I1234V c.3700 A4G p.Ile1234Val 5T c.1210 - 12[5] Examples of common not CF-causing variantsc R31C c.91C4T p.Arg31Cys R74W c.220C4T p.Arg74Trp R75Q c.224G4A p.Arg75Gln I148T c.443 T4C p.Ile148Thr M470V c.1408 A4G p.Met470Val G576A c.1727G4C p.Gly576Ala R668C c.2002C4T p.Arg668Cys V754M c.2260G4A p.Val754Met L997F c.2991G4C p.Leu997Phe I1027T c.3080 T4C p.Ile1027Thr R1070W c.3208C4T p.Arg1070Trp R1162L c.3485G4T p.Arg1162Leu Table 1 (Continued) HGVS nomenclature Legacy name cDNA nucleotide name Protein name S1235R c.3705 T4G p.Ser1235Arg D1270N c.3808G4A p.Asp1270Asn 7T c.1210-12[7] Abbreviation: HGVS, Human Genome Variation Society. Login to comment
104 I1027T is usually found in cis with F508del: Notes: (i) Some missense variants classified as either indeterminate or non CF-causing (R74Q, R75Q, R117H, R170H, L967S, L997F, D1152H, S1235R and D1270N) can selectively alter the bicarbonate permeation of the CFTR channel (but not the chloride channel), thus affecting primarily the organs that utilize CFTR for bicarbonate secretion (pancreas, nasal sinus, or vas deferens) and, consequently, they could be involved in the pathogenic mechanisms of CFTR-RDs.14 (ii) In Table 1, the traditional name of common CFTR variants is referenced alongside the HGVS version in order to ensure compatibility with clinical reports and understanding by clinicians and couples. Login to comment