ABCMdb

ABCC7 p.Glu60*

ClinVar:

CF databases:

c.178G>T , p.Glu60* D , CF-causing
c.178G>A , p.Glu60Lys (CFTR1) ? , This mutation was found by DGGE and direct DNA sequencing in a CF child who carries the DI507 in paternal CF chromosome. The patient is 5 years old, PS and sweat test 80mEq/l. Her healthy sister carries the DI507 mutation.(Original Note - Casals et al., 2August2000) The mutation was also reported by Claustres et al., 16November2000 This putative mutation was also detected by DGGE and identified by DNA fluorescent sequencing in an young CF patient from Southern France. She carries the mutation 2790-1G->C on the other chromosome.

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[hide] Mutations of the cystic fibrosis gene, but not cat... Am J Gastroenterol. 2000 Aug;95(8):2061-7. Ockenga J, Stuhrmann M, Ballmann M, Teich N, Keim V, Dork T, Manns MP
Mutations of the cystic fibrosis gene, but not cationic trypsinogen gene, are associated with recurrent or chronic idiopathic pancreatitis.
Am J Gastroenterol. 2000 Aug;95(8):2061-7., [PMID:10950058]

Abstract [show]
OBJECTIVE: We investigated whether mutations of the cystic fibrosis transmembrane conductance regulator (CFTR) gene and cationic trypsinogen gene are associated with recurrent acute, or chronic idiopathic pancreatitis. METHODS: Twenty patients with idiopathic pancreatitis (11 women, nine men; mean age, 30 yr) were studied for the presence of a CFTR mutation by screening the genomic DNA for more than 30 mutations and variants in the CFTR gene. Selected mutations of the cationic trypsinogen gene were screened by Afl III restriction digestion or by a mutation-specific polymerase chain reaction (PCR). In each patient exons 1, 2, and 3 of the cationic trypsinogen gene were sequenced. Patients with a CFTR mutation underwent evaluation of further functional electrophysiological test (intestinal current measurement). RESULTS: No mutation of the cationic trypsinogen gene was detected. A CFTR mutation was detected in 6/20 (30.0%) patients. Three patients (15.0%) had a cystic fibrosis (CF) mutation on one chromosome (deltaF508, I336K, Y1092X), which is known to cause phenotypical severe cystic fibrosis. One patient was heterozygous for the 5T allele. In addition, two possibly predisposing CFTR variants (R75Q, 1716G-->A) were detected on four patients, one of these being a compound heterozygous for the missense mutation I336K and R75Q. No other family member (maternal I336K; paternal R75Q; sister I1336K) developed pancreatitis. An intestinal current measurement in rectum samples of patients with a CFTR mutation revealed no CF-typical constellations. CONCLUSIONS: CFTR mutations are associated with recurrent acute, or chronic idiopathic pancreatitis, whereas mutations of the cationic trypsinogen mutation do not appear to be a frequent pathogenetic factor.

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53 Using the ARMS technology (elucigene CF20, Zeneca Diagnostics, Oxfordshire, UK) all samples were tested additionally for the mutations E60X, R347P, A455E, 1078delT, 2183AA3G, G542X, G551D, N1303K, W1282X, 1717-1G3A, R553X, 621ϩ1G3T, R117H, R1162X, 3849ϩ10kbC3T, R334W, S1251N, and 3659delC. Login to comment

[hide] CF gene and cystic fibrosis transmembrane conducta... J Am Soc Nephrol. 2000 Dec;11(12):2285-96. Persu A, Devuyst O, Lannoy N, Materne R, Brosnahan G, Gabow PA, Pirson Y, Verellen-Dumoulin C
CF gene and cystic fibrosis transmembrane conductance regulator expression in autosomal dominant polycystic kidney disease.
J Am Soc Nephrol. 2000 Dec;11(12):2285-96., [PMID:11095651]

Abstract [show]
Disease-modifying genes might participate in the significant intrafamilial variability of the renal phenotype in autosomal dominant polycystic kidney disease (ADPKD). Cystic fibrosis (CF) transmembrane conductance regulator (CFTR) is a chloride channel that promotes intracystic fluid secretion, and thus cyst progression, in ADPKD. The hypothesis that mutations of the CF gene, which encodes CFTR, might be associated with a milder renal phenotype in ADPKD was tested. A series of 117 unrelated ADPKD probands and 136 unaffected control subjects were screened for the 12 most common mutations and the frequency of the alleles of the intron 8 polymorphic TN: locus of CF. The prevalence of CF mutations was not significantly different in the ADPKD (1.7%, n = 2) and control (3.7%, n = 5) groups. The CF mutation was DeltaF508 in all cases, except for one control subject (1717-1G A). The frequencies of the 5T, 7T, and 9T intron 8 alleles were also similar in the ADPKD and control groups. Two additional patients with ADPKD and the DeltaF508 mutation were detected in the families of the two probands with CF mutations. Kidney volumes and renal function levels were similar for these four patients with ADPKD and DeltaF508 CFTR (heterozygous for three and homozygous for one) and for control patients with ADPKD collected in the University of Colorado Health Sciences Center database. The absence of a renal protective effect of the homozygous DeltaF508 mutation might be related to the lack of a renal phenotype in CF and the variable, tissue-specific expression of DeltaF508 CFTR. Immunohistochemical analysis of a kidney from the patient with ADPKD who was homozygous for the DeltaF508 mutation substantiated that hypothesis, because CFTR expression was detected in 75% of cysts (compared with <50% in control ADPKD kidneys) and at least partly in the apical membrane area of cyst-lining cells. These data do not exclude a potential protective role of some CFTR mutations in ADPKD but suggest that it might be related to the nature of the mutation and renal expression of the mutated CFTR.

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244 Indeed, the two patients with CF described by O`Sullivan et al. (28) each harbored a mutation known to reduce CFTR mRNA levels (stop codon within exon 3 and severe reduction in transcription for E60X; abnormal splicing for 3849ϩ10kbC3T) (16,28); for our ⌬F508/⌬F508 patient, the problem involved abnormal protein folding, resulting in a presumed lack of CFTR at the apical membrane (42). Login to comment

[hide] Type I, II, III, IV, and V cystic fibrosis transme... Curr Opin Pulm Med. 2000 Nov;6(6):521-9. Choo-Kang LR, Zeitlin PL
Type I, II, III, IV, and V cystic fibrosis transmembrane conductance regulator defects and opportunities for therapy.
Curr Opin Pulm Med. 2000 Nov;6(6):521-9., [PMID:11100963]

Abstract [show]
Recent advances in cellular and molecular biology have furthered the understanding of several genetic diseases, including cystic fibrosis. Mutations that cause cystic fibrosis are now understood in terms of the specific molecular consequences to the cystic fibrosis transmembrane conductance regulator (CFTR) protein expression and function. This knowledge has spawned interest in the development of therapies aimed directly at correcting the defective CFTR itself. In this article, we review the molecular defect underlying each recognized class of CFTR mutation and the potential therapies currently under investigation. Opportunities for protein-repair therapy appear to be vast and range from naturally occurring compounds, such as isoflavonoids, to pharmaceuticals already in clinical use, including aminoglycoside antibiotics, butyrate analogues, phosphodiesterase inhibitors, and adenosine nucleotides. Future therapies may resemble designer compounds like benzo[c]quinoliziniums or take the form of small peptide replacements. Given the heterogeneity and progressive nature of cystic fibrosis, however, optimal benefit from protein-repair therapy will most likely require the initiation of combined therapies early in the course of disease to avoid irreparable organ damage.

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22 The nonsense mutations G542X, W1282X, R553X, Q39X, E60X, R75X, L719X, Y1092X, and S1196X significantly reduce the levels of mutant CFTR mRNA to 5 to 30% of wild-type levels [28]. Login to comment

[hide] An alpha1-antitrypsin enhancer polymorphism is a g... Eur J Hum Genet. 2001 Apr;9(4):273-8. Henry MT, Cave S, Rendall J, O'Connor CM, Morgan K, FitzGerald MX, Kalsheker N
An alpha1-antitrypsin enhancer polymorphism is a genetic modifier of pulmonary outcome in cystic fibrosis.
Eur J Hum Genet. 2001 Apr;9(4):273-8., [PMID:11313771]

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Lung disease is the direct cause of death in over 90% of cystic fibrosis (CF) patients. Excess neutrophil elastase is an important determinant of pulmonary disease in CF. alpha1-antitrypsin (AAT), also known as alpha1-proteinase inhibitor (alpha1PI) is a major modulator of elastase activity. We investigated the hypothesis that an enhancer polymorphism in the AAT gene would contribute to pulmonary prognosis in CF. Respiratory function, chest X-ray scores, bacterial colonisation and infective exacerbation were assessed to evaluate pulmonary disease severity in the CF group. Sixteen patients were found to have the 1237A allele, and 108 the more frequent G allele. Contrary to expectation, the patients with the 1237A allele were found to have better indices of pulmonary disease progression than those without, as indicated by less change in X-ray score (1237A: 0.2+/-0.1; 1237G: 1.2+/-0.1; P = 0.002) and fewer infective exacerbations (1237A: 2.8+/-0.6; 1237G: 4.6+/-0.3; P = 0.03) over the preceding 2 years. Also, a higher proportion of the 1237A (25%) than the 1237G (6.5%) were not colonised by Pseudomonas Aeruginosa (P = 0.04). Prospective monitoring of infections for a further 2 years confirmed a lesser propensity to infection in patients with the 1237A allele. These trends were also observed in a tightly matched sub-set of CF genotypes of similar age and sex, thus confirming that these effects were independent of the CF genotype. These results indicate that this AAT enhancer polymorphism is associated with better pulmonary prognosis in CF. Though the number of CF patients with the polymorphism is small, and these data need to be confirmed in larger studies, they suggest that a cautious approach should perhaps be taken to treatment of CF patients with supplemental AAT.

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66 1237G group: G551D (10); R117H (3); R560T (3); D1507 (2); E60X (2); N1303K (1); 1717-1 (1); 621H (1); G542X (1); POL 400 (1); R352Q (1); RT0F (1); 621+G4T (1); Unknown (15). Login to comment

[hide] Complete and rapid scanning of the cystic fibrosis... Hum Genet. 2001 Apr;108(4):290-8. Le Marechal C, Audrezet MP, Quere I, Raguenes O, Langonne S, Ferec C
Complete and rapid scanning of the cystic fibrosis transmembrane conductance regulator (CFTR) gene by denaturing high-performance liquid chromatography (D-HPLC): major implications for genetic counselling.
Hum Genet. 2001 Apr;108(4):290-8., [PMID:11379874]

Abstract [show]
More than 900 mutations and more than 200 different polymorphisms have now been reported in the cystic fibrosis transmembrane conductance regulator (CFTR) gene. Ten years after the cloning of the CFTR gene, the complete scanning of the 27 exons to identify known and novel mutations remains challenging. Rapid accurate identification of mutated alleles is important for prenatal diagnosis, for cascade screening in families at risk of cystic fibrosis (CF) and for understanding the correlation between genotype and phenotype. In this study, we report the successful use of denaturing ion-pair reverse-phase high performance liquid chromatography (D-HPLC) to analyse rapidly the complete coding sequence of the CFTR gene. With 27 pairs of polymerase chain reaction primers, we optimised the temperature conditions required for the analysis of each amplicon and validated thetest conditions on samples from a panel of 1552 CF patients who came from France and other European countries and who had mutations and polymorphisms located in the various melting domains of the gene. D-HPLC identified 415 mutated alleles previously characterised by denaturing gradient gel electrophoresis and DNA sequencing, plus 74 novel mutations reported here. This new technique for screening DNA for sequence variation was extremely accurate (it identified 100% of the CFTR alleles tested so far) and rapid (the complete CFTR gene could be analysed in less than a week). Our approach should reduce the number of untyped CF alleles in populations and thus decrease the residual risk in couples at risk of CF. This technique may be important not only for CF,but also for many other genes with a high frequency of point mutations at a variety of sites.

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72 Two positive samples, with mutations localised in the two different domains, were selected (E60X and G85E). Login to comment
75 At 58°C, only the 5` part of the sequence (highlighted; mutation E60X) is correctly analysed (Fig.1B). Login to comment
87 At 57°C, the 3` part is studied (low melting) represented by mutation G85E (green), whereas at 58°C, the 5` part with mutation E60X (pink) is analysed gene. Login to comment

[hide] Genetic risk factors in infertile men with severe ... Hum Reprod. 2002 Jan;17(1):13-6. Dohle GR, Halley DJ, Van Hemel JO, van den Ouwel AM, Pieters MH, Weber RF, Govaerts LC
Genetic risk factors in infertile men with severe oligozoospermia and azoospermia.
Hum Reprod. 2002 Jan;17(1):13-6., [PMID:11756355]

Abstract [show]
BACKGROUND: Male infertility due to severe oligozoospermia and azoospermia has been associated with a number of genetic risk factors. METHODS: In this study 150 men from couples requesting ICSI were investigated for genetic abnormalities, such as constitutive chromosome abnormalities, microdeletions of the Y chromosome (AZF region) and mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene. RESULTS: Genetic analysis identified 16/150 (10.6%) abnormal karyotypes, 8/150 (5.3%) AZFc deletions and 14/150 (9.3%) CFTR gene mutations. An abnormal karyotype was found both in men with oligozoospermia and azoospermia: 9 men had a sex-chromosomal aneuploidy, 6 translocations were identified and one marker chromosome was found. Y chromosomal microdeletions were mainly associated with male infertility, due to testicular insufficiency. All deletions identified comprised the AZFc region, containing the Deleted in Azoospermia (DAZ) gene. CFTR gene mutations were commonly seen in men with congenital absence of the vas deferens, but also in 16% of men with azoospermia without any apparent abnormality of the vas deferens. CONCLUSIONS: A genetic abnormality was identified in 36/150 (24%) men with extreme oligozoospermia and azoospermia. Application of ICSI in these couples can result in offspring with an enhanced risk of unbalanced chromosome complement, male infertility due to the transmission of a Y-chromosomal microdeletion, and cystic fibrosis if both partners are CFTR gene mutation carriers. Genetic testing and counselling is clearly indicated for these couples before ICSI is considered.

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29 Twelve common mutations of the CFTR gene were tested (∆F508, A445E, G542X, 1717-1G→A, R553X, R117H, R1162X, N1303K, W1282X, 3659delC, E60X and S1251N). Login to comment
72 Varicocele OAT 6.4 Deletion of the azoospermia factor (AZF) region: 1 AZFc Normal Normal OAT 2.8 2 AZFc Normal Hypogonadism OAT 7.3 CFTR:∆F508/- 3 AZFc Normal Normal OAT 1.0 4 AZFc Normal Varicocele OAT 6.0 5 AZFc Normal Hypogonadism Cryptozoospermia 8.0 6 AZFc Cryptorchidism Normal Azoospermia 6.1 7 AZFc Normal Normal Azoospermia 2.4 8 AZFc Normal Hypogonadism Azoospermia 14.8 Cystic fibrosis transmembrane conductance regulator (CFTR) gene mutations (T-Stretch): 1 R117H/- (7T/-) Sinusitis CBAVD Azoospermia 2.3 2 ∆F508/- (5T/9T) Normal CBAVD Azoospermia 4.6 3 ∆F508/R117H (7T/9T) Normal CBAVD Azoospermia 4.9 4 A445E/- (5T/9T) Ejaculatory failure Partial CBAVD Azoospermia 3.3 5 E60X/- (7T/7T) MAGI Normal OAT 2.5 6 R117H/- (7T/7T) Urethral valves Varicocele OAT 4.6 7 ∆F508/- (7T/9T) Normal Normal OAT 2.8 8 ∆F508/- (7T/9T) Cryptorchidism Normal OAT 16.0 9 ∆F508/- (7T/9T) Normal Hypogonadism OAT 7.3 AZFc deletion 10 R117H/- (7T/9T) Normal Hypogonadism Azoospermia 11.0 47,XXY karyotype 11 ∆F508/- (7T/9T) Normal Normal Azoospermia 3.2 12 ∆F508/- (9T/9T) Cryptorchidism Normal Azoospermia 10.0 13 ∆F508/- (7T/7T) Normal Normal Azoospermia 20.0 14 ∆F508/- (7T/7T) Normal Normal Azoospermia 3.2 CBAVD ϭ congenital bilateral absence of the vas deferens; MAGI ϭ male accessory gland infection; OAT ϭ oligo-astheno-teratozoospermia; AZF ϭ azoospermia factor (Yq11). Login to comment

[hide] Spectrum of mutations in the CFTR gene of patients... Genet Test. 2001 Fall;5(3):235-42. Strandvik B, Bjorck E, Fallstrom M, Gronowitz E, Thountzouris J, Lindblad A, Markiewicz D, Wahlstrom J, Tsui LC, Zielenski J
Spectrum of mutations in the CFTR gene of patients with classical and atypical forms of cystic fibrosis from southwestern Sweden: identification of 12 novel mutations.
Genet Test. 2001 Fall;5(3):235-42., [PMID:11788090]

Abstract [show]
Cystic fibrosis (CF) is caused by mutations in the CFTR gene. The spectrum of CFTR mutations varies between populations and depends on different factors, such as ethnic background and geographical location. The extensive CFTR mutation screening of 129 patients with classical or atypical CF from the south-western region of Sweden revealed the presence of 37 CFTR mutations, including 12 novel alleles. The overall mutation detection rate in this study population was 92%, the highest among all tested regions in Sweden. Eight mutations with a frequency above 1% (DeltaF508, 394delTT, R117C, 3659delC, E60X, 1112delT, R764X, and 621 + 1G --> T) accounted for 78% of CF chromosomes and have been recommended for inclusion in the CFTR mutation screening panel for molecular diagnosis of CF in this region. The multiple occurrence of specific CFTR alleles less common than the predominant DeltaF508 mutation (394delTT, R117C, 3659delC) allowed for genotype-phenotype comparisons and revealed consistent relationships between these mutations and disease severity.

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5 Eight mutations with a frequency above 1% (DF508, 394delTT, R117C, 3659delC, E60X, 1112delT, R764X, and 621 1 1G R T) accounted for 78% of CF chromosomes and have been recommended for inclusion in the CFTR mutation screening panel for molecular diagnosis of CF in this region. Login to comment
27 MUTATIONS IDENTIFIED IN 258 CHROMOSOMES IN THE CF POPULATION ATTENDING THE SOUTH-WESTERN SWEDISH CF CENTRE Location in the Frequency of Mutation gene, exon Number of mutations mutation (%) Homozygotes Heterozygotes DF508 10 161 62.4 56 49 394delTT 3 13 5.0 3 7 R117C 4 7 2.7 7 3659delC 19 5 1.9 5 E60X 3 4 1.6 4 1112delT 7 4 1.6 1 2 R764X 13 4 1.6 1 2 621 1 1G ® T 4 3 1.2 3 G551D 11 2 0.8 2 I506L 10 2 0.8 2 N1088D (R75Q) 17b 2 0.8 2 Q1238X 19 2 0.8 2 R117H (IVS8-5T) 4 2 0.8 2 V603F (IVS8-5T) 13 2 0.8 2 1716G ® A 10 2 0.8 2 R75Q 3 2 0.8 2 R533X 11 1 0.4 1 2329A ® G Promoter 1 0.4 1 297-3 C ® A 2 1 0.4 1 Y161D 4 1 0.4 1 994del9 Exon/intron 6b 1 0.4 1 1154insTC 7 1 0.4 1 W361R 7 1 0.4 1 T338I 7 1 0.4 1 1249-5A ® G Intron 7 1 0.4 1 1717-2A ® G Intron 10 1 0.4 1 R560T 11 1 0.4 1 E1401X 23 1 0.4 1 3126del4 17a 1 0.4 1 S945L 15 1 0.4 1 R668C 13 1 0.4 1 2622 1 2del6 Intron 13 1 0.4 1 R1162Q Exon 19 1 0.4 1 3849 1 10kbC ® T Intron 19 1 0.4 1 R74W Exon 3 1 0.4 1 2363C ® T Promoter 1 0.4 1 IVS8-5Ta Intron 8 1 0.4 1 Unidentified 20 7.8 Total 258 100 61 116 The new mutations are displayed in bold. Login to comment
75 CLINICAL DATA FOR THE CF PATIENTS CARRYING NEW MUTATIONS Age PI Lung Sweat (years) at or disease Cl Mutations diagnosis PSb (severity) (mmol/liter) Additional symptoms Frameshift 1112delT/1112delT 4 PI 111 110 1112delT/DF508 0.3 PI 111 112 1112delT/DF508 0.2a PI 111 110 3126del4/E60X 2 PI 11 130 994del9/DF508 0.08 PI 2 120 Meconium ileus RNA splice 297-3C ® A/DF508 0.3 PI 1 120 2622 1 2del6/DF508 0.25 PI 111 100 Nonsense E1401X/unknown 6 PS 2 52 Poor growth, fat malabsorption, abnormal electrophysiological response in the intestinal mucosal biopsy Missense V603F, IVS8-5T/DF508 2 PI 1 101 N1088D, R75Q/DF508 4a PS 2 78 N1088D, R75Q/DF508 2 PS 2 75 Y161D/DF508 0.4 PI 1 83 Malabsorption I506L/DF508 42.5 PS 111 103 I506L/3659delC 30 PS 111 80 R1162Q/unknown nvc PS 1 6 Frequent pneumonias V603F, IVS8-5T/unknown nvc PS (1) 24 Sinusitis, severe recurrent hypoglycemia, nasal polyps, abdominal pain Promoter? Login to comment
84 The allele was found in 1 patient with the E60X mutation on the other chromosome. Login to comment

[hide] Activation of ion secretion via proteinase-activat... Am J Physiol Gastrointest Liver Physiol. 2002 Feb;282(2):G200-10. Mall M, Gonska T, Thomas J, Hirtz S, Schreiber R, Kunzelmann K
Activation of ion secretion via proteinase-activated receptor-2 in human colon.
Am J Physiol Gastrointest Liver Physiol. 2002 Feb;282(2):G200-10., [PMID:11804840]

Abstract [show]
Proteinase-activated receptor (PAR) type 2 (PAR-2) has been shown to mediate ion secretion in cultured epithelial cells and rat jejunum. With the use of a microUssing chamber, we demonstrate the role of PAR-2 for ion transport in native human colonic mucosa obtained from 30 normal individuals and 11 cystic fibrosis (CF) patients. Trypsin induced Cl(-) secretion when added to the basolateral but not luminal side of normal epithelia. Activation of Cl(-) secretion by trypsin was inhibited by indomethacin and was further increased by cAMP in normal tissues but was not present in CF colon, indicating the requirement of luminal CF transmembrane conductance regulator. Effects of trypsin were largely reduced by low Cl(-), by basolateral bumetanide, and in the presence of barium or clotrimazole, but not by tetrodotoxin. Furthermore, trypsin-induced secretion was inhibited by the Ca(2+)-ATPase inhibitor cyclopiazonic acid and in low-Ca(2+) buffer. The effects of trypsin were almost abolished by trypsin inhibitor. Thrombin, an activator of PAR types 1, 3, and 4, had no effects on equivalent short-circuit currents. The presence of PAR-2 in human colon epithelium was confirmed by RT-PCR and additional experiments with PAR-2-activating peptide. PAR-2-mediated intestinal electrolyte secretion by release of mast cell tryptase and potentiation of PAR-2 expression by tumor necrosis factor-alpha may contribute to the hypersecretion observed in inflammatory processes such as chronic inflammatory bowel disease.

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50 Testing of an additional panel of the 19 most prevalent CFTR mutations among the Caucasian population in Europe, including G542X, N1303K, 1717-1 GϾT, W1282X, G551D, R553X, R1162X, R334W, R117H, 621ϩ1GϾT, 3849ϩ10kbCϾT, 3659delC, 1078delT, R347P, A445E, S1251N, ⌬I507, 2183AAϾG, and E60X (ELUCIGENE CF20; AstraZeneca Diagnostics) failed to identify the second disease causing mutation in six CF patients. 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
111 Slovakia ∆F508 (57.3%) CFTRdele2,3 (1.2%) 82.7 68.4 14 908/254 CFGAC [1994]; Estivill et al. G542X (6.8%) 3849+10KbC→T (1.0%) [1997]; Dörk et al. [2000]; R553X (4.0%) S42F (0.9%) Macek et al. [2002] N1303K (3.4%) R75X (0.9%) 2143delT (1.8%) G85E (0.9%) R347P (1.4%) 605insT (0.9%) W1282X (1.3%) 1898+1G→A (0.9%) Slovenia ∆F508 (57.8%) R347P (1.1%) 79.7 63.5 16 455/132 CFGAC [1994]; Dörk et al. 2789+5G→A (4.1%) S4X (0.8%) [2000]; Macek et al. [2002] R1162X (3.2%) 457TAT→G (0.8%) G542X (1.9%) D192G (0.8%) Q552X (1.5%) R553X (0.8%) Q685X (1.5%) A559T (0.8%) 3905insT (1.5%) 2907delTT (0.8%) CFTRdele2,3 (1.5%) 3667ins4 (0.8%) Spain ∆F508 (52.7%) G85E (0.8%) 80.2 64.3 21 3608/1356 Chillón et al. [1994]; Casals et G542X (8.0%) R1066C (0.8%) al. [1997]; Estivill et al. [1997] N1303K (2.5%) 2789+5G→A (0.7%) 3601-111G→C (2.0%) 2869insG (0.7%) 1811+1.6Kb A→G (1.7%) ∆I507 (0.6%) R1162X (1.6%) W1282X (0.6%) 711+1G→T (1.3%) L206W (0.5%) R334W (1.2%) R709X (0.5%) Q890X (1.0%) K710X (0.5%) 1609delCA (1.0%) 3272-26A→G (0.5%) 712-1G→T (1.0%) Sweden ∆F508 (66.6%) E60X (0.6%) 85.9 73.8 10 1357/662 Schwartz et al. [1994]; Estivill et 394delTT (7.3%) Y109C (0.6%) al. [1997]; Schaedel et al. 3659delC (5.4%) R117H (0.6%) [1999] 175insT (2.4%) R117C (0.6%) T338I (1.2%) G542X (0.6%) Switzerland ∆F508 (57.2%) K1200E (2.1%) 91.3 83.4 9 1268/1173 Estivill et al. [1997]; R553X (14.0%) N1303K (1.2%) Hergersberg et al. [1997] 3905insT (9.8%) W1282X (1.1%) 1717-1G→A (2.7%) R347P (0.6%) G542X (2.6%) Ukraine ∆F508 (65.2%) CFTRdele2,3 (1.1%) 74.6 55.7 6 1055/580 Estivill et al. [1997]; Dörk et al. R553X (3.6%) G551D (1.8%) [2000]; Macek et al. [2002] N1303K (2.4%) W1282X (0.5%) United ∆F508 (75.3%) 621+1G→T (0.93%) 81.6 66.6 5 19622/9815 Schwartz et al. [1995b]; Kingdom G551D (3.1%) 1717-1G→A (0.57%) Estivill et al. [1997] (total) G542X (1.7%) TABLE 1. Continued. Estimated Projected detection of Number of Number of Country/ allele two CFTR mutations chromosomes Region Mutation array detectiona mutationsb includedc (max/min)d Reference WORLDWIDEANALYSISOFCFTRMUTATIONS585 United ∆F508 (56.6%) 621+1G→T (1.8%) 69.1 47.7 7 456 CFGAC [1994] Kingdom G551D (3.7%) R117H (1.5%) (N. Ireland) R560T (2.6%) ∆I507 (0.9%) G542X (2.0%) United ∆F508 (19.2%) 621+2T→C (3.8%) 84.4 71.2 11 52 Malone et al. [1998] Kingdom Y569D (15.4%) 2184insA (3.8%) (Pakistani) Q98X (11.5%) R560S (1.9%) 1525-1G→A (9.6%) 1898+1G→T (1.9%) 296+12T→C (7.7%) R709X (1.9%) 1161delC (7.7%) United ∆F508 (71.3%) 1717-1G→A (1.0%) 86.4 74.6 9 1236/730 Shrimpton et al. [1991]; Kingdom G551D (5.5%) 621+1G→T (0.6%) Gilfillan et al. [1998] (Scotland) G542X (4.0%) ∆I507 (0.6%) R117H (1.4%) R560T (0.6%) P67L (1.4%) United ∆F508 (71.6%) 1717-1G→A (1.1%) 98.7 97.4 17 183 Cheadle et al. [1993] Kingdom 621+1G→T (6.6%) 3659delC (0.5%) (Wales) 1898+1G→A (5.5%) R117H (0.5%) G542X (2.2%) N1303K (0.5%) G551D (2.2%) E60X (0.5%) 1078delT (2.2%) S549N (0.5%) R1283M (1.6%) 3849+10KbC→T (0.5%) R553X (1.1%) 4016insT (0.5%) ∆I507 (1.1%) Yugoslavia ∆F508 (68.9%) 3849G→A (1.0%) 82.2 67.6 11 709/398 Dabovic et al. [1992]; Estivill et G542X (4.0%) N1303K (0.8%) al. [1997]; Macek et al. R1162C (3.0%) 525delT (0.5%) (submitted for publication) 457TAT→G (1.0%) 621+1G→T (0.5%) I148T (1.0%) G551D (0.5%) Q552X (1.0%) Middle East/Africa Algeria 1) DF508 (20.0%) 4) 1812-1G®A (5.0%) - - 5 20 Loumi et al. [1999] 2) N1303K (20.0%) 5) V754M (5.0%) 3) 711+1G®T (10.0%) Jewish W1282X (48.0%) 3849+10KbC→T (6.0%) 95.0 90.3 6 261 Kerem et al. [1995] (Ashkenazi) ∆F508 (28.0%) N1303K (3.0%) G542X (9.0%) 1717-1G→A (1.0%) Jewish 1) N1303K - - 1 6 Kerem et al. [1995] (Egypt) Jewish 1) Q359K/T360K - - 1 8 Kerem et al. [1995] (Georgia) Jewish 1) DF508 2) 405+1G®A - - 2 11 Kerem et al. [1995] (Libya) Jewish 1) DF508 (72.0%) 3) D1152H (6.0%) - - 3 33 Kerem et al. [1995] (Morocco) 2) S549R (6.0%) Jewish ∆F508 (35.0%) W1282X (2.0%) 43.0 18.5 4 51 Shoshani et al. [1992] (Sepharadim) G542X (4.0%) S549I (2.0%) (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] Spatial and temporal distribution of cystic fibros... Hum Genet. 2002 Sep;111(3):247-54. Epub 2002 Aug 1. Scotet V, Gillet D, Dugueperoux I, Audrezet MP, Bellis G, Garnier B, Roussey M, Rault G, Parent P, De Braekeleer M, Ferec C
Spatial and temporal distribution of cystic fibrosis and of its mutations in Brittany, France: a retrospective study from 1960.
Hum Genet. 2002 Sep;111(3):247-54. Epub 2002 Aug 1., [PMID:12215837]

Abstract [show]
Cystic fibrosis (CF) is the most common severe inherited disorder that affects children in Caucasian populations. The aim of this study was to define the spatial and temporal distribution of CF and its mutations in Brittany (western France) where the frequency of the disease is high. We retrospectively registered all CF patients born in Brittany since 1960 by cross-checking various data sources (e.g. medical care centres, genetics laboratories, hospital archives). Councils were contacted so that the place of residence of patients at birth could be determined. Moreover, the spectrum of CF transmembrane conductance regulator (CFTR) mutations and their spatial distribution across Brittany were determined. A total of 520 patients was registered in this study. The incidence of CF was assessed according to administrative (department, district) and diocesan divisions of Brittany and its evolution analysed over four decades. The incidence of CF was 1/2630, with a west/east gradient that was confirmed over time (Finistere: 1/2071 vs Ille-et-Vilaine: 1/3286). At present, the incidence of CF is decreasing, mainly as a result of prenatal diagnosis. An excellent mutation detection rate of 99.7% was obtained. Western Brittany presented a specific spectrum of mutations: 1078delT (9.4% of mutated alleles in the diocese of Cornouaille), G551D (7.7% in the diocese of Leon), 4005+1G-->A (2.9% in Cornouaille) and W846X (1.5% in western Brittany). On the other hand, the eastern region showed a spectrum more similar to the overall picture in France as a whole. This study enabled a precise measurement of the incidence of CF in Brittany to be obtained. The high frequency of the CFTR mutated alleles may result from founder effects and genetic drifts. Moreover, the study brings together the regional specificities of the CFTR gene and highlights disparities that exist in this part of France, both in incidence and in mutation distribution. These are attributable to different degrees of isolation and of population movements between the eastern and western parts of the region. Given that this is the first time that such a detailed study of the CFTR gene has been performed on a large population, this heightened knowledge of the epidemiology of CF in Brittany should provide a basis for the improvement of diagnostic strategies and refinement of genetic counselling.

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118 His genotype was ∆F508/∆F508 Mutation Exon Basse-Bretagne Haute-Bretagne Brittanya ∆F508 10 446 75.6% 224 73.7% 672 75.0% 1078delT 7 31 5.3% 3 1.0% 34 3.8% G551D 11 21 3.6% 12 3.9% 33 3.7% N1303K 21 3 0.5% 9 3.0% 12 1.3% W846X 14a 9 1.5% 1 0.3% 10 1.1% 2789+5G→A 14b 3 0.5% 6 2.0% 9 1.0% 1717-1G→A 11 5 0.8% 3 1.0% 8 0.9% Y1092X 17b 1 0.2% 6 2.0% 7 0.8% 4005+1G→A 20 6 1.0% 1 0.3% 7 0.8% E60X 3 3 0.5% 3 1.0% 6 0.7% 621+1G→T 4 3 0.5% 3 1.0% 6 0.7% R347H 7 6 1.0% 0 0.0% 6 0.7% S492F 10 2 0.3% 3 1.0% 5 0.6% G542X 11 4 0.7% 1 0.3% 5 0.6% 3272-26A→G 17b 2 0.3% 3 1.0% 5 0.6% R117H 4 3 0.5% 1 0.3% 4 0.4% G91R 3 3 0.5% 0 0.0% 3 0.3% ∆I507 10 1 0.2% 2 0.7% 3 0.3% R553X 11 3 0.5% 0 0.0% 3 0.3% W1282X 20 2 0.3% 1 0.3% 3 0.3% A72D 3 0 0.0% 2 0.7% 2 0.2% G85E 3 0 0.0% 2 0.7% 2 0.2% F311L 7 0 0.0% 2 0.7% 2 0.2% 1221delCT 7 2 0.3% 0 0.0% 2 0.2% R560K 11 0 0.0% 2 0.7% 2 0.2% 2622+1G→A 13 2 0.3% 0 0.0% 2 0.2% S945L 15 0 0.0% 2 0.7% 2 0.2% I1234V 19 2 0.3% 0 0.0% 2 0.2% G1249R 20 2 0.3% 0 0.0% 2 0.2% 3905insT 20 2 0.3% 0 0.0% 2 0.2% Unidentified - 3 0.5% 0 0.0% 3 0.3% Total - 590 65.7% 304 34.3% 896 100% IVS17bTA, IVS17bCA) of Irish, Scottish, English, Breton and Czech subjects who were carriers of this mutation, and showed that all these alleles carried a unique haplotype (16-7-17), testifying to the Celtic origin of this mutation (Cashman et al. 1995). Login to comment

[hide] Demographics of the UK cystic fibrosis population:... Eur J Hum Genet. 2002 Oct;10(10):583-90. McCormick J, Green MW, Mehta G, Culross F, Mehta A
Demographics of the UK cystic fibrosis population: implications for neonatal screening.
Eur J Hum Genet. 2002 Oct;10(10):583-90., [PMID:12357328]

Abstract [show]
The objective was to determine the composition of the Cystic Fibrosis (CF) Population attending specialist UK CF centres in terms of age, gender, age at diagnosis, genotype and ethnicity. With the planned introduction of the national CF screening programme in the UK, cystic fibrosis transmembrane regulator (CFTR) mutations were compared between different ethnic groups enabling a UK-specific frequency of mutations to be defined. Data were analysed from the patient biographies held in the UK CF Database (see www.cystic-fibrosis.org.uk). The currently registered population of 5,274 CF patients is 96.3% Caucasian with a male preponderance that significantly increases with age. The majority of the 196 non-Caucasian CF patients are from the Indian Subcontinent (ISC), of which one in 84 UK CF patients are of Pakistani origin. The commonest CFTR mutation, deltaF508, is found in 74.1% of all CF chromosomes. In the Caucasian CF population, 57.5% are deltaF508 homozygotes but the UK ISC CF population with only 24.7%, has significantly fewer deltaF508 homozygotes patients (95% confidence interval (CI) 0.2-0.4). The distribution of Caucasian patients with deltaF508/deltaF508, deltaF508/Other and Other/Other does not fit the expected distribution with a Hardy-Weinberg model unless those patients without a detected mutation are excluded (P<0.001). The UK CF Database has shown the UK CF population to have distinct characteristics separate from the North American and European CF Registries. The ISC group contains many mutations not recognised by current genetic analysis, and one in four ISC patients have no CFTR mutations identified. The CFTR analysis proposed for the screening programme would detect 96% of patients registered in the database, but is unlikely to achieve the desired >80% detection rates in the ethnic minority groups. Screen-positive, non-Caucasian infants without an identifiable CFTR mutation should be referred for a sweat test and genetic counselling when serum trypsinogen concentrations remain elevated after birth.

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84 The following seven mutations appear in Table 4 but not in the 31 mutation panel; 1154insTC, E60X, P67L, Y569D, L218X, 1161delC and R709X. Login to comment
85 Table 4 The commonest CFTR mutations in the UK Genotypes UK CF population Genotyped UK Caucasian CF Genotyped UK CF ISC (n=9866 chromosomes) population (n=9506 chromosomes) population (n=156 chromosomes) CFTR mutation gene frequency per 1000 genes gene frequency per 1000 genes gene frequency per 1000 genes DF508 741.0 752.0 294.9 G551D 33.7 34.3 12.8 G542X 18.5 18.4 25.6 R117H 12.5 12.7 0.0 621+1G?T 12.7 12.7 6.4 1717-1G?A 5.8 5.8 0.0 1898+1G?A 5.7 5.9 0.0 N1303K 5.6 5.4 0.0 DI507 4.8 5.0 0.0 R560T 4.2 4.3 0.0 R553X 3.3 3.4 0.0 1154insTC 3.2 3.3 0.0 Q493X 2.8 2.9 0.0 3659delC 2.8 2.9 0.0 E60X 2.4 2.4 0.0 W1282X 2.7 2.7 0.0 P67L 2.1 2.1 0.0 G85E 2.1 2.0 0.0 V520F 1.6 1.7 0.0 1078delT 1.3 1.4 0.0 Y569D 1.5 0.0 96.2 L218X 0.6 0.0 38.5 1161delC 0.7 0.1 38.5 R1162X 0.9 0.6 19.2 R709X 0.4 0.2 12.8 3849+10kbC?T 1.2 0.8 19.2 S549R* 0.6 0.0 0.0 *S549R mutations appear in the non-Caucasian but not the ISC subgroup. Login to comment

[hide] Survey of CF mutations in the clinical laboratory. BMC Clin Pathol. 2002 Nov 19;2(1):4. Huber K, Mirkovic B, Nersesian R, Myers A, Saiki R, Bauer K
Survey of CF mutations in the clinical laboratory.
BMC Clin Pathol. 2002 Nov 19;2(1):4., 2002-11-19 [PMID:12437773]

Abstract [show]
BACKGROUND: Since it is impossible to sequence the complete CFTR gene routinely, clinical laboratories must rely on test systems that screen for a panel of the most frequent mutations causing disease in a high percentage of patients. Thus, in a cohort of 257 persons that were referred to our laboratory for analysis of CF gene mutations, reverse line probe assays for the most common CF mutations were performed. These techniques were evaluated as routine first-line analyses of the CFTR gene status. METHODS: DNA from whole blood specimens was extracted and subjected to PCR amplification of 9 exons and 6 introns of the CFTR gene. The resulting amplicons were hybridised to probes for CF mutations and polymorphisms, immobilised on membranes supplied by Roche Molecular Systems, Inc. and Innogenetics, Inc. Denaturing gradient gel electrophoresis and sequencing of suspicious fragments indicating mutations were done with CF exon and intron specific primers. RESULTS: Of the 257 persons tested over the last three years (referrals based on 1) clinical symptoms typical for/indicative of CF, 2) indication for in vitro fertilisation, and 3) gene status determination because of anticipated parenthood and partners or relatives affected by CF), the reverse line blots detected heterozygote or homozygote mutations in the CFTR gene in 68 persons (26%). Eighty-three percent of those affected were heterozygous (47 persons) or homozygous (10 persons) for the DeltaF508 allele. The only other CF-alleles that we found with these tests were the G542X allele (3 persons), the G551D allele (3 persons), the 3849+10kb C-T allele (2 persons) the R117H allele (2 persons) and the 621+1G-T allele (1 person).Of the fifteen IVS8-5T-polymorphisms detected in intron 8, seven (47%) were found in males referred to us from IVF clinics. These seven 5T-alleles were all coupled with a heterozygous DeltaF508 allele, they make up 35% of the males with fertility problems (20 men) referred to us. CONCLUSIONS: In summary, the frequency of CF chromosomes in the cohort examined with these tests was 26%, with the DeltaF508 allele affecting 83% of the CF chromosomes. It is a substantial improvement for routine CF diagnostics to have available a test system for 30 mutations plus the polypyrimidine length variants in intron 8. Our results show that this test system allows a routine first-line analyses of the CFTR gene status.

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36 F508C, I507V, I506V polymorphism exon 11 1717-1G → A, G542X, S549N, G551D, R553X, R560T exon 20 W1282X exon 21 N1303K intron 19 3849+10kb C → T Innogenetics assay: exon 3 394delTT, G85E, E60X exon/intron 4 621+1G-T, R117H exon 7 1078delT, R347P, R334W exon 13 2143delT, 2183AA-G, 2184delA exon 19 R1162X, 3659delC intron 5 711+5G-A intron8/exon 9 A455E,, 5T,7T,9T intron 14b 2789+5G-A intron 19 3849+10kb C-T Table 2: Genotypes of patients with mutations, final results Group 1) (patients with symptoms typical for/indicative of CF) No. Login to comment

[hide] [National program for neonatal screening for cysti... J Gynecol Obstet Biol Reprod (Paris). 2003 Feb;32(1 Suppl):1S56-60. Navarro J, Grosskopf C, Vidailhet M, Briard ML, Farriaux JP
[National program for neonatal screening for cystic fibrosis: implementation and preliminary results].
J Gynecol Obstet Biol Reprod (Paris). 2003 Feb;32(1 Suppl):1S56-60., [PMID:12592165]

Abstract [show]
Neonatal screening for cystic fibrosis was decided by the national medical authorities after a common investigation conducted by the French association ADPHE and national health insurance fund. Based on therapeutic progress and the proposed method using determination of blood immunoreactive trypsin then study of the main CF mutations, there is strong hope of effective CF detection and clinical benefit for the patients.

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46 3 Les mutations étudiées sont : 1717-1G > A - G542X - W 1282 X - N 1303 K - DF 508 (M) - 3849 + 10kbC > T - 621+1 G > T - R553X - G 551D, R117H, R1162X - R 334W - A455E - 2183 AA > G - 3659delC-- 1078 delT - D1507 - R347P - S 1251N, E60X, 2789+5G > A - 394del T - G 85 E - 1811+1.6 - Y122X - 711+1G > T - W 846 X - Y 1092 - 3272-26A > G. Login to comment

[hide] Cystic fibrosis mutation frequencies in an Irish p... Clin Genet. 2003 Feb;63(2):121-5. Devaney J, Glennon M, Farrell G, Ruttledge M, Smith T, Houghton JA, Maher M
Cystic fibrosis mutation frequencies in an Irish population.
Clin Genet. 2003 Feb;63(2):121-5., [PMID:12630958]

Abstract [show]
The incidence of cystic fibrosis (CF) at birth in Ireland is 1/1461. Neonate CF genetic testing is not routinely performed in Ireland. Currently, screening is only carried out where there is clinical evidence or a family history to suggest disease. Here we report the frequencies of common CF mutations occurring in an Irish population composed of samples collected from western, mid-western and southern regions of Ireland. Rarer CF mutations were also identified in a selected number of CF patients. In addition, a number of polymorphisms were identified, some of which are reported to be functionally and phenotypically important.

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67 Frequency of rarer CF mutations and polymorphisms Mutation Numberof chromosomes Frequency (%) Polymorphism Frequency (%) E60X 1 0.24 IVS6a-8 25.0 P67L 1 0.24 (TG)m 37.5 G85E 1 0.24 IVS8-Tn 23.8 6211G >T 1 0.24 M470V 41.3 IVS8^5T 5 1.21 V520F 2 0.48 18981G >A 2 0.48 R117H 1 ^ DF508 17 ^ Total 80 15 Frequencypercentages areadjustedtorepresent 85%. Login to comment
78 There are no reports of the E60X, P67L, G85E, IVS8-5T, V520F or 1898 1G> A mutations in previously published CF mutation frequency reports for the Republic of Ireland (11, 12). Login to comment
79 The E60X mutation has been reported in Northern Ireland (0.7%), with no V520F or P67L alleles being detected (13). Login to comment
81 In UK reports (15), the incidence of the E60X mutation is reported at 0.16%, G85E at 0.21%, 621 1G> T and V520F at 0.17% and 1898 1G> A at 0.46%. Login to comment

[hide] Clinical characteristics and genotype analysis of ... Clin Otolaryngol Allied Sci. 2003 Apr;28(2):125-32. Cimmino M, Cavaliere M, Nardone M, Plantulli A, Orefice A, Esposito V, Raia V
Clinical characteristics and genotype analysis of patients with cystic fibrosis and nasal polyposis.
Clin Otolaryngol Allied Sci. 2003 Apr;28(2):125-32., [PMID:12680831]

Abstract [show]
The prevalence of nasal polyps in a group of paediatric patients with cystic fibrosis was prospectively studied in comparison with a control group with cystic fibrosis but without polyps. Clinical variables, including pulmonary function tests, skin testing and mucociliary transport, were carried out in both groups, as well as genotype analysis. Endoscopic intranasal evaluation identified polyps in 29 of 89 patients (33%). Statistical analysis revealed that patients with nasal polyposis had better pulmonary function, a higher rate of Pseudomonas aeruginosa colonization, more hospitalizations, and more prevalence of allergy to Aspergillus fumigatus than did the comparison group. We found no statistically different genotype distribution between the polyposis and the control group. However, it can be emphasized that the prevalence of the compound heterozygous genotype is higher in the nasal polyposis group than in controls. Our observations suggest that other genetic and environmental factors could play an important role in the development of nasal polyposis.

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47 Analysis of mutations in the CFTR gene as tested by the multiplex polymerase chain reaction (PCR), followed by the reverse dot-blot technique, which searches for 29 of the most frequent mutations (DF508, N1303K, G542X, W1282X, 1717±1 G-A, R553X, 2183 AA-G, DI507, G551D, R560T, 3849 10kbC > T, R1162X, 3659delC, 3905insT, G85E, 621 1GT, R117H, R347P, R334W, A455E, 2789 5GA, Q552X, S1251N, 3905insT, 394delTT, E60X, 2143delT, 2184delA, 711 5G > A), and by ASO dot-blot for the following mutations: I148T, R1158X, 4016 1T, G1244E G >A.26 Statistical analysis was performed using multivariate analysis, by forward stepwise comparison; it was done to ®nd out which of the examined characteristics could be associated (P < 0.01) to nasal polyposis. Login to comment

[hide] Comparison of the CFTR mutation spectrum in three ... Hum Mutat. 2003 Jul;22(1):105. Scotet V, Barton DE, Watson JB, Audrezet MP, McDevitt T, McQuaid S, Shortt C, De Braekeleer M, Ferec C, Le Marechal C
Comparison of the CFTR mutation spectrum in three cohorts of patients of Celtic origin from Brittany (France) and Ireland.
Hum Mutat. 2003 Jul;22(1):105., [PMID:12815607]

Abstract [show]
This study aims to compare the spectrum of the mutations identified in the gene responsible for cystic fibrosis in three cohorts of patients of Celtic origin from Brittany and Ireland. It included 389 patients from Brittany, 631 from Dublin and 139 from Cork. The CFTR gene analysis relied on the detection of the most common mutations, followed by a complete gene scanning using DGGE or D-HPLC. High mutation detection rates were obtained in each cohort: 99.6%, 96.8%, and 96.0% respectively. A high frequency of the c.1652_1655 del3 mutation (F508del: 74.8% to 81.3%) and of the "Celtic" mutation (c.1784G>A (G551D): 3.7% to 9.7%) was observed in each population. Apart from this, the mutation spectrums differed. In Brittany, the most common abnormalities were: c.1078delT (3.6%), c.4041C>G (N1303K: 1.4%), c.2670G>A (W846X(2): 1.0%) and c.1717-1G>A (1.0%), whereas in the cohort of Dublin, the main mutations were: c.482G>A (R117H: 3.0%), c.1811G>C (R560T: 2.4%) and c.621+1G>T (1.7%). Finally, in the Cork area, only the c.482G>A mutation (R117H) reached a frequency of 1%. Two previously-unreported mutations were identified in the Dublin cohort: c.2623-2A>G and c.3446T>G (M1105R). This collaborative study highlights the similarities of the CFTR alleles in the Breton and Irish populations, but also the disparities that exist between these populations, despite their common origin. Each population has its own history, with its mixture of founder effects and genetic drifts, which are at the origin of the current mutation distribution. The molecular study of the CFTR gene provides new tools for retracing European populations' histories.

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64 Spectrum of the CFTR Mutations Identified in the Cohorts from Brittany, Dublin Centre, and Cork Area Nucleotide Amino acid change * change Exon Number Frequency Number Frequency Number Frequency 211delG 2 1 0.1% 310G>T E60X 3 5 0.6% 4 0.3% 347C>A A72D 3 1 0.1% 368G>A W79X 3 1 0.1% 386G>A G85E 3 2 0.3% 3 0.2% 403G>A G91R 3 2 0.3% 482G>A R117H 4 4 0.5% 38 3.0% 4 1.4% 498T>A Y122X 4 1 0.1% 574delA 4 1 0.1% 577G>A G149R 4 1 0.1% 621+1G>T int 4 5 0.6% 21 1.7% 790C>T Q220X 6a 1 0.1% 875+1G>C int 6a 1 0.4% 905delG 6b 1 0.1% 1065C>G F311L 7 2 0.3% 1078delT 7 28 3.6% 1132C>T R334W 7 1 0.1% 1172G>A R347H 7 5 0.6% 1172G>T R347L 7 1 0.1% 1172G>C R347P 7 1 0.1% 1187G>A R352Q 7 3 0.2% 2 0.7% 1208A>G Q359R 7 1 0.1% 1154insTC 7 2 0.2% 1221delCT 7 2 0.3% 1248+1G>A int 7 1 0.1% 1249-27delTA int 7 1 0.4% 1334G>A W401X 8 1 0.1% 1461ins4 9 5 0.4% 1471delA 9 2 0.2% 1607C>T S492F 10 2 0.3% 1609C>T Q493X 10 1 0.1% 1648_1653delATC I507del 10 3 0.4% 10 0.8% 1 0.4% 1652_1655del 3 bp F508del 10 582 74.8% 966 76.5% 226 81.3% 1690G>T V520F 10 4 0.3% 1717-1G>A int 10 8 1.0% 9 0.7% 1756G>T G542X 11 5 0.6% 8 0.6% 1779T>G S549R 11 1 0.1% 1784G>A G551D 11 29 3.7% 82 6.5% 27 9.7% 1789C>G R553G 11 1 0.1% 1789C>T R553X 11 3 0.4% 1 0.1% 1806delA 11 1 0.1% 1811G>A R560K 11 2 0.3% 1811G>C R560T 11 30 2.4% 2 0.7% 1819T>A Y563N 12 1 0.1% 1853C>A P574H 12 1 0.1% 1898+1G>A int 12 1 0.1% 2184delA 13 1 0.1% 1 0.1% 2184insA 13 1 0.1% 2622+1G>A int 13 1 0.1% 2 0.2% 2622+1G>T int 13 1 0.1% 2623-2A>G ** int 13 1 0.1% 2670G>A W846X2 14a 8 1.0% 2752-1G>T int 14a 1 0.1% 2752-26A>G int 14a 2 0.2% 2789+5G>A int 14b 6 0.8% 2966C>T S945L 15 2 0.3% 3007delG 15 4 0.3% 3040G>C G970R 15 1 0.1% 3062C>T S977F 16 1 0.1% 3120+1G>A int 16 1 0.1% 3272-26A>G int 17a 4 0.5% 2 0.2% 2 0.7% 3320dupli(CTATG) 17b 1 0.1% 3329G>A R1066H 17b 1 0.1% 3340C>T R1070W 17b 1 0.1% 3408C>A Y1092X 17b 7 0.9% 3442G>T E1104X 17b 1 0.1% 3446T>G ** M1105R 17b 1 0.1% 3586G>C D1152H 18 1 0.1% 3601-17T>C + 1367delC int 18 + 9 1 0.1% 3616C>T R1162X 19 1 0.1% 2 0.2% 3659delC 19 2 0.2% 3832A>G I1234V 19 2 0.3% 3849+4A>G int 19 1 0.1% 3849+10kbC>T int 19 3 0.2% 3877G>A G1249R 20 1 0.1% 3884G>A S1251N 20 1 0.1% 3898insC 20 1 0.1% 3905insT 20 2 0.3% 3978G>A W1282X 20 3 0.4% 4005+1G>A int 20 6 0.8% 4016insT 21 1 0.1% 4041C>G N1303K 21 11 1.4% 5 0.4% 4136T>C L1335P 22 1 0.1% 1 0.4% 4279insA 23 1 0.1% Unidentified Unidentified - 3 0.4% 41 3.2% 11 4.0% Total 778 100.0% 1262 100.0% 278 100.0% * All nucleotide changes correspond to cDNA numbering. Login to comment
76 Number Frequency Number Frequency 1652_1655del 3 bp F508del 384 75.6% 196 73.1% 582 74.8% 1784G>A G551D 17 3.3% 12 4.5% 29 3.7% 1078delT 25 4.9% 3 1.1% 28 3.6% 4041C>G N1303K 3 0.6% 8 3.0% 11 1.4% 2670G>A W846X2 7 1.4% 1 0.4% 8 1.0% 1717-1G>A 5 1.0% 3 1.1% 8 1.0% 3408C>A Y1092X 1 0.2% 6 2.2% 7 0.9% 2789+5G>A 2 0.4% 4 1.5% 6 0.8% 4005+1G>A 5 1.0% 1 0.4% 6 0.8% 310G>T E60X 3 0.6% 2 0.7% 5 0.6% 621+1G>T 2 0.4% 3 1.1% 5 0.6% 1172G>A R347H 5 1.0% 5 0.6% 1756G>T G542X 4 0.8% 1 0.4% 5 0.6% 482G>A R117H 3 0.6% 1 0.4% 4 0.5% 3272-26A>G 2 0.4% 2 0.7% 4 0.5% 1648_1653delATC I507del 1 0.2% 2 0.7% 3 0.4% 1789C>T R553X 3 0.6% 3 0.4% 3978G>A W1282X 2 0.4% 1 0.4% 3 0.4% Unidentified Unidentified 3 0.6% 3 0.4% Total Total 508 100.0% 268 100.0% 778 100.0% Basse-Bretagne Haute-Bretagne Brittany * Amino acid change Nucleotide change Table 3: Distribution of the Main CFTR Nutations Observed in the Irish Cohorts (Dublin and Cork) The 62 mutations detected in Brittany combined to give 81 different genotypes in CF patients. Login to comment
98 Number Frequency Number Frequency 1652_1655del 3 bp F508del 966 76.5% 226 81.3% 1192 77.4% 1784G>A G551D 82 6.5% 27 9.7% 109 7.1% 482G>A R117H 38 3.0% 4 1.4% 42 2.7% 1811G>C R560T 30 2.4% 2 0.7% 32 2.1% 621+1G>T 21 1.7% 21 1.4% 1648_1653delATC I507del 10 0.8% 1 0.4% 11 0.7% 1717-1G>A 9 0.7% 9 0.6% 1756G>T G542X 8 0.6% 8 0.5% 1187G>A R352Q 3 0.2% 2 0.7% 5 0.3% 1461ins4 5 0.4% 5 0.3% 4041C>G N1303K 5 0.4% 5 0.3% 310G>T E60X 4 0.3% 4 0.3% 1690G>T V520F 4 0.3% 4 0.3% 3007delG 4 0.3% 4 0.3% 3272-26A>G 2 0.2% 2 0.7% 4 0.3% 386G>A G85E 3 0.2% 3 0.2% 3849+10kbC>T 3 0.2% 3 0.2% Unidentified Unidentified 41 3.2% 11 4.0% 52 3.4% Total Total 1262 100.0% 278 100.0% 1540 100.0% Dublin cohort Cork cohort Ireland Amino acid change Nucleotide change We noted similar high frequencies of the F508del and G551D mutations in the three cohorts studied. Login to comment

[hide] Molecular consequences of cystic fibrosis transmem... Gut. 2003 Aug;52(8):1159-64. Ahmed N, Corey M, Forstner G, Zielenski J, Tsui LC, Ellis L, Tullis E, Durie P
Molecular consequences of cystic fibrosis transmembrane regulator (CFTR) gene mutations in the exocrine pancreas.
Gut. 2003 Aug;52(8):1159-64., [PMID:12865275]

Abstract [show]
BACKGROUND AND AIMS: We tested the hypothesis that the actual or predicted consequences of mutations in the cystic fibrosis transmembrane regulator gene correlate with the pancreatic phenotype and with measures of quantitative exocrine pancreatic function. METHODS: We assessed 742 patients with cystic fibrosis for whom genotype and clinical data were available. At diagnosis, 610 were pancreatic insufficient, 110 were pancreatic sufficient, and 22 pancreatic sufficient patients progressed to pancreatic insufficiency after diagnosis. RESULTS: We identified mutations on both alleles in 633 patients (85.3%), on one allele in 95 (12.8%), and on neither allele in 14 (1.9%). Seventy six different mutations were identified. The most common mutation was DeltaF508 (71.3%) followed by G551D (2.9%), G542X (2.3%), 621+1G-->T (1.2%), and W1282X (1.2%). Patients were categorized into five classes according to the predicted functional consequences of each mutation. Over 95% of patients with severe class I, II, and III mutations were pancreatic insufficient or progressed to pancreatic insufficiency. In contrast, patients with mild class IV and V mutations were consistently pancreatic sufficient. In all but four cases each genotype correlated exclusively with the pancreatic phenotype. Quantitative data of acinar and ductular secretion were available in 93 patients. Patients with mutations belonging to classes I, II, and III had greatly reduced acinar and ductular function compared with those with class IV or V mutations. CONCLUSION: The predicted or known functional consequences of specific mutant alleles correlate with the severity of pancreatic disease in cystic fibrosis.

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309 Table 2 Genotype classification according to the functional consequences of CFTR gene mutations Pancreatic status Class I Class II Class III Class IV Class V PS F1 , 875+1G→C(2) F, F (1) F, G551D (1) F, R117H (11) F,3849+10kbC→T (5) F, G85E2 (1) F, R347H (3) F,3272-26A→G (4) F, S1251N (2) F,A445E (3) F, D614G (1) F,P574H (2) F, R347P (1) F,3120G>A (1) R117H,R117H (1) F, 5T (8) F, L1335P (1) F,2789+5G→A (1) F,P67L (1) F,R347P/R347H (1) F,V232D(2) R334W, R334W(1) PS→PI F,3659delC (1) F,F (15) F,G551D (1) F, I1234V (1) F,2184insA (1) F,R560T (1) PI F, G542X (27) F,F (365) F, G551D (28) F, 621+1G→T (13) F, R560T (7) F,R553X (7) F, N1303K (9) F, R1162X (6) F,L1077P (2) F, 3659delC (5) F, I48T (1) F, 1717-1G→A (5) F,A559T (1) F, W1282X (5) F, G85E2 (2) F, 711+1G→T (5) G551D,G551D(1) F,2184delA(4) F,H199R (1) W1282X,W1282X (4) F,I1072T(1) F,Y1092X (3) F,S549 (R75Q) (1) F,556delA (3) F, Q493X (3) F,4016InsT (3) F, 3120+1G→A (2) F, G551D/R553X (2) F,Q814X(2) F,1154insTC (2) F,441delA (1) F, 4326delTC (1) F,Q552X(1) F,3007delG (1) F,2184insA (1) F, 4010del4 (1) F,3905insT (1) F,1078delT(1) F,E1104X (1) F,3876delA (1) F,4374+1G→T (1) F,E585X (1) F, E60X (1) CFTR, cystic fibrosis transmembrane regulator; PI, pancreatic insufficiency; PS, pancreatic sufficiency. Login to comment

[hide] Mutations of the CFTR gene in pancreatic disease. Pancreas. 2003 Nov;27(4):332-6. Pezzilli R, Morselli-Labate AM, Mantovani V, Romboli E, Selva P, Migliori M, Corinaldesi R, Gullo L
Mutations of the CFTR gene in pancreatic disease.
Pancreas. 2003 Nov;27(4):332-6., [PMID:14576497]

Abstract [show]
INTRODUCTION: An association has been found between CFTR gene mutations and chronic pancreatitis; however, there is a lack of information about the frequency of CFTR gene mutations in acute pancreatitis and in pancreatic cancer. AIM: To prospectively evaluate the prevalence of CFTR gene mutations in acute pancreatitis, chronic pancreatitis, and pancreatic cancer. METHODOLOGY: Ninety-eight consecutive patients were studied and divided into 3 groups: 34 patients with acute pancreatitis, 46 patients with chronic pancreatitis, and 18 patients with pancreatic cancer. The mutation analysis of the CFTR gene was carried out using diagnostic commercial kits for the simultaneous detection of 29 mutations and Tn polymorphism. RESULTS: Among the 98 patients studied, 12 (12.2%) had CFTR gene mutations: 2 of the 34 patients (5.9%) with acute pancreatitis, 9 of the 46 (19.6%) with chronic pancreatitis, and 1 of the 18 (5.6%) with pancreatic cancer. All the mutations were found in heterozygosis (2 DeltaF508, 1 W1282X, and 9 T5 allele). CONCLUSION: Our prospective study adds further information about the frequency of CFTR mutations in patients with a single episode of acute pancreatitis. Furthermore, our results suggest an association of CFTR gene mutations with chronic alcoholic pancreatitis and emphasize the need for a multicenter study, possibly multinational, to conclusively establish the role of CFTR mutations as a genetic susceptibility factor for this disease.

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59 The 29 Mutations and the Tn Polymorphism Which Can Be Detected by INNO-LiPA Assays Mutation Exon/Intron (i) E60X, G85E, 394delTT 3 621 + 1G > T, R117H (i) 4, 4 711 + 5G > A (i) 5 1078delT, R347P, R334W 7 A455E, Tn (i) 8, 9 ⌬F508, ⌬I507 10 G542X, 1717-1 G > A, G551D, R553X, R560T, Q552X (i) 10, 11 2183AA > G, 2184del A, 2143delT 13 2789 + 5G > A (i) 14b R1162X, 3659delC 19 3849 + 10kbC > T (i) 19 3905insT, W1282X, S1251N 20 N1303K 21 Group 3: pancreatic cancer CFTR gene mutations were identified only in 1 of the 18 patients (5.6%) with this cancer. Login to comment

[hide] High allelic heterogeneity between Afro-Brazilians... Genet Test. 2003 Fall;7(3):213-8. Raskin S, Pereira L, Reis F, Rosario NA, Ludwig N, Valentim L, Phillips JA 3rd, Allito B, Heim RA, Sugarman EA, Probst CM, Faucz F, Culpi L
High allelic heterogeneity between Afro-Brazilians and Euro-Brazilians impacts cystic fibrosis genetic testing.
Genet Test. 2003 Fall;7(3):213-8., [PMID:14641997]

Abstract [show]
Cystic fibrosis (CF) is an autosomal recessive disease caused by at least 1,000 different mutations in the cystic fibrosis transmembrane conductance regulator gene (CFTR). To determine the frequency of 70 common worldwide CFTR mutations in 155 Euro-Brazilian CF patients and in 38 Afro-Brazilian CF patients, we used direct PCR amplification of DNA from a total of 386 chromosomes from CF patients born in three different states of Brazil. The results show that screening for seventy mutations accounts for 81% of the CF alleles in Euro-Brazilians, but only 21% in the Afro-Brazilian group. We found 21 different mutations in Euro-Brazilians and only 7 mutations in Afro-Brazilians. The frequency of mutations and the number of different mutations detected in Euro-Brazilians are different from Northern European and North American populations, but similar to Southern European populations; in Afro-Brazilians, the mix of CF-mutations is different from those reported in Afro-American CF patients. We also found significant differences in detection rates between Euro-Brazilian (75%) and Afro-Brazilian CF patients (21%) living in the same state, Minas Gerais. These results, therefore, have implications for the use of DNA-based tests for risk assessment in heterogeneous populations like the Brazilians. Further studies are needed to identify the remaining CF mutations in the different populations and regions of Brazil.

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63 FREQUENCIES OF 70 CFTR MUTATIONS IN DIFFERENT STATES OF BRAZIL, BY CONTINENTA L GROUP CFTR mutations SC PR MG detected n n n n % n % N % DF508 53 39 54 146 47.1 8 10.5 154 39.9 G542X 6 9 8 23 7.4 1 1.3 24 6.2 R1162X 9 2 4 15 4.8 2 2.6 17 4.4 N1303K 5 5 0 10 3.2 0 0 10 2.6 R334W 5 1 4 10 3.2 0 0 10 2.6 G85E 2 2 4 8 2.6 1 1.3 9 2.3 1717-1G®A 1 3 2 6 1.9 0 0 6 1.6 W1282X 4 1 1 6 1.9 0 0 6 1.6 3849110kbC®T 1 3 1 5 1.6 0 0 5 1.3 R553X 0 2 0 2 0.7 0 0 2 0.5 1812-1G®A 0 1 3 4 1.3 1 1.3 5 1.3 2183AA®G 2 1 0 3 1.0 0 0 3 0.8 312011G®A 0 0 2 2 0.7 2 2.6 4 1.0 Y1092X 0 1 1 2 0.7 1 1.3 3 0.8 G551D 0 0 0 0 0 0 0 0 0 W1089X 0 0 1 1 0.3 0 0 1 0.3 6211G®T 0 1 0 1 0.3 0 0 1 0.3 Q1238X 0 1 0 1 0.3 0 0 1 0.3 711-1G®T 0 1 0 1 0.3 0 0 1 0.3 R347P 1 0 0 1 0.3 0 0 1 0.3 189811G®A 1 0 0 1 0.3 0 0 1 0.3 I507 0 0 1 1 0.3 0 0 1 0.3 Subtotal 91 73 86 250 80.7 16 21.1 266 68.9 Alleles with CFTR 5 27 28 60 19.4 60 79.0 120 31.1 mutations not detected Total 96 100 114 310 100.0 76 100.0 386 100.0 Detection rate (%) 94.8 73.0 75.4 250 80.7 16 21.1 266 68.9 The following 70 CFTR mutations were selected and tested on the basis of frequency in various populations, known association with CF, or predicted deleterious effect on the CFTR protein product; DF508, G542X, N1303K, G551D, R553X, DI507, A455E, A559T, C524X, D1270N, E60X, G178R, G330X, G85E, 2307insA, I148T, K710X, P574H, Q1238X, Q493X, Q890X, R1158X, R1162X, R117H, R334W, R347H, R347P 2307insA, I148T, K710X, P574H, Q1238X, Q493X, Q890X, R1158X, R1162X, R117H, R334W, R347H, R347P 2307insA, 1148T, K710X, P574H, Q1238X, Q493X, Q890X, R1158X, R1162X, R117H, R334W, R347H, R347P, R352Q, R560T, S1196X, S1255X, S364P, S549N, S549R, V520F, W1089X, W1282X, W1310X, W1316X, Y1092X, Y122X, Y563D, 1078delT,1677delTA,1717-1G-A,1812-1G-A,1898 1 1G-A, 2043delG,2183delAA-G, 2184delA, 2789 1 5G-A, 2869insG, 2909delT, 3120 1 1G-A, 3120G-A, 3358delAC, 3659delC, 3662delA, 3750delAG, 3791delC, 3821delT, 3849 1 10KbC-T, 3849 1 4A-G, 3905insT, 405 1 1G-A, 444delA, 556delA, 574delA, 621 1 1G-T, and 711 1 1G-T. aSC, Santa Catarina State; PR, Parana State; MG, Minas Gerais State; n, number of chromosomes. Login to comment

[hide] Association between serum oncofetal antigens CA 19... Acta Paediatr. 2003 Nov;92(11):1267-71. Gronowitz E, Pitkanen S, Kjellmer I, Heikinheimo M, Strandvik B
Association between serum oncofetal antigens CA 19-9 and CA 125 and clinical status in patients with cystic fibrosis.
Acta Paediatr. 2003 Nov;92(11):1267-71., [PMID:14696845]

Abstract [show]
In cystic fibrosis (CF), mucus plugging in the airways and in the gastrointestinal tract leads to severe morbidity and mortality. The mucin-associated antigens CA 19-9 and CA 125 are markers of gastrointestinal malignancy, and CA 19-9 has also been reported in association with pulmonary function in CF. AIM: To test whether these antigens might serve as markers for the severity of pulmonary and gastrointestinal disease in CF. METHODS: In 99 patients, aged 1 to 48 y, serum levels of CA 19-9 and CA 125 were measured by RIA and ELISA and related to clinical data. RESULTS: Patients with severe mutations had significantly increased serum levels of CA 125, indicating an association with a more severe CF phenotype. This was further supported by the association with lung function, chronic pulmonary colonization of Pseudomonas aeruginosa and pancreatic insufficiency. CA 19-9 was also shown to be associated with lung function and Ps. aeruginosa colonization. No gastrointestinal malignancy was found in our patients despite very high values of CA 19-9 in some patients. During a 5-y follow-up, the very high serum levels of CA 19-9 decreased along with improved general condition of the patients. CONCLUSION: Increased serum levels of CA 125 in CF patients were associated with severe cystic fibrosis transmembrane conductance regulator mutations and a severe phenotype. Both antigens were associated with pseudomonas colonization and lung function and CA 125 also with pancreatic insufficiency. The estimates of CA 19-9 are hampered by the influence of the Lewis histo-blood group system on the synthesis of CA 19-9.

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43 Forty-eight patients were homozygous for DF508 and 25 were heterozygous for DF508 together with another severe mutation or had two other severe mutations (394delTT, 1112delT, 3659delC, 621 1G → T, E60X, R553X, 3126del4, R764X). Login to comment

[hide] Neonatal screening for cystic fibrosis: France ris... J Inherit Metab Dis. 2003;26(8):729-44. Farriaux JP, Vidailhet M, Briard ML, Belot V, Dhondt JL
Neonatal screening for cystic fibrosis: France rises to the challenge.
J Inherit Metab Dis. 2003;26(8):729-44., [PMID:14739679]

Abstract [show]
This paper describes the adjustments to the French neonatal screening programme required by the introduction of systematic screening for cystic fibrosis (CF), taking into account both the legal and statutory framework and the lessons of a pilot study carried out 10 years ago. The French association for the screening and prevention of infant handicaps (AFDPHE) has been mandated by its regulatory agencies to organize screening for CF in France (metropolitan and overseas territories). During the year 2001, expert groups (Technical Aspects, Information, Ethics and Genetics, Criteria for CF Centres, Protocol for the Care of a Newborn with CF) issued recommendations for the establishment of a national programme that would guarantee efficiency and adequate patient care from the time of diagnosis onward. The programme is based on a strategy combining immunoreactive trypsin (IRT) assay and the analysis of DNA mutations in dried blood samples obtained at 3 days of age. When an elevated IRT value is found, DNA analysis is performed on the same sample. Owing to the relative regional heterogeneity existing in France, 30 selected mutations are used, which provide 85% coverage. The Ethics and Genetics Committee recommended that, in order to avoid arousing anxiety by a recall, informed consent, according to the French legislation on bioethics, should be obtained for all neonates at birth by having the parents sign directly on the sampling paper. Information brochures for parents and health professionals have been designed. A new organization of patient care, involving the creation of CF centres recognized by the Ministry of Health, has been decided; all children diagnosed are to be referred to such centres, where they can be well cared for by a trained staff with sufficient means. The programme was implemented region by region in France, from the beginning of the year 2002 to early 2003. The expert groups still meet periodically to evaluate the implementation of the programme and to check that the terms of the agreement between the AFDPHE and the Social Security Agency are complied with.

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114 In its present version, the kit allows screening for 20 CFTR gene mutations (F508del, G542X, N1303K, 1717-1G>A, G551D, W1282X, R553X, I507del, 1078delT, 2183AA>G, 3849 þ 10kbC>T, R1162X, 621 þ 1G>T, R334W, R347P, 3659delC, R117H, S1251N, E60X, A455E) in one workday; moreover, it does not require any speci'c equipment. Login to comment

[hide] A finger sweat chloride test for the detection of ... Pancreas. 2004 Apr;28(3):e80-5. Naruse S, Ishiguro H, Suzuki Y, Fujiki K, Ko SB, Mizuno N, Takemura T, Yamamoto A, Yoshikawa T, Jin C, Suzuki R, Kitagawa M, Tsuda T, Kondo T, Hayakawa T
A finger sweat chloride test for the detection of a high-risk group of chronic pancreatitis.
Pancreas. 2004 Apr;28(3):e80-5., [PMID:15084988]

Abstract [show]
OBJECTIVES: Mutations of the cystic fibrosis transmembrane conductance regulator (CFTR) gene are associated with chronic pancreatitis in Caucasians. We developed a simple method for measuring finger sweat chloride concentration to test whether CFTR dysfunction underlies chronic pancreatitis in Japan where cystic fibrosis (CF) is rare. METHODS: We studied 25 patients with chronic (21 alcoholic and 4 idiopathic) pancreatitis and 25 healthy volunteers. Sweat chloride concentrations were measured by a finger sweat chloride test. We analyzed DNA for 20 common CFTR mutations in Europeans, 9 CF-causing mutations in Japanese, and 2 polymorphic loci, a poly-T tract and (TG) repeats, at intron 8. RESULTS: Thirteen patients (52%) had sweat chloride levels >60 mmol/L, a level consistent with CF, while only 4 (16%) healthy subjects exceeded this level. The 29 CF mutations and the 5T allele were detected in neither the patients nor controls. The (TG) 12 allele was common in both the patients (58%) and controls (48%). The (TG) 12/12 genotype was common in alcoholic pancreatitis (29%) compared with the (TG) 11/11 (10%). Patients with the (TG) 12/12 genotype had significantly higher sweat chloride concentrations than the controls. CONCLUSION: CFTR dysfunction as evidenced by a finger sweat chloride test is present in about half of Japanese patients with chronic pancreatitis, suggesting that this test may be useful for detecting the high-risk group. A higher proportion of the (TG) 12 allele may be a genetic background for elevated sweat chloride concentrations in Japanese patients.

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50 The DNA samples were analyzed using an amplification refractory mutation system kit for 20 common major CFTR mutations (E60X, R117H, R334W, R347P, A455E, ⌬I507, ⌬F508, G542X, G551D, R553X, 621+1G>T, 1078delT, R1162X, S1251N, W1282X, N1303K, 1717-1G>A, 2183AA>G, 3659delC, 3849+10kbC>T) (Elucigene CF 20, AstraZeneca Diagnostics, Abingdon, UK) following the standard procedures recommended by the manufacturer. Login to comment

[hide] Genetic evidence for CFTR dysfunction in Japanese:... J Med Genet. 2004 May;41(5):e55. Fujiki K, Ishiguro H, Ko SB, Mizuno N, Suzuki Y, Takemura T, Yamamoto A, Yoshikawa T, Kitagawa M, Hayakawa T, Sakai Y, Takayama T, Saito M, Kondo T, Naruse S
Genetic evidence for CFTR dysfunction in Japanese: background for chronic pancreatitis.
J Med Genet. 2004 May;41(5):e55., [PMID:15121783]

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218 The 20 most common CF mutations (E60X, R117H, R334W, R347P, A455E, DI507, DF508, G542X, G551D, R553X, 621+1GRT, 1078delT, R1162X, S1251N, W1282X, N1303K, 1717-1GRA, 2183AARG, 3659delC, and 3849+10kbCRT) were tested by an Elucigene CF20 kit (AstraZeneca Diagnostics, Abingdon, Oxfordshire, UK). Login to comment

[hide] The role of CFTR and SPINK-1 mutations in pancreat... AIDS. 2004 Jul 23;18(11):1521-7. Felley C, Morris MA, Wonkam A, Hirschel B, Flepp M, Wolf K, Furrer H, Battegay M, Bernasconi E, Telenti A, Frossard JL
The role of CFTR and SPINK-1 mutations in pancreatic disorders in HIV-positive patients: a case-control study.
AIDS. 2004 Jul 23;18(11):1521-7., 2004-07-23 [PMID:15238770]

Abstract [show]
OBJECTIVE: Pancreatic disorders in HIV-positive patients are frequent. CFTR and SPINK-1 mutations have been reported to increase the risk of pancreatitis, but no data are available in HIV-positive patients. This study will evaluate the frequency of CFTR mutations and SPINK-1 polymorphisms in HIV-positive patients with clinical pancreatitis or asymptomatic elevation of serum pancreatic enzymes. METHOD: Cases (patients with hyperamylasemia) were identified during a toxicity study conducted in August 1999 among 1152 participants of the Swiss HIV Cohort Study. We designed a case-control study in which each case was matched one to one to an HIV-infected control according to sex, age, CD4 cell count, viraemia and medication use. CFTR mutations and SPINK-1 polymorphisms were studied using polymerase chain reaction techniques. RESULTS: Fifty-one HIV-positive patients with hyperamylasemia were detected among 1152 participants in the toxicity study (4.4%). There were 13 carriers of CFTR and SPINK-1 mutations (12.7%). Amylase levels were 316 +/- 130 U/l for the group with mutations, and 135 +/- 18 U/l for non-carriers (P = 0.79). However, among patients with hyperamylasemia, those with CFTR or SPINK-1 mutations had 648 +/- 216 U/l amylase levels compared with 232 +/- 28 U/l for those without (P = 0.025). Ten patients had acute pancreatitis, four of whom had CFTR mutations or SPINK-1 polymorphisms (40%) compared with seven of the control patients (14%) (P = 0.01). CONCLUSION: CFTR mutations and SPINK-1 polymorphisms are frequent among HIV-positive patients suffering from acute pancreatitis. These mutations may increase the susceptibility to pancreatitis when exposed to environmental risk factors.

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42 Samples were tested: (i) for 20 common CFTR mutations (delF508, 621+1G.T, G542X, 3849+10kbC.T, N1303K, 3659delC, 1717-1G.A, 1078delT, W1282X, R347P, G551D, A455E, R553X, S1251N, R1162X, delF507, R334W, 2183AA.G, R117H, and E60X; Elucigene CF20; Orchid Biosciences, Abingdon, UK); (ii) for the CFTR IVS8 5T variant (Elucigene CF Poly-T; Orchid); and (iii) for the SPINK-1 N34S polymorphism, by poly- Copyright (c) Lippincott Williams & Wilkins. Login to comment

[hide] CFTR mutation distribution among U.S. Hispanic and... Genet Med. 2004 Sep-Oct;6(5):392-9. Sugarman EA, Rohlfs EM, Silverman LM, Allitto BA
CFTR mutation distribution among U.S. Hispanic and African American individuals: evaluation in cystic fibrosis patient and carrier screening populations.
Genet Med. 2004 Sep-Oct;6(5):392-9., [PMID:15371903]

Abstract [show]
PURPOSE: We reviewed CFTR mutation distribution among Hispanic and African American individuals referred for CF carrier screening and compared mutation frequencies to those derived from CF patient samples. METHODS: Results from CFTR mutation analyses received from January 2001 through September 2003, were analyzed for four populations: Hispanic individuals with a CF diagnosis (n = 159) or carrier screening indication (n = 15,333) and African American individuals with a CF diagnosis (n = 108) or carrier screening indication (n = 8,973). All samples were tested for the same 87 mutation panel. RESULTS: In the Hispanic population, 42 mutations were identified: 30 in the patient population (77.5% detection rate) and 33 among carrier screening referrals. Five mutations not included in the ACMG/ACOG carrier screening panel (3876delA, W1089X, R1066C, S549N, 1949del84) accounted for 7.55% detection in patients and 5.58% among carriers. Among African American referrals, 33 different mutations were identified: 21 in the patient population (74.4% detection) and 23 in the carrier screening population. Together, A559T and 711+5G>A were observed at a detection rate of 3.71% in CF patients and 6.38% in carriers. The mutation distribution seen in both the carrier screening populations reflected an increased frequency of mutations with variable expression such as D1152H, R117H, and L206W. CONCLUSIONS: A detailed analysis of CFTR mutation distribution in the Hispanic and African American patient and carrier screening populations demonstrates that a diverse group of mutations is most appropriate for diagnostic and carrier screening in these populations. To best serve the increasingly diverse U.S. population, ethnic-specific mutations should be included in mutation panels.

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35 87 mutation panel The following mutations were included in the panel: ⌬F508, ⌬F311, ⌬I507, A455E, A559T, C524X, D1152H, D1270N, E60X, G178R, G330X, G480C, G542X, G551D, G85E, G91R, I148T, K710X, L206W, M1101K, N1303K, P574H, Q1238X, Q359K/T360K, Q493X, Q552X, Q890X, R1066C, R1158X, R1162X, R117C, R117H, R1283M, R334W, R347H, R347P, R352Q, R553X, R560T, S1196X, S1251N, S1255X, S364P, S549I, S549N, S549R, T338I, V520F, W1089X, W1282X, Y1092X, Y563D, 1078delT, 1161delC, 1609delCA, 1677delTA, 1717-1GϾA, 1812-1GϾA, 1898ϩ1GϾA, 1898ϩ5GϾT, 1949del84, 2043delG, 2143delT, 2183delAAϾG, 2184delA, 2307insA, 2789ϩ5GϾA, 2869insG, 3120ϩ1GϾA, 3120GϾA, 3659delC, 3662delA, 3791delC, 3821delT, 3849ϩ10kbCϾT, 3849ϩ4AϾG, 3905insT, 394delTT, 405ϩ1GϾA, 405ϩ3AϾC, 444delA, 574delA, 621ϩ1GϾT, 711ϩ1GϾT, 711ϩ5GϾA, 712-1GϾT, 3876delA CFTR mutation analysis Genomic DNA was extracted from peripheral blood lymphocytes, buccal cell swabs, or bloodspots by Qiagen QIAmp 96 DNA Blood Kit. Specimens were tested for 87 mutations by a pooled allele-specific oligonucleotide (ASO) hybridization method as previously described.16,17 Two multiplex chain reactions (PCR) were used to amplify 19 regions of the CFTR gene. Login to comment

[hide] Use of MALDI-TOF mass spectrometry in a 51-mutatio... Genet Med. 2004 Sep-Oct;6(5):426-30. Buyse IM, McCarthy SE, Lurix P, Pace RP, Vo D, Bartlett GA, Schmitt ES, Ward PA, Oermann C, Eng CM, Roa BB
Use of MALDI-TOF mass spectrometry in a 51-mutation test for cystic fibrosis: evidence that 3199del6 is a disease-causing mutation.
Genet Med. 2004 Sep-Oct;6(5):426-30., [PMID:15371908]

Abstract [show]
PURPOSE: We developed a 51-mutation extended cystic fibrosis (CF) panel that incorporates the 25 previously recommended CFTR mutations, plus 26 additional mutations including 3199del6, which was associated with I148T. METHODS: This assay utilizes an integrated matrix-assisted laser desorption ionization-time of flight (MALDI-TOF) mass spectrometry system. RESULTS: CF testing was performed on over 5,000 individuals, including a 3-year-old Hispanic-American patient with a compound heterozygous G542X/3199del6 genotype. He is negative for I148T, or other mutations assessed by CFTR gene sequencing. CONCLUSION: These results demonstrate the successful implementation of MALDI-TOF mass spectrometry in CF clinical testing, and establish 3199del6 as a disease-causing CF mutation.

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40 RESULTS CFTR mutation panel analysis Our expanded CF assay using a MALDI-TOF mass spectrometry system (Sequenom) was initially validated against the ASO hybridization assay that was previously implemented in our laboratory.11 A total of 1080 patient samples that were analyzed by ASO were tested in parallel by MALDI-TOF mass spectrometry, and concordant results were obtained with the exception of two cases. One sample was heterozygous for a rare mutation, E60X, which was not included in the smaller (37 mutation) ASO panel. Login to comment
77 This assay also demonstrated heterozygosity for the G542X mutation, and reflex testing for the 5T variant at CFTR intron 8 showed a genotype of 7T/9T in this patient (data not Table 3 Description of the 16 multiplex assays designed to analyze 51 CFTR mutations Multiplex Mutations Exon 1 1078delT, G314E, R352Q, G330X 7 2 R347H, R347P, R334W, 1717-1A 7, 11 3 R553X, S549N, R1162X 11, 19 4 A559T, R560T, G551D 11 5 G542X, S549R, 621ϩ1T, Y122X 4, 11 6 W1282X, 3876delA, 3905insT, D1152H 18, 20 7 3849ϩ4G, 3659delC, 1898ϩ1A 12, 19 8 405ϩ1A, 405ϩ3C, 3120A, 3120ϩ1A 3, 16 9 394delTT, E60X, G85E 3 10 A455E, ⌬F508a 9, 10 11 G480C, Q493X, V520F 10 12 711ϩ1T, G178R, 3199del6 5, 17a 13 2143delT, 2184delA, K710X, F316L 7, 13 14 I148T, R117H, R117C 4 15 N1303K, 2789ϩ5A, 3849ϩ10kbT 14b, intron19, 21 16 ⌬I507a 10 17 5Tb intron 8 a F508C and I507V, I506V, I506M variants are tested for concurrently with the ⌬F508 and ⌬I507 assays respectively. Login to comment

[hide] Sildenafil (Viagra) corrects DeltaF508-CFTR locati... Thorax. 2005 Jan;60(1):55-9. Dormer RL, Harris CM, Clark Z, Pereira MM, Doull IJ, Norez C, Becq F, McPherson MA
Sildenafil (Viagra) corrects DeltaF508-CFTR location in nasal epithelial cells from patients with cystic fibrosis.
Thorax. 2005 Jan;60(1):55-9., [PMID:15618584]

Abstract [show]
BACKGROUND: Most patients with cystic fibrosis (CF) have a DeltaF508 mutation resulting in abnormal retention of mutant gene protein (DeltaF508-CFTR) within the cell. This study was undertaken to investigate DeltaF508-CFTR trafficking in native cells from patients with CF with the aim of discovering pharmacological agents that can move DeltaF508-CFTR to its correct location in the apical cell membrane. METHOD: Nasal epithelial cells were obtained by brushing from individuals with CF. CFTR location was determined using immunofluorescence and confocal imaging in untreated cells and cells treated with sildenafil. The effect of sildenafil treatment on CFTR chloride transport function was measured in CF15 cells using an iodide efflux assay. RESULTS: In most untreated CF cells DeltaF508-CFTR was mislocalised within the cell at a site close to the nucleus. Exposure of cells to sildenafil (2 hours at 37 degrees C) resulted in recruitment of DeltaF508-CFTR to the apical membrane and the appearance of chloride transport activity. Sildenafil also increased DeltaF508-CFTR trafficking in cells from individuals with CF with a single copy DeltaF508 (DeltaF508/4016ins) or with a newly described CF trafficking mutation (R1283M). CONCLUSIONS: The findings provide proof of principle for sildenafil as a DeltaF508-CFTR trafficking drug and give encouragement for future testing of sildenafil and related PDE5 inhibitors in patients with CF.

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218 The results are representative of cells from (A) three non-CF individuals, (B, C) four DF508/DF508 CF individuals, and (D, E) one R1283M/E60X individual. Login to comment
227 A new CF trafficking mutation Cells from a CF individual heterozygous for a rare missense mutation, R1283M,13 and a stop mutation, E60X, were also examined (fig 1D-F). Login to comment

[hide] Misprocessing of the CFTR protein leads to mild cy... Hum Mutat. 2005 Apr;25(4):360-71. Clain J, Lehmann-Che J, Dugueperoux I, Arous N, Girodon E, Legendre M, Goossens M, Edelman A, de Braekeleer M, Teulon J, Fanen P
Misprocessing of the CFTR protein leads to mild cystic fibrosis phenotype.
Hum Mutat. 2005 Apr;25(4):360-71., [PMID:15776432]

Abstract [show]
Cystic fibrosis (CF) is mainly caused by mutations that interfere with the biosynthetic folding of the cystic fibrosis transmembrane conductance regulator (CFTR) chloride channel. The aim of this study was to determine the mechanism of dysfunction of a disease-causing mutation associated with variable phenotypes. In order to attain these objectives, we studied the effect of the p.L206W mutation on CFTR protein production and function, and we examined the genotype-phenotype correlation of [p.L206W]+[p.F508del] patients. We showed that p.L206W is a processing (class II) mutation since the CFTR biosynthetic pathway was severely impaired, whereas single-channel measurements indicated ion conductance similar to the wild-type protein. These data raise the larger question of the phenotypic variability of class II mutants, including p.F508del. Since multiple potential partners could modify the processing of the CFTR protein during its course to the cell surface, environmental and other genetic factors might contribute to this variability.

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112 For most patients (30/36), p.L206W was combined with a severe mutation (p.F508del, p.I507del, p.G542X, p.W216X, p.R851X, and p.E60X) on the other CFTR allele. Login to comment
143 ]c 179 [p.L206W]+[p.F508del] [1540A]+[1540A] [(TG)9(T)9]+[(TG)10(T)9] [16;7;17]+[23;31;13] 422 [p.L206W]+[p.G542X] [1540A]+[1540A] [(TG)9(T)9]+[(TG)10(T)9] [16;7;17]+[23;33;13] 1720 [p.L206W]+[p.F508del] [1540A]+[1540A] [(TG)9(T)9]+[(TG)10(T)9] [16;7;17]+[17;32;13]c 1878 [p.L206W]+[p.F508del] [1540A]+[1540A] [(TG)9(T)9]+[(TG)10(T)9] [16;7;17]+[17;31;13]c 626 [p.L206W]+[p.E60X] [1540A]+[1540G] [(TG)9(T)9]+[(TG)11(T)7] [16;7;17]+[16;31;13] 1455 [p.L206W]+[1342-6(T)5]] [1540A]+[1540G] [(TG)9(T)9]+[(TG)12(T)5] [16;7;17]+[16;31;14]c 2104 [p.L206W]+[p.F508del] [1540A]+[1540A] [(TG)9(T)9]+[(TG)10(T)9] [16;7;17]+[23;31;13]c 652 [p.L206W]+[p.E216X] [1540A]+[1540A] [(TG)9(T)9]+[(TG)10(T)9] [16;7;17]+[23;32;13] 2345 [p.L206W]+[p.F508del] [1540A]+[1540A] [(TG)9(T)9]+[(TG)10(T)9] [16;7;17]+[17;32;13] a The DNA and mutation numbering follows the CFTR mutation database, (www.genet.sickkids.on.ca/cftr), the A of the ATG translation start codon being numbered +133 (GeneBank NM_000492.2).We followed the approved nomenclature format in mutation names at the protein level and in genotype writing. Login to comment
165 [1999] [p.L206W]+[p.W216X]II/I0.116F^PSNo75(1)Thisstudy [p.L206W]+[p.F508del]II/II0.2d 2F^PSe BronchialhyperreactivityPositiveThisstudy [p.L206W]+[p.F508del]II/II216F^PSNo54714(6)Thisstudy [p.L206W]+[p.F508del]II/II24M^PSe Bronchitis65(1)Thisstudy [p.L206W]+[p.F508del]II/II23M^PSe Bronchitis9672(2)Thisstudy [p.L206W]+[p.F508del]II/II47F^PIBronchitis5478(2)Thisstudy [p.L206W]+[p.F508del]II/I56F^PSAsthma7576(2)Thisstudy [p.L206W]+[1342-6(T)5]II/-2833MCBAVDPSBronchitis^Thisstudy [p.L206W]+[p.G542X]II/I3243MCBAVDPSNo^Thisstudy [p.L206W]+[p.F508del]II/II3740MCBAVD^^^Thisstudy [p.L206W]+[p.E60X]II/I2938MCBAVDPSNo64(1)Thisstudy [p.L206W]+[p.F508del]II/II3536MCBAVDPINo93(1)Thisstudy a Theclassi'cationofmissensemutationswasbasedonfunctionalstudies[Lietal.,1993;Chengetal.,1990;Champignyetal.,1995]. Login to comment

[hide] Screening of mutations in the CFTR gene in 1195 co... Eur J Hum Genet. 2005 Aug;13(8):959-64. Stuppia L, Antonucci I, Binni F, Brandi A, Grifone N, Colosimo A, De Santo M, Gatta V, Gelli G, Guida V, Majore S, Calabrese G, Palka C, Ravani A, Rinaldi R, Tiboni GM, Ballone E, Venturoli A, Ferlini A, Torrente I, Grammatico P, Calzolari E, Dallapiccola B
Screening of mutations in the CFTR gene in 1195 couples entering assisted reproduction technique programs.
Eur J Hum Genet. 2005 Aug;13(8):959-64., [PMID:15870824]

Abstract [show]
Genetic testing of the cystic fibrosis transmembrane conductance (CFTR) gene is currently performed in couples undergoing assisted reproduction techniques (ART), because of the high prevalence of healthy carriers in the population and the pathogenic relationship with congenital bilateral absence of vas deferens (CBAVD). However, discordant data have been reported concerning the usefulness of this genetic test in couples with no family history of cystic fibrosis (CF). In this study, we report the results of CFTR molecular screening in 1195 couples entering ART. Genetic testing was initially carried out in a single partner of each couple. CFTR mutations were detected in 55 subjects (4.6%), a percentage that overlaps with the one reported in the general population. However, significantly higher frequencies of were found in CBAVD individuals (37.5%) and in males with nonobstructive azoospermia (6.6%). The 5T allele was found in 78 patients (6.5%). This figure was again significantly different in males with nonobstructive-azoospermia (9.9%) and in those with CBAVD (100%). All together, 139 subjects (11.6%) had either a CFTR mutation or the 5T allele. Subsequent molecular analysis of their partners disclosed a CFTR mutation or 5T allele in nine cases (6.5%). However, none of these couples had CFTR alterations in both members, a CFTR mutation being invariably present in one partner and the 5T allele in the other. In order to improve genetic counselling of these couples, the TG-M470V-5T association was analyzed, and a statistically significant relationship between 12TG-V470 and CBAVD was detected.

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64 of detected carriers Prevalence among detected CFTR mutations DF508 40 (3.34%) 65.58% DI507 0 0 G542X 6 (0.50%) 9.84% 1717-1G-A 1 (0.08%) 1.64% G551D 0 0 R553X 0 0 R560T 0 0 Q552X 0 0 W1282X 7 (0.58 %) 11.48% S1251N 0 0 N1303K 3 (0.20%) 4.91% 394delTT 0 0 G85E 3 (0.25%) 4.91% E60X 0 0 621+1G-T 0 0 R117H 0 0 1078delT 0 0 R347P 0 0 R334W 0 0 2143delT 0 0 2183AA-G 0 0 2184delA 0 0 711+5G-A 0 0 2789+5G-A 1 (0.08%) 1.64% R1162X 0 0 3659del5 0 0 3849+10kbC-T 0 0 A455E 0 0 5T 78 (6.52%) Table 2 Distribution of CFTR mutations and 5T allele according to phenotype for the 1195 individuals Phenotype CF/WT 5T/WT CF/5T WT/WT Infertile males (non-CBAVD), N ¼ 304 20 (6.58%) 30 (9.87%) 0 254 (83.55%) Infertile males (CBAVD), N ¼ 16 0 10 (62.50%) 6 (37.50 %) 0 Infertile females, N ¼ 93 5 (5.37%) 7 (7.53%) 0 81 (87.10%) Unexplained infertility, N ¼ 782 30 (3.84%) 31 (3.96%) 0 721 (92.20%) Total ¼ 1195 55 (4.60%) 78 (5.50%) 6 (0.50%) 1056 (88.40%) CFTR alteration was detected, including a mutation in three cases and the 5T polymorphism in the remaining six. 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
67 SSCP analysis is one of the most popular methods for the detection of sequence variants in polymerase chain reaction (PCR) amplified DNA fragments.29 The princi- Table 3 Cystic Fibrosis Mutations Detected by Commercial Kits INNO-LiPA Mutations CF2 ⌬F508, ⌬I507, G542X, 1717-1G→A, G551D, R553X, W1282X, N1303K CFTR12 ⌬F508, ⌬I507, G542X, 1717-1G→A, G551D, R553X, W1282X, N1303K, S1251N, R560T, 3905insT, Q552X CFTR17+Tn 394delTT, G85E, 621+1G→T, R117H, 1078delT, R347P, R334W, E60X, 2183AA→G, 2184delA, 711+5G→A, 2789+5G→A, R1162X, 3659delC, 3849+10kbC→T, 2143delT, A455E, (5T/7T/9T) Elucigene CF4 ⌬F508, G542X, G551D, 621+1G→T CF12 ⌬F508, G542X, G551D, N1303K, W1282X, 1717-1G→A, R553X, 621+1G→T, R117H, R1162X, 3849+10kbC→T, R334W CF20 1717-1G→A, G542X, W1282X, N1303K, ⌬F508, 3849+10kbC→T, 621+1G→T, R553X, G551D, R117H, R1162X, R334W, A455E, 2183AA→G, 3659delC, 1078delT, ⌬I507, R345P, S1251N, E60X CF Poly-T 5T/7T/9T OLA CF OLA assay ⌬F508, F508C, ⌬I507, Q493X, V520F, 1717-1G→A, G542X, G551D, R553X, R560T, S549R, S549N, 3849+10kbC→T, 3849+4A→G, R1162X, 3659delC, W1282X, 3905insT, N1303K, G85E, 621+1G→T, R117H, Y122X, 711+1G→T, 1078delT, R347P, R347H, R334W, A455E, 1898+1G→A, 2183AA→G, 2789+5G→A b Figure 2 Mutation screening of exon 19 of the cystic fibrosis transmembrane conductance regulator (CFTR) gene using polymerase chain reaction (PCR) followed by single-strand conformation polymorphism/heteroduplex (SSCP/HD) analysis on a silver-stained polyacrylamide gel. Login to comment

[hide] Mutations of the CFTR gene in idiopathic pancreati... Pancreas. 2005 Nov;31(4):350-2. Gullo L, Mantovani V, Manca M, Migliori M, Bastagli L, Pezzilli R
Mutations of the CFTR gene in idiopathic pancreatic hyperenzymemia.
Pancreas. 2005 Nov;31(4):350-2., [PMID:16258369]

Abstract [show]
OBJECTIVES: Idiopathic pancreatic hyperenzymemia is a new syndrome that is characterized by a chronic increase of serum pancreatic enzymes in the absence of pancreatic disease. The aim of this study was to assess whether mutations of the cystic fibrosis transmembrane conductance regulator (CFTR) gene may have a role in the etiology of this hyperenzymemia. METHODS: Seventy subjects with idiopathic pancreatic hyperenzymemia, 44 men and 26 women (mean age, 48 years; range, 8-74 years), were studied. Thirteen of these 70 subjects had the familial form of the syndrome. The mutation analysis of the CFTR gene was carried out using diagnostic commercial kits for the simultaneous detection of 29 mutations and Tn polymorphism. RESULTS: Among the 70 subjects studied, 7 (10.0%) had CFTR gene mutations. None of these 7 subjects had the familial form of pancreatic hyperenzymemia. These mutations were DeltaF 508 in 1 subject, 2789 + 5 G > A in another subject, and T5 allele in the remaining 5. All these mutations were heterozygous, with the exception of 1 T5 allele that was homozygous in 1 subject. CONCLUSIONS: The frequencies of the mutations of the CFTR gene found in these subjects are similar to the carrier frequencies in the general Italian population. This finding does not support a role for CFTR gene mutations in the etiology of idiopathic pancreatic hyperenzymemia.

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51 The 29 Mutations and Tn Polymorphism That Can Be Detected by INNO-LiPA Assays Mutation Exon/Intron (i) E60X, G85E, 394delTT 3 621 + 1 G ., R117H (i) 4, 4 711 + 5 G . Login to comment

[hide] Association of improved pulmonary phenotype in Iri... Pediatr Pulmonol. 2006 Jun;41(6):584-91. Courtney JM, Plant BJ, Morgan K, Rendall J, Gallagher C, Ennis M, Kalsheker N, Elborn S, O'Connor CM
Association of improved pulmonary phenotype in Irish cystic fibrosis patients with a 3' enhancer polymorphism in alpha-1-antitrypsin.
Pediatr Pulmonol. 2006 Jun;41(6):584-91., [PMID:16617455]

Abstract [show]
Modifier genes other than CFTR are thought to influence lung disease phenotype in cystic fibrosis (CF). In this study, we investigated the relationship between a polymorphism (1237 G --> A) in the 3' enhancer region of the alpha-1-antitrypsin (AAT) gene and pulmonary disease severity in 320 CF patients recruited from two independent adult referral centers in Ireland, and evaluated the in vivo effect of the polymorphism on AAT levels during acute infection. When corrected for confounding variables, the polymorphism was found to make a small but significant contribution to variance in percent predicted forced expired volume in 1 sec (FEV1) (1.1%, P = 0.05), with possession of the A allele being associated with better pulmonary function (AA/AG genotype: percent predicted FEV1, 70.8 +/- 3.9; GG genotype: percent predicted FEV1, 62.0 +/- 1.4). As would be expected of a modifier effect, the influence of the polymorphism was more marked in patient groups traditionally associated with more severe lung disease, contributing 3.2% (P = 0.033) to the variance in percent predicted FEV1 in patients homozygous for DF508, 3.3% (P = 0.007) to those infected with Pseudomonas aeruginosa, and 3% (P = 0.024) in female patients. In each instance, a positive association between possession of the A variant and higher percent predicted FEV1 was observed. We did not, however, find any evidence that possession of the A allele effected upregulation of AAT during acute infection in vivo. This lack of a demonstrable functional effect in vivo suggests that the polymorphism is a marker for a modifying effect on pulmonary phenotype in the Irish CF population by a mechanism that is yet to be explained.

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80 T 1.2% 1.7% 1.4% Nonmild R560T 1.5% 1.3% 1.4% Nonmild G542X 0.7% 1.7% 1.1% Nonmild E60X 0.5% 0.9% 0.6% Mild R553X 0.0% 1.3% 0.5% Nonmild N103K 0.7% 0.0% 0.5% Nonmild 9DELTT 0.0% 0.9% 0.3% Mild 3849 þ 10 kb C > T 0.0% 0.9% 0.3% Mild R75Q 0.0% 0.9% 0.3% Mild 1717 þ 1 G > A/À 0.5% 0.0% 0.3% Mild D1507 0.5% 0.0% 0.3% Mild Minor alleles 9.5% 27.4% 15.9% Mild 1 Alleles listed individually occur at a frequency of !0.5% in either population. Login to comment

[hide] A regulatory role of polycystin-1 on cystic fibros... Cell Physiol Biochem. 2006;18(1-3):9-20. Epub 2006 Aug 14. Ikeda M, Fong P, Cheng J, Boletta A, Qian F, Zhang XM, Cai H, Germino GG, Guggino WB
A regulatory role of polycystin-1 on cystic fibrosis transmembrane conductance regulator plasma membrane expression.
Cell Physiol Biochem. 2006;18(1-3):9-20. Epub 2006 Aug 14., [PMID:16914886]

Abstract [show]
Autosomal dominant polycystic kidney disease (ADPKD) is caused by genetic mutations in either PKD1 or PKD2, the genes that encode polycystin-1 (PC-1) and polycystin-2 (PC-2), respectively. ADPKD is characterized by the formation of multiple, progressive, fluid-filled renal cysts. To elucidate the mechanism of fluid secretion by ADPKD cysts, we examined the effect of PC-1 on the plasma membrane expression of cystic fibrosis transmembrane conductance regulator (CFTR), a key Cl(-) secretory protein. Five stably transfected MDCK lines were used in this study: two transfected with empty vector (control cells) and three expressing human PC-1 (PC-1 cells). The cAMP-induced endogenous short circuit currents (I(sc)) were smaller in PC-1 cells than in control cells. Compared to control cells, PC-1 cells transiently expressing pEGFP-CFTR showed significant reduction of whole cell cAMP-activated Cl(-) currents. Cell surface biotinylation experiments also indicated a reduction in surface expression of CFTR in PC-1 cells compared to control. Furthermore, studies using CHO cells transiently expressing PC-1 and CFTR suggest the importance of the PC-1 COOH-terminus in the observed reduction of CFTR plasma membrane expression. No differences in either endogeneous K(+) currents or P2Y receptor responses were observed between PC-1 and control cells, indicating the specificity of PC-1's action. These results indicate that PC-1 selectively maintains low cell surface expression of CFTR. Moreover, these findings suggest that the malfunction of PC-1 enhances plasma membrane expression of CFTR, thus causing abnormal Cl(-)secretion into the cyst lumen.

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201 Compared to those without CF, O`Sullivan et al [21] have reported a less severe cystic phenotype for two patients affected by both ADPKD (without description of exact genotype) and CF (stop codon within exon3 and severe reduction in transcription for E60X). Login to comment

[hide] Extended gene analysis can increase specificity of... Acta Paediatr. 2006 Nov;95(11):1424-8. Merelle ME, Scheffer H, De Jong D, Dankert-Roelse JE
Extended gene analysis can increase specificity of neonatal screening for cystic fibrosis.
Acta Paediatr. 2006 Nov;95(11):1424-8., [PMID:17062471]

Abstract [show]
AIM: To assess whether carriers and patients can be accurately identified by extended gene analysis for cystic fibrosis (CF) in dried blood spots. METHODS: A blinded analysis was performed in 10-mm2 blood spots on Guthrie cards, punched as if to remove material for the IRT test, from 10 CF patients and 10 carriers with known CF mutations. Genomic DNA was isolated. Aliquots of 1 microl dissolved DNA were used for subsequent PCRs. Analysis of the deltaF508 mutation was followed by an oligonucleotide ligation assay. Denaturing gradient gel electrophoresis of the whole CFTR gene was carried out in samples with only one identified mutation. Amplicons revealing an aberrant pattern were sequenced. RESULTS: In all cases, the blood-spot genotype was identical to that previously determined from whole-blood analysis. Estimated time needed to complete the procedure in a series of Guthrie cards was 3-4 wk. CONCLUSION: Extended gene analysis in dried blood spots can discriminate CF patients and carriers. If proven equally reliable in larger series, an approach to neonatal screening in which tests are only considered as screen positive when two CF mutations are found is possible. This can increase the specificity of the screening programme, and carrier detection can practically be avoided.

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58 Results Reliability of the extended gene analysis The following mutations were found in the study population: DF508, 3659delC, R553X, S589N, R1070Q and E60X (Table I). Login to comment
60 However, the E60X mutation was found only after DGGE analysis (Figure 1). Login to comment
91 In individual 2 (lower lane), a number of sequence variations are detected: the non-pathogenic variations 1540A/G (M470V) in exon 10 and the 3041-71G/C in intron 15 (amplicon number 16) are heterozygously present, as well as the pathogenic mutation E60X (exon 3). Login to comment
94 Genotypes Number DF508/DF508 5 DF508/3659delC 1 DF508/R553X 1 DF508/S589N 1 DF508/R1070Q 1 DF508/E60X 1 DF508/N 8 3659delC/N 1 S589N/N 1 Total 20 N: no CFTR mutation. Login to comment
104 To be certain that no patients will be missed, a DGGE analysis or similar technology following the OLA analysis is necessary, as is shown by the patient carrying a ^F508 mutation and the E60X mutation that was discovered through the DGGE analysis. Login to comment

[hide] No detectable improvements in cystic fibrosis tran... Am J Respir Cell Mol Biol. 2007 Jul;37(1):57-66. Epub 2007 Mar 8. Clancy JP, Rowe SM, Bebok Z, Aitken ML, Gibson R, Zeitlin P, Berclaz P, Moss R, Knowles MR, Oster RA, Mayer-Hamblett N, Ramsey B
No detectable improvements in cystic fibrosis transmembrane conductance regulator by nasal aminoglycosides in patients with cystic fibrosis with stop mutations.
Am J Respir Cell Mol Biol. 2007 Jul;37(1):57-66. Epub 2007 Mar 8., [PMID:17347447]

Abstract [show]
Cystic fibrosis (CF) is an autosomal recessive disorder caused by many types of genetic defects, including premature stop codons. Gentamicin can suppress stop mutations in CF transmembrane conductance regulator (CFTR) in vitro and in vivo, leading to improvements in CFTR-dependent ion transport and protein localization to the apical surface of respiratory epithelial cells. The primary objective of this study was to test whether nasally administered gentamicin or tobramycin could suppress premature stop mutations in CFTR, resulting in full-length, functional protein. A secondary objective was to obtain data to aid in the design of multicenter trials using the nasal potential difference as a study endpoint. A multicenter study was conducted in two cohorts of patients with CF, those heterozygous for stop mutations in the CFTR gene and those without nonsense mutations, to investigate the effects of both gentamicin and tobramycin administered over a 28-d period on sequential nasal potential difference and airway cell immunofluorescence endpoints. Eleven patients with CF with stop mutations were enrolled in a randomized, double-blinded, crossover fashion to receive each drug, while 18 subjects with CF without stop mutations were randomized 1:1 in a parallel fashion to receive one drug. After demonstration of drug delivery, neither aminoglycoside produced detectable changes in nasal ion transport or CFTR localization in brushed cells from either study group. These results with first-generation suppressive agents suggest the need for improved drug delivery methods and/or more potent suppressors of nonsense mutations to confer CFTR correction in subjects with CF heterozygous for nonsense mutations. The study provides valuable information on parameters of the nasal potential difference measurements for use in future multicenter clinical trials.

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50 GENOTYPE AND DEMOGRAPHIC INFORMATION OF STUDY SUBJECTS Age (yr) Sex Genotype Premature stop mutation subjects 16 Male 621ϩ1G-T/E60X 16 Male ⌬F508/G542X 22 Male ⌬F508/G542X 12 Female ⌬F508/G542X 22 Female ⌬F508/G542X 11 Male ⌬F508/R553X 15 Female 621ϩ1G-T/R553X 27 Female ⌬F508/R553X 32 Female ⌬F508/Y1092X 28 Male ⌬F508/R1162X 11 Female ⌬F508/W1282X Mean yr (SD) 20.2 (8.9) M:F 5:6 (six separate stop alleles represented) Control subjects 8 Male ⌬F508/⌬F508 14 Male ⌬F508/⌬F508 16 Female ⌬F508/⌬F508 16 Female ⌬F508/⌬F508 16 Male ⌬F508/⌬F508 18 Female ⌬F508/⌬F508 18 Male ⌬F508/⌬F508 20 Male ⌬F508/⌬F508 20 Female ⌬F508/⌬F508 20 Male ⌬F508/⌬F508 24 Female ⌬F508/⌬F508 32 Female ⌬F508/⌬F508 35 Male ⌬F508/⌬F508 42 Female ⌬F508/⌬F508 29 Male ⌬F508/G551D 59 Female ⌬F508/2789ϩ5G-T 16 Male ⌬F508/3905InsT 15 Female ⌬F508/N1303K Mean yr (SD) 23.2 (12.3) M:F 9:9 ⌬F508/⌬F508: 14:18 were provided (with 25% overfill) at Days 0, 7, 42, and 49 for the premature stop group, and at Days 0 and 7 for the control group. Login to comment
231 The less common stop mutations found in our study subjects (E60X, Y1092X) are produced by other codons (UAG or UAA, respectively) that are frequently less sensitive to suppression than the UGA codon (20). Login to comment

[hide] Airway nitric oxide in patients with cystic fibros... Chest. 2007 Jun;131(6):1857-64. Epub 2007 Mar 30. Keen C, Olin AC, Edentoft A, Gronowitz E, Strandvik B
Airway nitric oxide in patients with cystic fibrosis is associated with pancreatic function, Pseudomonas infection, and polyunsaturated fatty acids.
Chest. 2007 Jun;131(6):1857-64. Epub 2007 Mar 30., [PMID:17400678]

Abstract [show]
BACKGROUND: Airway nitric oxide (NO) is low or normal in cystic fibrosis (CF) patients. This may affect bacterial status since NO has antimicrobial properties. Arachidonic acid (AA), which is increased in the serum and airways of CF patients, has been shown to reduce NO levels. The aim of this study was to investigate whether airway NO level correlates with genotype and pancreatic function, and whether low airway NO level is associated with bacterial infection and increased serum AA level in CF patients. METHOD: Nasal NO (nNO) and exhaled NO (eNO) were measured according to the European Respiratory Society/American Thoracic Society standard in 59 CF patients aged 7 to 55 years, 80% of whom were pancreatic insufficient (PI) and 51% were chronically infected with Pseudomonas aeruginosa. RESULTS: PI CF patients had significantly lower nNO levels than pancreatic-sufficient (PS) patients. Airway NO level did not correlate with lung function or inflammatory parameters. PI patients chronically infected with P aeruginosa had significantly lower nNO levels than noninfected PI patients. nNO level correlated inversely with the AA/docosahexaenoic acid ratio, and eNO with the essential fatty acid (FA) deficiency index, which is the ratio between mead acid and AA. CONCLUSIONS: CF patients with PI, which is associated with more severe genotypes, had lower airway NO levels than patients with PS. Low NO level was correlated to chronic P aeruginosa infection, and an association was found between airway NO level and the abnormal serum phospholipid FA pattern.

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29 Group 1 included patients with homozygotes for dF508, while group 2 included patients with heterozygotes for dF508 with one other "severe" mutation (eg, 394delTT, 3659delC, E60X, or 1112 delT) or homozygotes for that other mutation. Login to comment

[hide] Analysis of cystic fibrosis gene mutations and ass... Genet Test. 2007 Summer;11(2):133-8. Knezevic J, Tanackovic G, Matijevic T, Barisic I, Pavelic J
Analysis of cystic fibrosis gene mutations and associated haplotypes in the Croatian population.
Genet Test. 2007 Summer;11(2):133-8., [PMID:17627383]

Abstract [show]
The aim of this study was to reveal the CFTR gene mutation status in the Croatian population as well as to establish the haplotypes associated with cystic fibrosis (CF) and those associated with specific gene mutations. A total of 48 unrelated CF patients from Croatia were examined. Among 96 tested alleles, we found nine different mutations: DeltaF508, 58.33%; G542X, 3.12%; N1303K, 2.08%; R1162X; 621 + 1G --> T; G85E; Y569C; E585X; and S466X, 1.04%. Analysis of three polymorphic loci revealed 15 different haplotypes. Two of them (21-23-13 and 21-17-13) occurred with a higher frequency (40% and 24%). Both of these haplotypes also carried a CFTR gene mutation (DeltaF508 or G542X) on 27 out of 32 chromosomes. Among 12 (of all together 29) CF alleles on which no mutations were found, we detected 10 different haplotypes. Because there are still no published data on the distribution of polymorphic loci in Croatia, nor haplotypes associated with mutations in the CFTR gene, our results greatly contribute to knowledge regarding the genetic background of CF in this region.

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39 INNOGENETICS INNO-LIPA CFTR 12 and INNO-LIPA CFTR 7 ϩ Tn diagnostic kits were used to assess the presence of the 29 mutations in CF patients; ⌬F508, ⌬I507, G542X, N1303K, 1717-1G Ǟ A, W1282X, G551D, R553X, S1251N, R560T, 3905insT, Q552X, 394delTT, G85E, E60X, 621 ϩ 1G Ǟ T, R117H, 1078delT, R347P, R334W, 2143delT, 2183AA Ǟ G, 2184delA, 711 ϩ 5G Ǟ A, 2789 ϩ 5G Ǟ A, R1162X, 3659delC, 3849 ϩ 10kbC Ǟ T, and A455E. Login to comment

[hide] Negative genetic neonatal screening for cystic fib... Clin Genet. 2007 Oct;72(4):374-7. Girardet A, Guittard C, Altieri JP, Templin C, Stremler N, Beroud C, des Georges M, Claustres M
Negative genetic neonatal screening for cystic fibrosis caused by compound heterozygosity for two large CFTR rearrangements.
Clin Genet. 2007 Oct;72(4):374-7., [PMID:17850636]

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34 If IRT at day 3 is positive (.65 ng/ml), the card is subjected to an ARMS Elucigen kit (Tepnel) testing for 30 common CF mutations (F508del, Y1092X, 1717-1G.A, G542X, W1282X, N1303K, 3849110kbC.T, 394delTT, 62111G.T, S1251N, G551D, R117H, R1162X, R334W, A455E, 2183AA.G, 3659delC, 1078delT, I507del, R347P, R553X, E60X, 1 8 1 1 11 . Login to comment

[hide] Serum zinc concentrations in cystic fibrosis patie... Biol Trace Elem Res. 2007 Oct;119(1):19-26. Van Biervliet S, Van Biervliet JP, Vande Velde S, Robberecht E
Serum zinc concentrations in cystic fibrosis patients aged above 4 years: a cross-sectional evaluation.
Biol Trace Elem Res. 2007 Oct;119(1):19-26., [PMID:17914215]

Abstract [show]
AIM: Assess the risk of zinc (Zn) deficiency in the older cystic fibrosis (CF) population. METHOD: Cross-sectional investigation of all CF patients above the age of 4 followed at the Ghent University center between 2002 and 2003. Data on age, weight, height z-score, pancreatic and pulmonary functions, chronic Pseudomonas infection, and CF transmembrane conductance regulator (CFTR) mutations were collected. Serum Zn, vitamins (vit) A and E, retinol-binding protein (RBP), albumin, sedimentation rate, total IgG, and cholesterol were determined. Serum Zn was compared with a local healthy control group (Van Biervliet et al., Biol Trace Elem Res 94:33-40, 2003) and with literature data (Hotz C, et al. Am J Clin Nutr 78:756-764, 2003). RESULTS: 101 patients (median age 16 years) were included. There was no difference in serum Zn concentration between CF patients and controls. In CF patients no difference in serum Zn concentration between pancreatic-sufficient or pancreatic-insufficient patients was seen. Serum Zn was not associated to nutritional status or height z-score. A significant association serum Zn to serum albumin (p < 0.0005) and to vit A (p < 0.01) was seen. No associations of serum Zn to serum vit E, RBP, cholesterol, or CFTR were present, but there is a significant association serum Zn to forced vital capacity (p < 0.01). Serum Zn was not associated to inflammatory parameters or chronic Pseudomonas infection. CONCLUSION: Comparison of CF patients with local controls revealed no significant differences. However, because persisting steatorrhea increases Zn loss (Easley et al., J Pediatr Gastroenterol Nutr 26:136-139, 1998) and 12.6% of our population has a serum Zn below the p value of 2.5 of the NHANES II study (Hotz C, et al. Am J Clin Nutr 78:756-764, 2003), there could remain an increased risk of Zn deficiency in some CF patients. Furthermore, the association with pulmonary function needs more investigation.

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73 Table 1 Genotype of the 101 CF Patients: Details of the CF Mutations and Classification into Two Groups Genotype Groups Genotype No of Patients A ΔF508/ΔF508 47 ΔF508/E60X 1 ΔF508/G542X 7 ΔF508/N1303K 3 ΔF508/Q493X 1 ΔF508/1717-1G→A 1 ΔF508/Y1092X 1 ΔF508/394delTT 1 ΔF508/R785X 1 ΔF508/R553X 1 ΔF508/ΔI507 1 394delTT/394delTT 1 N1303K/N1303K 2 B ΔF508/3849+10kbC-T 1 ΔF508/306ΔTAGA 1 ΔF508/S1251N 8 ΔF508/L927P 1 G458V/1717-1G→A 1 ΔF508/I336K 2 G542X/622-2 A→C 1 ΔF508/G970R 3 ΔF508/3272-26A→G 2 ΔF508/R117H 2 ΔF508/2789+5G→A 2 1717-1G->A/S1251N 1 G542X/G970R 1 394delTT/Y913C 1 N1303K/deletion exon 19 1 Unidentified/unidentified 2 3600+2insTA/2005 del T 1 ΔF508/1898+1G→A 1 Deletion exon 2/del exon 2 1 There was no difference according to gender or age. Login to comment

[hide] Clinical phenotype of cystic fibrosis patients wit... QJM. 2009 Nov;102(11):793-8. Epub 2009 Sep 4. Comer DM, Ennis M, McDowell C, Beattie D, Rendall J, Hall V, Elborn JS
Clinical phenotype of cystic fibrosis patients with the G551D mutation.
QJM. 2009 Nov;102(11):793-8. Epub 2009 Sep 4., [PMID:19734299]

Abstract [show]
BACKGROUND: Data on whether the phenotype of cystic fibrosis (CF) patients with compound heterozygocity for G551D (Gly551Asp) differs from patients with F508del (Phe508del) homozygous mutations is divergent. AIM: We hypothesized that CF patients with the G551D mutation would have less severe disease than F508del homozygotes. DESIGN: We compared the clinical phenotype of adult patients with a G551D mutation with adult patients homozygous for F508del and those with the missense mutation R117H (Arg117His). Compound heterozygotes for the G551D and R117H were analysed separately. METHODS: Data were collected for 101 adult CF patients. Group 1-4 represents in order F508del homozygote patients (n = 61), those with the G551D mutation and a more severe mutation (n = 13), those with R117H mutation and a more severe mutation (n = 23) and also those compound for both the R117H and G551D mutations (n = 4). RESULTS: Our findings have shown that adult patients with the G551D mutation and a second severe mutation have a milder clinical phenotype than F508del homozygous adult patients. Higher FEV(1) and body mass index and less impaired glucose tolerance was demonstrated in the patients with G551D and R117H compared to F508del homozygotes. There was a reduced yearly rate of decline of FEV(1) (P < 0.05), infection with Pseudomonas aeruginosa along with reduced burden of care. Compound heterozygosity for G551D and R117H mutations was associated with normal spirometry, body mass index, no chronic infection and no symptoms. CONCLUSION: Mutations on different chromosomes are not independent of each other for the overall impact on the amount of functional CFTR. This study suggests that patients with the G551D mutation and a second severe mutation have a milder clinical phenotype than F508del homozygous patients, but the phenotype is not as mild as patients with the R117H mutation.

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39 Two patients in Group 2 (G551D/621+1G!T, G551D/3659delC) and 1 in Group 3 (R117H/ E60X) were heterozygous with a CFTR mutation other than F508del. Login to comment
62 These alleles cause intron Table 1 Genotype details of the 101 CF patients Group Genotype Patients (n) 1 F508del/F508del 61 2 G551D/F508del 11 G551D/621+1G!T 1 G551D/3659delC 1 3 R117H/F508del 22 R117H/E60X 1 4 G551D/R117H 4 8 to be incorrectly spliced leading to mRNA lacking exon 9 and so a reduced amount of normal CFTR transcript. Login to comment

[hide] Clinical and genetic characteristics of meconium i... J Pediatr Gastroenterol Nutr. 2010 May;50(5):569-72. Gorter RR, Karimi A, Sleeboom C, Kneepkens CM, Heij HA
Clinical and genetic characteristics of meconium ileus in newborns with and without cystic fibrosis.
J Pediatr Gastroenterol Nutr. 2010 May;50(5):569-72., [PMID:20386322]

Abstract [show]
The present study compares the clinical presentation and diagnostic features of meconium ileus (MI) in newborns with and without cystic fibrosis (CF). A retrospective study of 43 patients treated in the Pediatric Surgical Center of Amsterdam was performed. Twenty-three of the patients (53.5%) were diagnosed as having CF. Complex MI was significantly more frequent in patients without CF, and these patients had lower gestational ages and birth weights than patients with CF. All of the patients with complex MI had homozygous DF508 mutations, whereas the patients with simple MI also had other mutations. None of the patients with other mutations had complex MI. Therefore, we conclude that the clinical entity of MI represents a spectrum of underlying pathologies.

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25 The mutations tested for include the most common mutations DF508, F508C, G542X, R553X, N1303K, R1162X, and E60X, which represent 94% to 98% of the known mutations in the CFTR gene and are found in more than 99% of the Dutch population with CF. Login to comment

[hide] Identification of the second CFTR mutation in pati... Asian J Androl. 2010 Nov;12(6):819-26. Epub 2010 Jul 26. Giuliani R, Antonucci I, Torrente I, Grammatico P, Palka G, Stuppia L
Identification of the second CFTR mutation in patients with congenital bilateral absence of vas deferens undergoing ART protocols.
Asian J Androl. 2010 Nov;12(6):819-26. Epub 2010 Jul 26., [PMID:20657600]

Abstract [show]
Congenital bilateral absence of vas deferens (CBAVD) is a manifestation of the mildest form of cystic fibrosis (CF) and is characterized by obstructive azoospermia in otherwise healthy patients. Owing to the availability of assisted reproductive technology, CBAVD patients can father children. These fathers are at risk of transmitting a mutated allele of the CF transmembrane conductance regulator (CFTR) gene, responsible for CF, to their offspring. The identification of mutations in both CFTR alleles in CBAVD patients is a crucial requirement for calculating the risk of producing a child with full-blown CF if the female partner is a healthy CF carrier. However, in the majority of CBAVD patients, conventional mutation screening is not able to detect mutations in both CFTR alleles, and this difficulty hampers the execution of correct genetic counselling. To obtain information about the most represented CFTR mutations in CBAVD patients, we analysed 23 CBAVD patients, 15 of whom had a single CFTR mutation after screening for 36 mutations and the 5T allele. The search for the second CFTR mutation in these cases was performed by using a triplex approach: (i) first, a reverse dot-blot analysis was performed to detect mutations with regional impact; (ii) next, multiple ligation-dependent probe amplification assays were conducted to search for large rearrangements; and (iii) finally, denaturing high-performance liquid chromatography was used to search for point mutations in the entire coding region. Using these approaches, the second CFTR mutation was detected in six patients, which increased the final detection rate to 60.8%.

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58 INNO-LiPA CFTR19 INNO-LiPA CFTR17 INNO-LiPA CFTR Italian regional [delta]F508 621+1G>T 1259insA G542X 3849+10kbC>T 4016insT N1303K 2183AA>G 4382delA W1282X 394delTT 852del22 G551D 2789+5G> A R1162X D579G 1717-1G>A 3659delC G1244E R553X R117H G1349D CFTRdele2,3 (21 kb) R334W I502T [delta]I507 R347P L1065P 711+1G>T G85E R1158X 3272-26A>G 3905insT 1078delT T338I R560T A455E S549R(A>C) 1898+1G>A S1251N 2143delA 711+5G>A 991del5 I148T E60X D1152H 3199del6 3120+1G>A 2184delA 1898+3A>G, R1070Q Q552X Poli-T tract variations R1066H R347H 621+3A>G R334Q E217G Abbreviation: CFTR, cystic fibrosis transmembrane conductance regulator. Login to comment

[hide] Mutations that permit residual CFTR function delay... Respir Res. 2010 Oct 8;11:140. Green DM, McDougal KE, Blackman SM, Sosnay PR, Henderson LB, Naughton KM, Collaco JM, Cutting GR
Mutations that permit residual CFTR function delay acquisition of multiple respiratory pathogens in CF patients.
Respir Res. 2010 Oct 8;11:140., [PMID:20932301]

Abstract [show]
BACKGROUND: Lung infection by various organisms is a characteristic feature of cystic fibrosis (CF). CFTR genotype effects acquisition of Pseudomonas aeruginosa (Pa), however the effect on acquisition of other infectious organisms that frequently precede Pa is relatively unknown. Understanding the role of CFTR in the acquisition of organisms first detected in patients may help guide symptomatic and molecular-based treatment for CF. METHODS: Lung infection, defined as a single positive respiratory tract culture, was assessed for 13 organisms in 1,381 individuals with CF. Subjects were divided by predicted CFTR function: 'Residual': carrying at least one partial function CFTR mutation (class IV or V) and 'Minimal' those who do not carry a partial function mutation. Kaplan-Meier estimates were created to assess CFTR effect on age of acquisition for each organism. Cox proportional hazard models were performed to control for possible cofactors. A separate Cox regression was used to determine whether defining infection with Pa, mucoid Pa or Aspergillus (Asp) using alternative criteria affected the results. The influence of severity of lung disease at the time of acquisition was evaluated using stratified Cox regression methods by lung disease categories. RESULTS: Subjects with 'Minimal' CFTR function had a higher hazard than patients with 'Residual' function for acquisition of 9 of 13 organisms studied (HR ranging from 1.7 to 3.78 based on the organism studied). Subjects with minimal CFTR function acquired infection at a younger age than those with residual function for 12 of 13 organisms (p-values ranging: < 0.001 to 0.017). Minimal CFTR function also associated with younger age of infection when 3 alternative definitions of infection with Pa, mucoid Pa or Asp were employed. Risk of infection is correlated with CFTR function for 8 of 9 organisms in patients with good lung function (>90%ile) but only 1 of 9 organisms in those with poorer lung function (<50%ile). CONCLUSIONS: Residual CFTR function correlates with later onset of respiratory tract infection by a wide spectrum of organisms frequently cultured from CF patients. The protective effect conferred by residual CFTR function is diminished in CF patients with more advanced lung disease.

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74 For Pa, the hazard ratio Table 1 Classification of CFTR alleles Category Mutation Specific mutations Class I Defective Protein Synthesis (nonsense, frameshift, aberrant splicing) 1078delT, 1154 insTC, 1525-2A > G, 1717-1G > A, 1898+1G > A, 2184delA, 2184 insA, 3007delG, 3120+1G > A, 3659delC, 3876delA, 3905insT, 394delTT, 4010del4, 4016insT, 4326delTC, 4374+1G > T, 441delA, 556delA, 621+1G > T, 621-1G > T, 711+1G > T, 875+1G > C, E1104X, E585X, E60X, E822X, G542X, G551D/R553X, Q493X, Q552X, Q814X, R1066C, R1162X, R553X, V520F, W1282X, Y1092X Class II Abnormal Processing and Trafficking A559T, D979A, ΔF508, ΔI507, G480C, G85E, N1303K, S549I, S549N, S549R Class III Defective Channel Regulation/Gating G1244E, G1349D, G551D, G551S, G85E, H199R, I1072T, I48T, L1077P, R560T, S1255P, S549 (R75Q) Class IV Decreased Channel Conductance A800G, D1152H, D1154G, D614G, delM1140, E822K, G314E, G576A, G622D, G85E, H620Q, I1139V, I1234V, L1335P, M1137V, P67L, R117C, R117P, R117H, R334W, R347H, R347P, R347P/ R347H, R792G, S1251N, V232D Class V Reduced Synthesis and/or Trafficking 2789+5G > A, 3120G > A, 3272-26A > G, 3849+10kbC > T, 5T variant, 621+3A > G, 711+3A > G, A445E, A455E, IVS8 poly T, P574H was increased 3 fold for those with 'Minimal` function when compared to those with 'Residual` function. Login to comment

[hide] An overview of international literature from cysti... J Cyst Fibros. 2011 Mar;10(2):71-85. Epub 2011 Jan 22. Salvatore D, Buzzetti R, Baldo E, Forneris MP, Lucidi V, Manunza D, Marinelli I, Messore B, Neri AS, Raia V, Furnari ML, Mastella G
An overview of international literature from cystic fibrosis registries. Part 3. Disease incidence, genotype/phenotype correlation, microbiology, pregnancy, clinical complications, lung transplantation, and miscellanea.
J Cyst Fibros. 2011 Mar;10(2):71-85. Epub 2011 Jan 22., [PMID:21257352]

Abstract [show]
This is the third article related to a review of the literature based on data from national cystic fibrosis (CF) patient registries up to June 2008 and covering a total of 115 published studies. It focuses on several topics: CF incidence, genotype/phenotype correlation, microbiology, pregnancy/paternity, clinical complications, lung transplantation, and others. Seventy seven papers meeting the inclusion criteria were found to be related to the topics listed above. Another seven studies, already evaluated in previous papers of this series, were recalled for specific topics. Incidence is described by several studies, results being quite different from one country to another and quite inhomogeneous among regions within the same country. Studies on genetics address the genotype/phenotype correlation and look for a predictive value of CFTR mutations in terms of clinical outcome, with controversial results. Papers on microbiology describe the clinical relevance of different pathogens and their role in the progress of CF lung disease. A few articles give information on the features of CF women undergoing a pregnancy and try to identify the ones associated with a better outcome. Studies on clinical complications discuss prevalence and the role of haemoptysis, pneumothorax, CF related diabetes, ABPA and cancer. Papers on lung transplantation focus on models able to improve the selection criteria for transplantation candidates and the factors linked to post transplantation survival. Finally, several studies deal with a number of interesting topics related to CF epidemiology: clinical trial methodology, quality of care comparison among countries and centers, relationship between diagnosis and age/gender, and evaluation of pharmacological therapy. On the whole, CF Registries have already contributed to important advances in the knowledge of the natural history of CF, establishing the foundations for future improvement in CF research and care.

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1256 Finally, 4 studies evaluated the genotype-phenotype correlation for rare mutations (E60X, W486X, Y122X, 3849+10KbCNT and 2789+5 GNA) [27-30]. Login to comment

[hide] Association between genotype and pulmonary phenoty... J Cyst Fibros. 2011 May;10(3):187-92. doi: 10.1016/j.jcf.2011.01.005. Epub 2011 Feb 26. Geborek A, Hjelte L
Association between genotype and pulmonary phenotype in cystic fibrosis patients with severe mutations.
J Cyst Fibros. 2011 May;10(3):187-92. doi: 10.1016/j.jcf.2011.01.005. Epub 2011 Feb 26., [PMID:21354377]

Abstract [show]
BACKGROUND: Despite numerous studies a clear relationship between genotype and pulmonary phenotype has not been established within the group pancreatic insufficient cystic fibrosis (CF) patients. We studied the relationship between class I and class II mutations and pulmonary function in Swedish patients with known CFTR functional classification. METHODS: 170 CF patients with two class II mutations, 18 with two class I mutations and 78 with a combination of class I and II mutations were included in the study. Spirometry was performed when patients were in an optimal clinical condition. RESULTS: Patients with two class I mutations had lower lung function (FEV(1) and FVC) compared to the group with either a combination of class I and II mutations or two class II mutations. CONCLUSION: CF patients carrying two class I mutations risk developing more severe lung disease compared to patients with at least one class II mutation.

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95 Class I/class I Class I/class II Class II/class II 1717-1 G-NA/1717-1 G-NA n=1 3659delC/S945L n=1 F508del/F508del n=165 3659delC/3659delC n=5 3659delC/F508del n=23 F508del/S945L n=5 3659delC/394delTT n=7 394delTT/F508del n=38 394delTT/394delTT n=4 621+1 G-NT/F508del n=6 R553X/E60X n=1 E60X/F508del n=4 G542X/F508del n=1 R553X/F508del n=2 W79R/F508del n=1 W1282X/F508del n=1 1717-1 G-NA/F508del n=1 Total 18 78 170 The other class combinations are not shown. Login to comment
98 Class I Class II Class III Class IV Class V 1717-1 G-NA F508del G551D 297 C-NA 2789+5 G-NA 3659delC S945L R560T R117C 3849+10 kb CNT 394delTT R347P A455E R553X T 3381 3849+10 kb C-T 621+1 G-NT E60X G542X W79R W1282X decline of pulmonary function was more rapid in patients with pancreatic insufficiency, mainly class II mutations, compared to CF patients with normal pancreatic function [4]. Login to comment

[hide] Mutations of the cystic fibrosis gene in patients ... N Engl J Med. 1998 Sep 3;339(10):645-52. Sharer N, Schwarz M, Malone G, Howarth A, Painter J, Super M, Braganza J
Mutations of the cystic fibrosis gene in patients with chronic pancreatitis.
N Engl J Med. 1998 Sep 3;339(10):645-52., 1998-09-03 [PMID:9725921]

Abstract [show]
BACKGROUND: The pancreatic lesions of cystic fibrosis develop in utero and closely resemble those of chronic pancreatitis. Therefore, we hypothesized that mutations of the cystic fibrosis transmembrane conductance regulator (CFTR) gene may be more common than expected among patients with chronic pancreatitis. METHODS: We studied 134 consecutive patients with chronic pancreatitis (alcohol-related disease in 71, hyperparathyroidism in 2, hypertriglyceridemia in 1, and idiopathic disease in 60). We examined DNA for 22 mutations of the CFTR gene that together account for 95 percent of all mutations in patients with cystic fibrosis in the northwest of England. We also determined the length of the noncoding sequence of thymidines in intron 8, since the shorter the sequence, the lower the proportion of normal CFTR messenger RNA. RESULTS: The 94 male and 40 female patients ranged in age from 16 to 86 years. None had a mutation on both copies of the CFTR gene. Eighteen patients (13.4 percent), including 12 without alcoholism, had a CFTR mutation on one chromosome, as compared with a frequency of 5.3 percent among 600 local unrelated partners of persons with a family history of cystic fibrosis (P<0.001). A total of 10.4 percent of the patients had the 5T allele in intron 8 (14 of 134), which is twice the expected frequency (P=0.008). Four patients were heterozygous for both a CFTR mutation and the 5T allele. Patients with a CFTR mutation were younger than those with no mutations (P=0.03). None had the combination of sinopulmonary disease, high sweat electrolyte concentrations, and low nasal potential-difference values that are diagnostic of cystic fibrosis. CONCLUSIONS: Mutations of the CFTR gene and the 5T genotype are associated with chronic pancreatitis.

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32 DNA Studies We extracted DNA from buccal cells obtained by having the patients rinse their mouths with 10 ml of 4 percent sucrose.19 The CFTR locus was examined for the 22 mutations that together account for 95 percent of all such mutations in patients with cystic fibrosis in the northwest of England.20 The amplification- refractory mutation system Elucigene CF(4)m kit (Zeneca Diagnostics, Macclesfield, United Kingdom) was used to detect the four most common mutations: ∆F508, G551D, G542X, and 621+1(G→T)21; the polymerase chain reaction, restriction-enzyme analysis, and allele-specific oligonucleotide hybridization facilitated the detection of R560T, R117H, 1898+1(G→A), R553X, S549N, 1717¡1(G→A), N1303K, W1282X, E60X, 1154insTC, R347P, 3659delC, Q493X, V520F, R334W, ∆I507, 3849+10Kb(C→T), and 1078delT. Login to comment

[hide] Outcomes of a cystic fibrosis carrier testing clin... Med J Aust. 2009 Nov 2;191(9):499-501. Christie LM, Ingrey AJ, Turner GM, Proos AL, Watts GE
Outcomes of a cystic fibrosis carrier testing clinic for couples.
Med J Aust. 2009 Nov 2;191(9):499-501., 2009-11-02 [PMID:19883345]

Abstract [show]
OBJECTIVE: To review the outcomes of offering carrier testing for cystic fibrosis (CF) to couples considering pregnancy, and to women in early pregnancy and their partners. METHODS: An after-hours clinic was established in Newcastle for discussion of issues related to prenatal testing. Couples were offered CF carrier testing by extracting DNA from a mouthwash sample. An expanded one-step model was used with both partners being tested initially for the p.F508del cystic fibrosis transmembrane conductance regulator gene (CFTR) mutation. If one partner was a p.F508del carrier, the other partner was tested for an additional 28 CFTR mutations. RESULTS: Of 1000 individuals who were offered CF carrier testing, none declined. No re-collections of mouthwash samples were required, and results were available within 14 days. There were 730 individuals who had no family history of CF (73%); 27 were carriers (4%; 95% CI, 2.4%-5.3%), and there were two high-risk couples where both partners were carriers of p.F508del. There were 270 individuals who had an affected family member with CF or a child identified as a CF carrier through newborn screening; 126 were carriers (46%; 95% CI, 40.6%-52.8%), and there were two high-risk couples - one couple where both partners were carriers of p.F508del, and another couple where the woman was homozygous for p.F508del and the man was a p.F508del carrier. The information on carrier status led the four high-risk couples to change their reproductive decisions to avoid having a child with CF. CONCLUSION: CF carrier testing for couples using an expanded one-step model will detect about 80% of high-risk couples and enables various reproductive choices. We believe that all couples considering pregnancy, and women in early pregnancy and their partners, should be offered CF carrier testing.

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72 This provides each individual with information on their carrier status, and accurate residual risks of 1 CFTR mutations tested for in individuals whose partner was a carrier of p.F508del* p.F508del p.F316leufsX p.I507del p.R347P p.G542X p.S1251N p.G551D p.E60X p.N1303K p.W1282X c.1585-1G>A p.D1152H p.R553X c.2988+1G>A c.489+G>T c.2657+5G>A p.R117H c.1766+1G>A p.R1162X c.579+1G>A c.3717+10kbC>T p.G85E p.R334W p.K684fs p.A455E p.I148T p.K684fs p.R560T p.T1176fs CFTR = gene encoding cystic fibrosis transmembrane conductance regulator. Login to comment

[hide] Cystic fibrosis in Chilean patients: Analysis of 3... J Cyst Fibros. 2011 Jan;10(1):66-70. Epub 2010 Oct 30. Lay-Son G, Puga A, Astudillo P, Repetto GM
Cystic fibrosis in Chilean patients: Analysis of 36 common CFTR gene mutations.
J Cyst Fibros. 2011 Jan;10(1):66-70. Epub 2010 Oct 30., [PMID:21036675]

Abstract [show]
BACKGROUND: CFTR gene mutations have worldwide differences in prevalence and data on Chilean patients is scarce. METHODS: We studied 36 of the most common CFTR mutations in Chilean patients from the CF National Program [Programa Nacional de Fibrosis Quistica (PNFQ)] of the Ministry of Health of Chile. RESULTS: Two hundred and eighty-nine patients were studied. Fourteen different mutations were identified with an overall allele detection rate of 42.0%. Mutations with frequencies greater than 1% were p.F508del (30.3% of alleles), p.R334W (3.3%), p.G542X (2.4%), c.3849+10Kb C>T (1.7%), and p.R553X (1.2%). A north to south geographical gradient was observed in the overall rate of detection. CONCLUSIONS: Southern European CFTR mutations predominate in the Chilean population, but a high percentage of alleles remain unknown. Geographical heterogeneity could be explained in part by admixture. Complementary analyses are necessary to allow for effective genetic counselling and improve cost-effectiveness of screening and diagnostic tests.

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81 Mutation This study Rios et al. [4] Molina et al. [5] Repetto et al. [6] Perez et al. [13] CFGAC [2] (n=578) (%) (n=72) (%) (n=36) (%) (n=100) (%) (n=4102) (%) (n=43,849) (%) Chile Chile Chile Chile Latin-Americaa Worldwide Unknown 58.0 66.6 61.1 34.0 36.7 22.7 p.F508del 30.6 29.2 30.6 45.0 47.1 66.0 p.R334W 3.1 - - 2.0 0.8 0.1 p.G542X 2.4 0 8.3 7.0 5.0 2.4 c.3849+10Kb CNT 1.7 - - 3.0 0.3 0.2 p.R553X 1.2 4.2 0 1.0 0.4 0.7 p.R1162X 0.9 - - 2.0 1.0 0.3 p.1078delT 0.5 - - 0 b0.1 0.1 p.G85E 0.5 - - - 0.8 0.2 p.W1282X 0.2 - - 5.0 1.0 1.2 c.3120+1 GNA 0.2 - - - 0.3 - c.711+1 GNT 0.2 - - - 0.1 0.1 p.R117H 0.2 - - 0 b0.1 0.3 p.A455E 0.2 - - 0 0 0.1 p.I148T 0.2 - - - - - p.G551D 0 0 0 1.0 0.1 1.6 p.N1303K 0 0 0 0 1.8 1.3 c.621+1 GNT 0 - - 0 0.2 0.7 c.1717-1 GNA 0 - - 0 0.3 0.6 p.I507del 0 - - 0 0.2 0.2 p.R347P 0 - - 0 0 0.2 c.2789+5 GNA 0 - - - 0.2 0.1 c.1898+1 GNA 0 - - - 0.1 0.1 c.2184delA 0 - - - b0.1 0.1 p.S549N 0 - 0 - 0.1 0.1 c.3659delC 0 - - 0 0.1 0.1 p.R560T 0 - - - 0 0.1 c.1811+1.6Kb ANG 0 - - - 0.4 - c.2183AANG 0 - - 0 0.1 - p.S549R 0 - - - 0.1 - c.3272-26 ANG 0 - - - 0.1 - c.3199del6 0 - - - b0.1 - p.E60X 0 - - 0 0 - c.3905insT 0 - - - 0 - p.S1251N 0 - - 0 - - CFTRdele2,3 0 - - - - - p.R347H 0 - - - - - p.V520F 0 - - - - - p.Q552X 0 - - - - - c.394delTT 0 - - - - - c.711+1 GNA 0 - - - - - c.2143delT 0 - - - - - c.3876delA 0 - - - - - a Data from Chilean patients published in Rios et al., Molina et al., and Repetto et al. [4-6] included in this publication were excluded in this table to avoid repetition. Login to comment

[hide] Cystic fibrosis transmembrane conductance regulato... J Cyst Fibros. 2012 Sep;11(5):355-62. doi: 10.1016/j.jcf.2012.05.001. Epub 2012 Jun 2. Ooi CY, Durie PR
Cystic fibrosis transmembrane conductance regulator (CFTR) gene mutations in pancreatitis.
J Cyst Fibros. 2012 Sep;11(5):355-62. doi: 10.1016/j.jcf.2012.05.001. Epub 2012 Jun 2., [PMID:22658665]

Abstract [show]
BACKGROUND: The pancreas is one of the primary organs affected by dysfunction of the cystic fibrosis transmembrane conductance regulator (CFTR) protein. While exocrine pancreatic insufficiency is a well-recognized complication of cystic fibrosis (CF), symptomatic pancreatitis is often under-recognized. RESULTS: The aim of this review is to provide a general overview of CFTR mutation-associated pancreatitis, which affects patients with pancreatic sufficient CF, CFTR-related pancreatitis, and idiopathic pancreatitis. The current hypothesis regarding the role of CFTR dysfunction in the pathogenesis of pancreatitis, and concepts on genotype-phenotype correlations between CFTR and symptomatic pancreatitis will be reviewed. Symptomatic pancreatitis occurs in 20% of pancreatic sufficient CF patients. In order to evaluate genotype-phenotype correlations, the Pancreatic Insufficiency Prevalence (PIP) score was developed and validated to determine severity in a large number of CFTR mutations. Specific CFTR genotypes are significantly associated with pancreatitis. Patients who carry genotypes with mild phenotypic effects have a greater risk of developing pancreatitis than patients carrying genotypes with moderate-severe phenotypic consequences at any given time. CONCLUSIONS: The genotype-phenotype correlation in pancreatitis is unique compared to other organ manifestations but still consistent with the complex monogenic nature of CF. Paradoxically, genotypes associated with otherwise mild phenotypic effects have a greater risk for causing pancreatitis; compared with genotypes associated with moderate to severe disease phenotypes. Greater understanding into the underlying mechanisms of disease is much needed. The emergence of CFTR-assist therapies may potentially play a future role in the treatment of CFTR-mutation associated pancreatitis.

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855 CFTR mutation Total PI Total PI + PS PIP score CFTR mutation Total PI Total PI + PS PIP score 621+1G>T 96 96 1.00 G542X 74 75 0.99 711+1G>T 36 36 1.00 F508del 1276 1324 0.96 I507del 34 34 1.00 1717-1G>A 20 21 0.95 R553X 24 24 1.00 W1282X 19 20 0.95 Q493X 11 11 1.00 N1303K 45 48 0.94 S489X 11 11 1.00 R1162X 12 13 0.92 1154insTC 10 10 1.00 Y1092X 12 13 0.92 3659delC 9 9 1.00 I148T 10 11 0.91 CFTRdele2 7 7 1.00 V520F 9 10 0.90 4016insT 7 7 1.00 G551D 59 67 0.88 E60X 7 7 1.00 L1077P 5 6 0.83 R560T 7 7 1.00 R1066C 5 6 0.83 R1158X 7 7 1.00 2184insA 9 12 0.75 3905insT 6 6 1.00 2143delT 3 4 0.75 I148T;3199del6 5 5 1.00 1161delC 3 4 0.75 2183AA>G 5 5 1.00 3120+1G>A 3 4 0.75 1898+1G>A 5 5 1.00 S549N 3 4 0.75 2347delG 4 4 1.00 G85E 16 22 0.73 Q1313X 3 3 1.00 R117C 2 3 0.67 Q220X 3 3 1.00 M1101K 19 30 0.63 2184delA 3 3 1.00 P574H 3 5 0.60 1078delT 3 3 1.00 474del13BP 1 2 0.50 L1254X 3 3 1.00 R352Q 1 2 0.50 E585X 3 3 1.00 Q1291H 1 2 0.50 3876delA 2 2 1.00 A455E 18 37 0.49 S4X 2 2 1.00 R347P 6 15 0.40 R1070Q 2 2 1.00 2789+5G>A 6 16 0.38 F508C 2 2 1.00 L206W 6 18 0.33 DELI507 2 2 1.00 IVS8-5T 4 16 0.25 Q1411X 2 2 1.00 3272-26A>G 1 4 0.25 365-366insT 2 2 1.00 R334W 1 10 0.10 R709X 2 2 1.00 3849+10kbC>T 2 22 0.09 1138insG 2 2 1.00 P67L 1 14 0.07 CFTRdele2-4 2 2 1.00 R117H 1 25 0.04 3007delG 2 2 1.00 R347H 0 5 0.00 Q814X 2 2 1.00 G178R 0 3 0.00 394delTT 2 2 1.00 E116K 0 2 0.00 406-1G>A 2 2 1.00 875+1G>C 0 2 0.00 R75X 2 2 1.00 V232D 0 2 0.00 CFTRdel2-3 2 2 1.00 D579G 0 2 0.00 E193X 2 2 1.00 L1335P 0 2 0.00 185+1G>T 2 2 1.00 Mild mutations (based on PIP scores) are shaded in gray. 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] Prospective and parallel assessments of cystic fib... Eur J Pediatr. 2012 Aug;171(8):1223-9. Epub 2012 May 12. Krulisova V, Balascakova M, Skalicka V, Piskackova T, Holubova A, Paderova J, Krenkova P, Dvorakova L, Zemkova D, Kracmar P, Chovancova B, Vavrova V, Stambergova A, Votava F, Macek M Jr
Prospective and parallel assessments of cystic fibrosis newborn screening protocols in the Czech Republic: IRT/DNA/IRT versus IRT/PAP and IRT/PAP/DNA.
Eur J Pediatr. 2012 Aug;171(8):1223-9. Epub 2012 May 12., [PMID:22581207]

Abstract [show]
Cystic fibrosis (CF) is a life-threatening disease for which early diagnosis following newborn screening (NBS) improves the prognosis. We performed a prospective assessment of the immunoreactive trypsinogen (IRT)/DNA/IRT protocol currently in use nationwide, versus the IRT/pancreatitis-associated protein (PAP) and IRT/PAP/DNA CF NBS protocols. Dried blood spots (DBS) from 106,522 Czech newborns were examined for IRT concentrations. In the IRT/DNA/IRT protocol, DNA-testing was performed for IRT >/= 65 ng/mL. Newborns with IRT >/= 200 ng/mL and no detected cystic fibrosis transmembrane conductance regulator gene (CFTR) mutations were recalled for a repeat IRT. In the same group of newborns, for both parallel protocols, PAP was measured in DBS with IRT >/= 50 ng/mL. In PAP-positive newborns (i.e., >/=1.8 if IRT 50-99.9 or >/=1.0 if IRT >/= 100, all in ng/mL), DNA-testing followed as part of the IRT/PAP/DNA protocol. Newborns with at least one CFTR mutation in the IRT/DNA/IRT and IRT/PAP/DNA protocols; a positive PAP in IRT/PAP; or a high repeat IRT in IRT/DNA/IRT were referred for sweat testing. CONCLUSION: the combined results of the utilized protocols led to the detection of 21 CF patients, 19 of which were identified using the IRT/DNA/IRT protocol, 16 using IRT/PAP, and 15 using IRT/PAP/DNA. Decreased cut-offs for PAP within the IRT/PAP protocol would lead to higher sensitivity but would increase false positives. Within the IRT/PAP/DNA protocol, decreased PAP cut-offs would result in high sensitivity, an acceptable number of false positives, and would reduce the number of DNA analyses. Thus, we concluded that the IRT/PAP/DNA protocol would represent the most suitable protocol in our conditions.

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81 According to the protocol, this result indicated the sequencing of the Table 1 Parallel comparison of CF NBS protocols IRT/DNAa /IRT IRT/PAP IRT/PAP/DNAa Newborns screened (N) 106,522 106,522 106,522 IRT positives (N; %) 1,158 (1.09) 3,155 (2.96) 3,155 (2.96) PAP positives (N; %) - 260 (0.24) 260 (0.24) Median age (range) at the availability of DNA-testinga results (days) 36 (9-222b ) - 36 (9-222b ) 1 and/or 2 CF mutations detected (N; %) 76 (0.07) - 27 (0.03) Recalled newborns for repeated IRT examination (N; %) 47 (0.04) - - Positive CF NBS (N; %) 123 (0.12) 260 (0.24) 27 (0.03) Positive IRT in newborns recalled for repeated examination (N) 1 - - ST indicated (N; %) 77 (0.07) 260 (0.24) 27 (0.03) ST carried out (N; % of indicated ST) 72c (93.51) 204c (78.46) 24c (88.89) CF carriers (N) 55 - 12 Prevalence of CF carriers 1 in 21 - 1 in 22 Diagnosed CF patients (N) 19 16 15 False positives based on performed ST (N; % of all cases screened) 99d (0.09) 188 (0.18) 9 (0.01) Newborns with equivocal diagnosis [F508del/R117H-IVS-8 T(7) and ST<30 mmol/L; N] 2 - 0 False negatives (N) 2 5 6 Total of CF patients detected (N) 21e Median age (range) at diagnosis (days) 36 (9-57)e CF prevalence 1 in 5,072e Sensitivity (TP/TP+FN) 0.9048 0.7619 0.7142 Specificity (TN/TN+FP) 0.9991 0.9982 0.9999 PPV (TP/TP+FP) 0.1610 0.0784 0.625 N number, % of all cases screened, TP true positives, FN false negatives, TN true negatives, FP false positives, PPV positive predictive value, ST sweat test a CF-causing mutations covered by Elucigene assays ("legacy" nomenclature) with the CF-EU1Tm accounting for: p.Arg347Pro (R347P), c.2657+ 5G>A (2789+5G>A), c.2988+1G>A (3120+1G>A), c.579+1G>T (711+1G>T), p.Arg334Trp (R334W), p.Ile507del (I507del), p.Phe508del (F508del), c.3718-2477C>T (3849+10kbC>T), p.Phe316LeufsX12 (1078delT), p.Trp1282X (W1282X), p.Arg560Thr (R560T), p.Arg553X (R553X), p.Gly551Asp (G551D), p.Met1101Lys (M1101K), p.Gly542X (G542X), p.Leu1258PhefsX7 (3905insT), p.Ser1251Asn (S1251N), c.1585-1G>A (1717-1G>A), p.Arg117His (R117H), p.Asn1303Lys (N1303K), p.Gly85Glu (G85E), c.1766+1G>A (1898+1G>A), p.Lys684AsnfsX38 (2184delA), p.Asp1152His (D1152H), c.54-5940_273+10250del (CFTRdele2,3), p.Pro67Leu (P67L), p.Glu60X (E60X), p.Lys1177SerfsX15 (3659delC), c.489+1G>T (621+1G>T), p.Ala455Glu (A455E), p.Arg1162X (R1162X), p.Leu671X (2143delT), c.1210-12T[n] (IVS8-T(n) variant), including additional mutations in the CF-EU2Tm : p.Gln890X (Q890X), p.Tyr515X (1677delTA), p.Val520Phe (V520F), c.3140-26A>G (3272-26A>G), p.Leu88IlefsX22 (394delTT), p.Arg1066Cys (R1066C), p.Ile105SerfsX2 (444delA), p.Tyr1092X (C>A) (Y1092X(C>A)), p.Arg117Cys (R117C), p.Ser549Asn (S549N), p.Ser549ArgT>G (S549R T>G), p.Tyr122X (Y122X), p.Arg1158X (R1158X), p.Leu206Trp (L206W), c.1680-886A>G (1811+1.6kbA>G), p.Arg347His (R347H), p.Val739TyrfsX16 (2347delG) and p.Trp846X (W846X) b failed DNA isolation from DBS, including repetition of DNA-testing c deceased patient or non-compliance with referrals (five CF carriers in IRT/DNA/IRT, 56 newborns in IRT/PAP, three CF carriers in IRT/PAP/DNA) d comprising newborns with repeated IRT (47 newborns) e aggregate data from all protocols entire CFTR coding region in both newborns, and led to the identification of p.Ile336Lys (I336K) and p.Glu1104Lys (E1104K) mutations. Login to comment

[hide] Improving test properties for neonatal cystic fibr... J Inherit Metab Dis. 2012 Jul;35(4):635-40. Cornel MC, Gille JJ, Loeber JG, Vernooij-van Langen AM, Dankert-Roelse J, Bolhuis PA
Improving test properties for neonatal cystic fibrosis screening in the Netherlands before the nationwide start by May 1st 2011.
J Inherit Metab Dis. 2012 Jul;35(4):635-40., [PMID:22302635]

Abstract [show]
When new technical possibilities arise in health care, often attunement is needed between different actors from the perspectives of research, health care providers, patients, ethics and policy. For cystic fibrosis (CF) such a process of attunement in the Netherlands started in a committee of the Health Council on neonatal screening in 2005. In the balancing of pros and cons according to Wilson and Jungner criteria, the advantages for the CF patient were considered clear, even though CF remains a severe health problem with treatment. Nevertheless, screening was not started then, mainly since the specificity of the tests available at that time was considered too low. Many healthy infants would have been referred for sweat testing and much uncertainty would arise in their parents. Also the limited sensitivity for immigrants and the detection of less severe phenotypes and carriers were considered problematic. The Health Council recommended a pilot screening project which was subsequently performed in some provinces, leading to a 4-step protocol: IRT, PAP, screening for a CFTR mutation panel, and sequencing of the CFTR gene. This would lead to the identification of 23 cases of classical CF, two infants with less severe forms and 12 carriers per year in the Netherlands. Thus many CF patients can be diagnosed early, while limiting the number of referrals, the number of infants with less severe forms diagnosed and the number of carriers identified. Technical solutions were found to limit the ethical problems. A nationwide program using this four step protocol started by 1 May 2011.

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69 This protocol was expected to identify 25 CF patients on an annual basis, additional to four infants already diagnosed because of meconium ileus (Health Council of 1 Using the LiPA test (INNO-LiPA CFTR 19 en INNO-LiPA CFTR 17+Tn; Innogenetics, Gent, Belgium) the following CFTR mutations can be detected: exon 2-3del (21 kb), 394delTT, E60X, G85E, R117H, 621+1G>T, 711+1G>T, 711+5G>A, 1078delT, R334W, R347P, A455E, I507del, F508del, 1717-1G>A, G542X, G551D, Q552X, R553X, R560T, 1898+1G>A, 2143delT, 2183AA>G, 2184delA, 2789+5G>A, 3120+1G>A, 3199del6, 3272-26A>G, 3659delC, R1162X, 3849+10kbC>T, 3905insT, S1251N, W1282X en N1303K. Login to comment
70 This test also identifies the CFTR polymorphism Tn in intron 8 which is important in cases where the mutation R117H is detected. Login to comment

[hide] Novel strategies in newborn screening for cystic f... Thorax. 2012 Apr;67(4):289-95. Epub 2012 Jan 23. Vernooij-van Langen AM, Loeber JG, Elvers B, Triepels RH, Gille JJ, Van der Ploeg CP, Reijntjens S, Dompeling E, Dankert-Roelse JE
Novel strategies in newborn screening for cystic fibrosis: a prospective controlled study.
Thorax. 2012 Apr;67(4):289-95. Epub 2012 Jan 23., [PMID:22271776]

Abstract [show]
CONTEXT: Newborn screening for cystic fibrosis (CF) is included in many routine programmes but current strategies have considerable drawbacks, such as false-positive tests, equivocal diagnosis and detection of carriers. OBJECTIVE: To assess the test performance of two newborn screening strategies for CF. DESIGN, SETTING AND PARTICIPANTS: In 2008 and 2009, CF screening was added to the routine screening programme as a prospective study in part of The Netherlands. INTERVENTIONS: Two strategies were performed in all newborns. In the first strategy, concentrations of immunoreactive trypsinogen (IRT) and pancreatitis-associated protein (PAP) were measured. In the second method, samples with IRT >/=60 mug/litre were analysed for 36 CFTR mutations, followed by sequencing when a single mutation was detected. Tests were positive only with two identified CFTR mutations. MAIN OUTCOME: Sensitivity, specificity and positive predictive value (PPV) of both screening strategies. RESULTS: 145,499 infants were screened. The IRT/PAP approach showed a sensitivity of 95.0%, a specificity of 99.897% and a PPV of 12.3%. Test properties for the IRT/DNA/sequencing strategy were respectively 100%, 100% and 64.9%. Combining both strategies (IRT/PAP/DNA/sequencing) led to a sensitivity of 95.0%, a specificity of 100% and a PPV of 87.5%. CONCLUSION: In conclusion, all strategies performed well. Although there was no statistically significant difference in test performance, the IRT/DNA/sequencing strategy detected one infant that was missed by IRT/PAP (/DNA/sequencing). IRT/PAP may be the optimal choice if the use of DNA technology must be avoided. If identification of carriers and equivocal diagnosis is considered an important disadvantage, IRT/PAP/DNA/sequencing may be the best choice.

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136 CF, cystic fibrosis; IRT, immunoreactive trypsinogen; PAP, pancreatitis-associated protein. Table 3 Immunoreactive trypsinogen and pancreatitis-associated protein concentrations, CFTR gene mutation analysis and sweat tests for all infants with an equivocal diagnosis IRT (mg/litre) PAP (mg/litre) Mutation 1 Mutation 2 Sweat test chloride (mmol/litre) 1 199 1.4 E60X R117H-7T 36 2 139 0.8 394delTT R117H-7T/9T 21 3 123 0.6 F508del R117H-7T 22 4 89 1.4 S1251N R117H-7T 29 5 79 1.6 F508del R117H-7T 26 6 77 2.4 R553X R117H-7T 22 7 76 0.8 F508del R117H-7T 34 8 73 0.5 F508del R117H-7T 25 9 70 1.0 F508del R117H-7T 22 10 69 1.1 F508del R117H-7T 33 11 67 2.7 F508del R117H-7T 17 12* 174 3.8 F508del L967S 19 13* 84 3.2 F508del Q1352H 17 Equivocal diagnosis¼two CFTR gene mutations of which one has unclear clinical significance, and a normal or equivocal sweat test result. Login to comment
135 CF, cystic fibrosis; IRT, immunoreactive trypsinogen; PAP, pancreatitis-associated protein. Table 3 Immunoreactive trypsinogen and pancreatitis-associated protein concentrations, CFTR gene mutation analysis and sweat tests for all infants with an equivocal diagnosis IRT (mg/litre) PAP (mg/litre) Mutation 1 Mutation 2 Sweat test chloride (mmol/litre) 1 199 1.4 E60X R117H-7T 36 2 139 0.8 394delTT R117H-7T/9T 21 3 123 0.6 F508del R117H-7T 22 4 89 1.4 S1251N R117H-7T 29 5 79 1.6 F508del R117H-7T 26 6 77 2.4 R553X R117H-7T 22 7 76 0.8 F508del R117H-7T 34 8 73 0.5 F508del R117H-7T 25 9 70 1.0 F508del R117H-7T 22 10 69 1.1 F508del R117H-7T 33 11 67 2.7 F508del R117H-7T 17 12* 174 3.8 F508del L967S 19 13* 84 3.2 F508del Q1352H 17 Equivocal diagnosis&#bc;two CFTR gene mutations of which one has unclear clinical significance, and a normal or equivocal sweat test result. 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
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

[hide] Cystic fibrosis transmembrane conductance regulato... J Hepatol. 2009 Jan;50(1):150-7. Epub 2008 Oct 7. Henckaerts L, Jaspers M, Van Steenbergen W, Vliegen L, Fevery J, Nuytten H, Roskams T, Rutgeerts P, Cassiman JJ, Vermeire S, Cuppens H
Cystic fibrosis transmembrane conductance regulator gene polymorphisms in patients with primary sclerosing cholangitis.
J Hepatol. 2009 Jan;50(1):150-7. Epub 2008 Oct 7., [PMID:18992954]

Abstract [show]
BACKGROUND/AIMS: Primary sclerosing cholangitis (PSC) is a progressive cholestatic disease commonly associated with inflammatory bowel disease (IBD) and characterized by fibrosing inflammatory destruction of bile ducts. The histological features in the liver of PSC patients are similar to those observed in cystic fibrosis (CF). Our aim was to study whether variants in the CFTR gene are associated with the occurrence and/or evolution of PSC. METHODS: PSC patients (n=140) were genotyped for F508del, the TGmTn variants, and four additional polymorphic loci (1001+11 C>T, M470V, T854T and Q1463Q), and compared to 136 matched healthy controls. RESULTS: The 1540G-allele, encoding V470, was less frequent in PSC (52%) than in controls (64%, p=0.003), and was associated with protection against PSC in individuals without IBD (OR 0.25, 95% CI 0.12-0.52, p=0.0002). Also TG11-T7 was less frequent in PSC (53%) than in controls (61%, p=0.04), this haplotype was associated with reduced risk for PSC (OR 0.34, 95% CI 0.17-0.70, p=0.003) in individuals without IBD. CONCLUSIONS: In this cohort of PSC patients, several CFTR-variants affecting the functional properties of the CFTR protein seem to offer protection against the development of PSC, confirming our hypothesis that CFTR might be implicated in the pathogenesis of PSC.

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91 There was Table 4 Summary of the 37 CFTR variants studied in the exploratory phase INNO-LiPA CFTR 19 INNO-LiPA CFTR17+Tn Update F508del 621+1GfiT G542X 3849+10kbCfiT N1303K 2183AAfiG W1282X 394delTT G551D 2789+5GfiA 1717-1GfiA R1162X R553X 3659delC CFTRdele2,3(21kb) R117H I507del R334W 711+1GfiT R347P 3272-26AfiG G85E 3905insT 1078delT R560T A455E 1898+1GfiA 2143delT S1251N E60X I148T 2184delA 3199del6 711+5GfiA 3120+1GfiA Tn Q552X Fig. 1. Login to comment

[hide] Consensus on the use and interpretation of cystic ... J Cyst Fibros. 2008 May;7(3):179-96. Castellani C, Cuppens H, Macek M Jr, Cassiman JJ, Kerem E, Durie P, Tullis E, Assael BM, Bombieri C, Brown A, Casals T, Claustres M, Cutting GR, Dequeker E, Dodge J, Doull I, Farrell P, Ferec C, Girodon E, Johannesson M, Kerem B, Knowles M, Munck A, Pignatti PF, Radojkovic D, Rizzotti P, Schwarz M, Stuhrmann M, Tzetis M, Zielenski J, Elborn JS
Consensus on the use and interpretation of cystic fibrosis mutation analysis in clinical practice.
J Cyst Fibros. 2008 May;7(3):179-96., [PMID:18456578]

Abstract [show]
It is often challenging for the clinician interested in cystic fibrosis (CF) to interpret molecular genetic results, and to integrate them in the diagnostic process. The limitations of genotyping technology, the choice of mutations to be tested, and the clinical context in which the test is administered can all influence how genetic information is interpreted. This paper describes the conclusions of a consensus conference to address the use and interpretation of CF mutation analysis in clinical settings. Although the diagnosis of CF is usually straightforward, care needs to be exercised in the use and interpretation of genetic tests: genotype information is not the final arbiter of a clinical diagnosis of CF or CF transmembrane conductance regulator (CFTR) protein related disorders. The diagnosis of these conditions is primarily based on the clinical presentation, and is supported by evaluation of CFTR function (sweat testing, nasal potential difference) and genetic analysis. None of these features are sufficient on their own to make a diagnosis of CF or CFTR-related disorders. Broad genotype/phenotype associations are useful in epidemiological studies, but CFTR genotype does not accurately predict individual outcome. The use of CFTR genotype for prediction of prognosis in people with CF at the time of their diagnosis is not recommended. The importance of communication between clinicians and medical genetic laboratories is emphasized. The results of testing and their implications should be reported in a manner understandable to the clinicians caring for CF patients.

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1236 Table 1 Geographical distribution of the most common mutations E60X Southern European S549N Indian CFTR Slavic - Eastern European G551D United Kingdom, Central Europe R75X Southern European, US-Hispanic Q552X Southern European, Italian 394delTT Nordic - Baltic sea region R553X Central European G85E Southern Europe A559T African-American 406-1GNA US-Hispanic R560T Northern Irish R117H European-derived populations 1811+1.6kbANG Spanish, US-Hispanic R117C Northern European 1898+1GNA United Kingdom, Central Europe 621+1GNT Southern European 1898+5GNT East Asian populations 711+1GNT French, French Canadian 2143delT Slavic - Eastern European 711+5GNA US-Hispanic 2183delAANG Southern Europe, Middle Eastern, Iranian, Latin American L206W Spanish and US-Hispanic 2184delA European-derived populations V232D Spanish and US-Hispanic 2789+5GNA European-derived populations 1078delT French Brittany Q890X Southern European R334W Southern European, Latin American 3120+1GNA African, Arabian, African-American, Southern Europe 1161delC Indian 3272-26ANG European-derived populations R347P European-derived, Latin America 3659delC Scandinavian R347H Turkish 3849+10kbCNT Ashkenazi-Jewish, Southern European, Middle Eastern, Iranian, Indian A455E Dutch R1066C Southern European 1609delCA Spanish, US-Hispanic Y1092X (CNA) Southern European I506T Southern European, Spanish M1101K US-Hutterite I507del European-derived populations 3905insT Swiss F508del European-derived populations D1152H European-derived populations 1677delTA Southern European, Middle Eastern R1158X Southern European 1717-GNA European-derived populations R1162X Italian, Amerindian, Latin America V520F Irish S1251N European-derived populations G542X Southern European, Mediterranean W1282X Ashkenazi-Jewish, Middle Eastern S549R(TNG) Middle Eastern N1303K Southern European, Middle Eastern Legend: these alleles occur with a frequency superior to 0.1% in selected populations. Login to comment
1239 Table 1 Geographical distribution of the most common mutations E60X Southern European S549N Indian CFTR Slavic - Eastern European G551D United Kingdom, Central Europe R75X Southern European, US-Hispanic Q552X Southern European, Italian 394delTT Nordic - Baltic sea region R553X Central European G85E Southern Europe A559T African-American 406-1GNA US-Hispanic R560T Northern Irish R117H European-derived populations 1811+1.6kbANG Spanish, US-Hispanic R117C Northern European 1898+1GNA United Kingdom, Central Europe 621+1GNT Southern European 1898+5GNT East Asian populations 711+1GNT French, French Canadian 2143delT Slavic - Eastern European 711+5GNA US-Hispanic 2183delAANG Southern Europe, Middle Eastern, Iranian, Latin American L206W Spanish and US-Hispanic 2184delA European-derived populations V232D Spanish and US-Hispanic 2789+5GNA European-derived populations 1078delT French Brittany Q890X Southern European R334W Southern European, Latin American 3120+1GNA African, Arabian, African-American, Southern Europe 1161delC Indian 3272-26ANG European-derived populations R347P European-derived, Latin America 3659delC Scandinavian R347H Turkish 3849+10kbCNT Ashkenazi-Jewish, Southern European, Middle Eastern, Iranian, Indian A455E Dutch R1066C Southern European 1609delCA Spanish, US-Hispanic Y1092X (CNA) Southern European I506T Southern European, Spanish M1101K US-Hutterite I507del European-derived populations 3905insT Swiss F508del European-derived populations D1152H European-derived populations 1677delTA Southern European, Middle Eastern R1158X Southern European 1717-GNA European-derived populations R1162X Italian, Amerindian, Latin America V520F Irish S1251N European-derived populations G542X Southern European, Mediterranean W1282X Ashkenazi-Jewish, Middle Eastern S549R(TNG) Middle Eastern N1303K Southern European, Middle Eastern Legend: these alleles occur with a frequency superior to 0.1% in selected populations. Login to comment

[hide] High incidence of the CFTR mutations 3272-26A-->G ... J Cyst Fibros. 2007 Nov 30;6(6):371-5. Epub 2007 May 3. Storm K, Moens E, Vits L, De Vlieger H, Delaere G, D'Hollander M, Wuyts W, Biervliet M, Van Schil L, Desager K, Nothen MM
High incidence of the CFTR mutations 3272-26A-->G and L927P in Belgian cystic fibrosis patients, and identification of three new CFTR mutations (186-2A-->G, E588V, and 1671insTATCA).
J Cyst Fibros. 2007 Nov 30;6(6):371-5. Epub 2007 May 3., [PMID:17481968]

Abstract [show]
We have analyzed 143 unrelated Belgian patients with a positive diagnosis of cystic fibrosis (CF) for mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene. An initial screening for 29 CFTR mutations led to mutation identification in 89.9% of the tested chromosomes. Subsequently an extensive analysis of the CFTR gene was performed by denaturating gradient gel electrophoresis (DGGE) in those patients with at least one unknown mutation after preliminary screening. In addition to 10 previously reported mutations we identified 2 new mutations 186-2A-->G and E588V. A third new mutation 1671insTATCA was identified during routine screening for DeltaF508. Two mutations were detected with a higher frequency than expected: 3272-26A-->G, which is the second most common mutation after DeltaF508 in our CF population with a frequency of 3.8%, and L927P (2.4%). The clinical data is presented for the mutations 186-2A-->G, E588V, 3272-26A-->G and L927P. The mutation data are useful for the Belgian population to supplement the initial screening set of mutations.

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32 The Inno Lipa™ CFTR17 assay contains normal and mutant probes for 17 other CFTR mutations (394delTT, G85E, 621+1G→T, R117H, 1078delT, R347P, R334W, E60X, 711+5G→A, 2789 + 5G→ A, R1162X, 3659delC, 3849 + 10kbC→ T, 2143delT, A455E, 2183AA→G, 2184delA) (Innogenetics). Login to comment

[hide] Mutational spectrum of cystic fibrosis patients fr... Mol Genet Metab. 2006 Apr;87(4):370-5. Epub 2006 Jan 19. Ramirez AM, Ramos MD, Jimenez J, Ghio A, de Botelli MM, Rezzonico CA, Marques I, Pereyro S, Casals T, de Kremer RD
Mutational spectrum of cystic fibrosis patients from Cordoba province and its zone of influence: implications of molecular diagnosis in Argentina.
Mol Genet Metab. 2006 Apr;87(4):370-5. Epub 2006 Jan 19., [PMID:16423550]

Abstract [show]
Cystic Fibrosis (CF) is an autosomal recessive disorder affecting 1/2000-4000 newborns in Caucasian populations. This lethal disease mainly affects respiratory and digestive organs as well as fertility in man. So far, the CF prevalence and mutational spectrum have showed specificity among populations and regions, making it necessary to establish them in each one. In this study, we present the spectrum and frequency of CFTR gene mutations in CF patients from Cordoba (a province with 3.1 millions inhabitants in the middle of Argentina) and its zone of influence, to offer an accurate genetic testing. The study includes 78 families in which 98 patients fulfilled clinical criteria to CF diagnosis. The strategy for the molecular diagnosis comprised analysis of 21 common mutations, microsatellite haplotypes and the complete CFTR gene analysis using scanning techniques followed by sequencing of the abnormal migration patterns. Our first step led us to the identification of 10 mutations that represented 76% of alleles. Another four mutations (p.R1066C, c.1811 + 1.6 kbA > G, c.711 + 1G > T, and p.G85E) were found based on the microsatellite haplotype-mutation association. Finally, 14 mutations were characterized after the CFTR gene scanning, three of them are not previously described (p.G27R, c.622-2A > G, and p.W277R). In summary, we have identified 27 mutations accounting for 94.23% of CF alleles. This characteristic mutational spectrum highlights the 14 most frequent mutations (>1%) in the Cordoba region.

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44 Mutations (p.F508del, p.N1303K, p.G542X, p.R334W, c.2789 + 5G > A, c.3659delC, p.R553X, c.3849 + 10kbC > T, p.R1162X, c.621 + 1G > T, p.W1282X, p.R117H, c.1078delT, p.E60X, p.R347P, p.A455E, p.I507del, c.1717-1G > A, p.G551D, [c.2183A > G; c.2184delA] and p.S1251N) were analyzed by heteroduplex analysis on polyacrylamide gel electrophoresis [11,12] and by ampliWcation refractory mutation system [13] in all 78 patients. Login to comment

[hide] Cytogenetic analysis of azoospermic patients: kary... Eur J Obstet Gynecol Reprod Biol. 2006 Feb 1;124(2):197-203. Epub 2005 Sep 12. Stipoljev F, Vujisic S, Parazajder J, Hafner D, Jezek D, Sertic J
Cytogenetic analysis of azoospermic patients: karyotype comparison of peripheral blood lymphocytes and testicular tissue.
Eur J Obstet Gynecol Reprod Biol. 2006 Feb 1;124(2):197-203. Epub 2005 Sep 12., [PMID:16157443]

Abstract [show]
OBJECTIVE: The objective was to compare the results of a complete chromosomal, genetic and histological investigation in 13 azoospermic men with the results of the intracytoplasmic sperm injection (ICSI) procedure. STUDY DESIGN: Peripheral blood samples were used for the measurement of follicle-stimulating hormone (FSH) levels, chromosomal analysis, microdeletions in the azoospermia factor (AZF) region of the Y chromosome and cystic fibrosis transmembrane conductance regulator (CFTR) mutation analysis. Testicular tissue was used for histological scoring and cytogenetic evaluation. RESULTS: Peripheral blood cytogenetic analysis revealed a normal male karyotype in all cases. Chromosomal analysis from testicular tissue revealed a mosaicism for the terminal deletion of chromosome 22 with a breakpoint site at 22q13 in one patient with congenital bilateral absence of the vas deferens (CBAVD). Deletions in the AZFa, ATFb, and AZFc regions were not detected. The CFTR mutational analysis showed normal results in all patients. CONCLUSIONS: Cytogenetic evaluation of testicular tissue should be performed in non-obstructive and obstructive azoospermic patients as well as in patients with multiple failed IVF and recurrent spontaneous abortion.

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60 DNA samples were screened for the most common CFTR gene mutations and polythymidine tract variant within the intron 8 by: INNO-LIPA CFTR17 + Tn; exon 3: 394delTT, G85E, E60X; exon/intron 4: 621 + 1G ! Login to comment

[hide] Spectrum of mutations in CFTR in Finland: 18 years... J Cyst Fibros. 2005 Dec;4(4):233-7. Epub 2005 Jul 26. Kinnunen S, Bonache S, Casals T, Monto S, Savilahti E, Kere J, Jarvela I
Spectrum of mutations in CFTR in Finland: 18 years follow-up study and identification of two novel mutations.
J Cyst Fibros. 2005 Dec;4(4):233-7. Epub 2005 Jul 26., [PMID:16051530]

Abstract [show]
BACKGROUND: The incidence of cystic fibrosis (CF) is low in the isolated Finnish population and the Finnish CF mutation spectrum has differed from many European countries. METHODS: We have analyzed the mutation spectrum and the geographical distribution of CF mutations in Finland covering the last 18 years (1987-2004). RESULTS: A total of 14 mutations were identified; two of them new, 774insT and S589T (G>C at 1,898). The overall coverage of mutations was 97% (99/102 chromosomes). The most frequent mutations were F508del and 394delTT, found in 36% (37/102) and 35% (36/102) of the CF chromosomes respectively. Of the rare mutations, a mutation of presumable Slavic origin, CFTRdele2.3 (21 kb), was enriched in a rural isolate with a frequency of 5,9% (6/102), and a mutation that possibly indicates Swedish influence, 3659delC, was scattered throughout the country with a similar frequency of 5,9% (6/102). G542X, R1162X, R117H, 3732delA, 1,898 + 3A >C, S1196X, S945L, W57R, 774insT and S589T were each identified in a number of chromosomes from one to three. CONCLUSIONS: Our observations of the Finnish CF mutation spectrum fit well with the characteristics of Finland as a population of multiple local founder effects.

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36 The InnoLipa assay recognizes 36 mutations: E60X (c.178G>T, p.Glu60X), G85E (c.254G>A, p.Gly85- Glu), 394delTT, R117H (c.350G>A, p.Arg117His), I148T (c.443T>C, p.Ile148Thr), 621+1G>T (c.489+1G>T), 711+1G>T (c.579+1G>T), 711+5G>A (c.579+5G>A), 1078delT (c.948delT, p.Phe316fs), R334W (c.1000C>T, p.Arg334Trp), R347P (c.1040G>C, p.Arg347Pro), A455E (c.1364C>A, p.Ala455Glu), I507del (c.1519_1521delATC, p.Ile507del), F508del, 1717À1G>A (c.1585À1G>A), G542X, G551D (c.1652G >A, p.Gly551Asp), Q552X (c.1654C > T, p.Gln552X), R553X (c.1657C > T, p.Arg553X), R560T (1679G>vC, p.Arg560Thr), 1898+ 1G > A (c.1766 + 1G > A), 2143delT (c.2012delT, p.Leu671fs), 2183AA > G (c.2051_2052delAAinsG, p.Lys684fs), 2184delA (c.2052delA, p.Lys684fs), 2789+ 5G>A (c.2657+5G>A), 3120+1G>A (c.2988+1G>A), 3199del6 (c.3067_3072del, p.Ile1023_Val1024del), 3272À 26A > G (c.3140 À26A > G), R1162X (c.3484C > T, p.Arg1162X), 3849+10kbCYT, 3659delC (c.3528delC, p.Lys1177fs), S1251N (c.3752G > A, p.Ser1251Asn), 3905insT (c.3773dupT, p.Leu1258fs), W1282X (c.3846G> A, p.Trp1282X), N1303K (c.3909C>G, p.Asn1303Lys), CFTRdele2,3(21kb) and Tn-polymorphism on intron 8. Login to comment
37 The InnoLipa assay recognizes 36 mutations: E60X (c.178G>T, p.Glu60X), G85E (c.254G>A, p.Gly85Glu), 394delTT, R117H (c.350G>A, p.Arg117His), I148T (c.443T>C, p.Ile148Thr), 621+1G>T (c.489+1G>T), 711+1G>T (c.579+1G>T), 711+5G>A (c.579+5G>A), 1078delT (c.948delT, p.Phe316fs), R334W (c.1000C>T, p.Arg334Trp), R347P (c.1040G>C, p.Arg347Pro), A455E (c.1364C>A, p.Ala455Glu), I507del (c.1519_1521delATC, p.Ile507del), F508del, 1717 1G>A (c.1585 1G>A), G542X, G551D (c.1652G >A, p.Gly551Asp), Q552X (c.1654C > T, p.Gln552X), R553X (c.1657C > T, p.Arg553X), R560T (1679G>vC, p.Arg560Thr), 1898+ 1G > A (c.1766 + 1G > A), 2143delT (c.2012delT, p.Leu671fs), 2183AA > G (c.2051_2052delAAinsG, p.Lys684fs), 2184delA (c.2052delA, p.Lys684fs), 2789+ 5G>A (c.2657+5G>A), 3120+1G>A (c.2988+1G>A), 3199del6 (c.3067_3072del, p.Ile1023_Val1024del), 3272 26A > G (c.3140 26A > G), R1162X (c.3484C > T, p.Arg1162X), 3849+10kbCYT, 3659delC (c.3528delC, p.Lys1177fs), S1251N (c.3752G > A, p.Ser1251Asn), 3905insT (c.3773dupT, p.Leu1258fs), W1282X (c.3846G> A, p.Trp1282X), N1303K (c.3909C>G, p.Asn1303Lys), CFTRdele2,3(21kb) and Tn-polymorphism on intron 8. Login to comment

[hide] Hyperechogenic fetal bowel: counseling difficultie... Eur J Med Genet. 2005 Oct-Dec;48(4):421-5. Marcus-Soekarman D, Offermans J, Van den Ouweland AM, Mulder AL, Muntjewerff N, Vossen M, Kleijer W, Schrander-Stumpel C, Dooijes D
Hyperechogenic fetal bowel: counseling difficulties.
Eur J Med Genet. 2005 Oct-Dec;48(4):421-5., [PMID:16378926]

Abstract [show]
The detection of echodense fetal bowel on ultrasound examination in the second trimester of pregnancy justifies invasive procedures such as amniocentesis to detect an underlying cause. We present a case in which initial tests identified only one mutation in the cystic fibrosis transmembrane regulator (CFTR)-gene of the fetus, the family history being negative for CF. Strongly reduced intestinal enzyme activities suggested intestinal obstruction and further increased the estimated risk for CF. After the 24th gestational week, a second mutation was found, confirming cystic fibrosis in this child. Problems in counseling in this particular case are discussed.

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67 Routine CFTR-mutation analysis, using Table 1 CFTR-mutations screened for in the first step E60X 2143delT G542X G85E 2183AA-G G551D 394delTT 2184delA Q552X 621 + 1G-T 2789 + 5G-A R553X R117H 3849 + 10kbC-T R560T 711 + 5G-A R1162X S1251N 1078delT 3659delC 390insT R334W delta I507 W1282X R347P delta F508 N1303K A455E 1717-1G-A a panel of 29 CFTR-mutations, detects only 41.6% of CFTR-mutations in the Turkish population [1]. 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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No. Sentence Comment
51 Complete List of Mutations Detectable with the CF APEX Assay CFTR location Amino acid change Nucleotide change 1 E 1 Frameshift 175delC 2 E 2,3 Frameshift del E2, E3 3 E 2 W19C 189 GϾT 4 E 2 Q39X 247 CϾT 5 IVS 2 Possible splicing defect 296 ϩ 12 TϾC 6 E 3 Frameshift 359insT 7 E 3 Frameshift 394delTT 8 E 3 W57X (TAG) 302GϾA 9 E 3 W57X (TGA) 303GϾA 10 E 3 E60X 310GϾT 11 E 3 P67L 332CϾT 12 E 3 R74Q 353GϾA 13 E 3 R75X 355CϾT 14 E 3 G85E 386GϾA 15 E 3 G91R 403GϾA 16 IVS 3 Splicing defect 405 ϩ 1GϾA 17 IVS 3 Possible splicing defect 405 ϩ 3AϾC 18 IVS 3 Splicing defect 406 - 1GϾA 19 E 4 E92X 406GϾT 20 E 4 E92K 406GϾA 21 E 4 Q98R 425AϾG 22 E 4 Q98P 425AϾC 23 E 4 Frameshift 444delA 24 E 4 Frameshift 457TATϾG 25 E 4 R117C 481CϾT 26 E 4 R117H 482GϾA 27 E 4 R117P 482GϾC 28 E 4 R117L 482GϾT 29 E 4 Y122X 498TϾA 30 E 4 Frameshift 574delA 31 E 4 I148T 575TϾC 32 E 4 Splicing defect 621GϾA 33 IVS 4 Splicing defect 621 ϩ 1GϾT 34 IVS 4 Splicing defect 621 ϩ 3AϾG 35 E 5 Frameshift 624delT 36 E 5 Frameshift 663delT 37 E 5 G178R 664GϾA 38 E 5 Q179K 667CϾA 39 IVS 5 Splicing defect 711 ϩ 1GϾT 40 IVS 5 Splicing defect 711 ϩ 1GϾA 41 IVS 5 Splicing defect 712 - 1GϾT 42 E 6a H199Y 727CϾT 43 E 6a P205S 745CϾT 44 E 6a L206W 749TϾG 45 E 6a Q220X 790CϾT 46 E 6b Frameshift 935delA 47 E 6b Frameshift 936delTA 48 E 6b N287Y 991AϾT 49 IVS 6b Splicing defect 1002 - 3TϾG 50 E 7 ⌬F311 3-bp del between nucleotides 1059 and 1069 51 E 7 Frameshift 1078delT 52 E 7 Frameshift 1119delA 53 E 7 G330X 1120GϾT 54 E 7 R334W 1132CϾT 55 E 7 I336K 1139TϾA 56 E 7 T338I 1145CϾT 57 E 7 Frameshift 1154insTC 58 E 7 Frameshift 1161delC 59 E 7 L346P 1169TϾC 60 E 7 R347H 1172GϾA 61 E 7 R347P 1172GϾC 62 E 7 R347L 1172GϾT 63 E 7 R352Q 1187GϾA 64 E 7 Q359K/T360K 1207CϾA and 1211CϾA 65 E 7 S364P 1222TϾC 66 E 8 Frameshift 1259insA 67 E 8 W401X (TAG) 1334GϾA 68 E 8 W401X (TGA) 1335GϾA 69 IVS 8 Splicing changes 1342 - 6 poly(T) variants 5T/7T/9T 70 IVS 8 Splicing defect 1342 - 2AϾC Table 1. Continued CFTR location Amino acid change Nucleotide change 71 E 9 A455E 1496CϾA 72 E 9 Frameshift 1504delG 73 E 10 G480C 1570GϾT 74 E 10 Q493X 1609CϾT 75 E 10 Frameshift 1609delCA 76 E 10 ⌬I507 3-bp del between nucleotides 1648 and 1653 77 E 10 ⌬F508 3-bp del between nucleotides 1652 and 1655 78 E 10 Frameshift 1677delTA 79 E 10 V520F 1690GϾT 80 E 10 C524X 1704CϾA 81 IVS 10 Possible splicing defect 1717 - 8GϾA 82 IVS 10 Splicing defect 1717 - 1GϾA 83 E 11 G542X 1756GϾT 84 E 11 G551D 1784GϾA 85 E 11 Frameshift 1784delG 86 E 11 S549R (AϾC) 1777AϾC 87 E 11 S549I 1778GϾT 88 E 11 S549N 1778GϾA 89 E 11 S549R (TϾG) 1779TϾG 90 E 11 Q552X 1786CϾT 91 E 11 R553X 1789CϾT 92 E 11 R553G 1789CϾG 93 E 11 R553Q 1790GϾA 94 E 11 L558S 1805TϾC 95 E 11 A559T 1807GϾA 96 E 11 R560T 1811GϾC 97 E 11 R560K 1811GϾA 98 IVS 11 Splicing defect 1811 ϩ 1.6 kb AϾG 99 IVS 11 Splicing defect 1812 - 1GϾA 100 E 12 Y563D 1819TϾG 101 E 12 Y563N 1819TϾA 102 E 12 Frameshift 1833delT 103 E 12 D572N 1846GϾA 104 E 12 P574H 1853CϾA 105 E 12 T582R 1877CϾG 106 E 12 E585X 1885GϾT 107 IVS 12 Splicing defect 1898 ϩ 5GϾT 108 IVS 12 Splicing defect 1898 ϩ 1GϾA 109 IVS 12 Splicing defect 1898 ϩ 1GϾC 110 IVS 12 Splicing defect 1898 ϩ 1GϾT 111 E 13 Frameshift 1924del7 112 E 13 del of 28 amino acids 1949del84 113 E 13 I618T 1985TϾC 114 E 13 Frameshift 2183AAϾG 115 E 13 Frameshift 2043delG 116 E 13 Frameshift 2055del9ϾA 117 E 13 D648V 2075TϾA 118 E 13 Frameshift 2105-2117 del13insAGAA 119 E 13 Frameshift 2108delA 120 E 13 R668C 2134CϾT 121 E 13 Frameshift 2143delT 122 E 13 Frameshift 2176insC 123 E 13 Frameshift 2184delA 124 E 13 Frameshift 2184insA 125 E 13 Q685X 2185CϾT 126 E 13 R709X 2257CϾT 127 E 13 K710X 2260AϾT 128 E 13 Frameshift 2307insA 129 E 13 V754M 2392GϾA 130 E 13 R764X 2422CϾT 131 E 14a W846X 2670GϾA 132 E 14a Frameshift 2734delGinsAT 133 E 14b Frameshift 2766del8 134 IVS 14b Splicing defect 2789 ϩ 5GϾA 135 IVS 14b Splicing defect 2790 - 2AϾG 136 E 15 Q890X 2800CϾT 137 E 15 Frameshift 2869insG 138 E 15 S945L 2966CϾT 139 E 15 Frameshift 2991del32 140 E 16 Splicing defect 3120GϾA interrogation: ACCAACATGTTTTCTTTGATCTTAC 3121-2A3G,T S; 5Ј-ACCAACATGTTTTCTTTGATCTTAC A GTTGTTATTAATTGTGATTGGAGCTATAG-3Ј; CAACAA- TAATTAACACTAACCTCGA 3121-2A3G,T AS. Login to comment
150 Primers Generated to Create Synthetic Templates That Serve As Positive Mutation Controls Primer name Sense strand 5Ј 3 3Ј Name Antisense strand 5Ј 3 3Ј 175delC synt F T(15)ATTTTTTTCAGGTGAGAAGGTGGCCA 175delC synt R T(15)ATTTGGAGACAACGCTGGCCTTTTCC W19C synt F T(15)TACCAGACCAATTTTGAGGAAAGGAT W19C synt R T(15)ACAGCTAAAATAAAGAGAGGAGGAAC Q39X synt F T(15)TAAATCCCTTCTGTTGATTCTGCTGA Q39X synt R T(15)AGTATATGTCTGACAATTCCAGGCGC 296 ϩ 12TϾC synt F T(15)CACATTGTTTAGTTGAAGAGAGAAAT 296 ϩ 12TϾC synt R T(15)GCATGAACATACCTTTCCAATTTTTC 359insT synt F T(15)TTTTTTTCTGGAGATTTATGTTCTAT 359insT synt R T(15)AAAAAAACATCGCCGAAGGGCATTAA E60X synt F T(15)TAGCTGGCTTCAAAGAAAAATCCTAA E60X synt R T(15)ATCTATCCCATTCTCTGCAAAAGAAT P67L synt F T(15)TTAAACTCATTAATGCCCTTCGGCGA P67L synt R T(15)AGATTTTTCTTTGAAGCCAGCTCTCT R74Q synt F T(15)AGCGATGTTTTTTCTGGAGATTTATG R74Q synt R T(15)TGAAGGGCATTAATGAGTTTAGGATT R75X synt F T(15)TGATGTTTTTTCTGGAGATTTATGTT R75X synt R T(15)ACCGAAGGGCATTAATGAGTTTAGGA W57X(TAG) synt F T(15)AGGATAGAGAGCTGGCTTCAAAGAAA W57X(TAG) synt R T(15)TATTCTCTGCAAAAGAATAAAAAGTG W57X(TGA) synt F T(15)AGATAGAGAGCTGGCTTCAAAGAAAA W57X(TGA) synt R T(15)TCATTCTCTGCAAAAGAATAAAAAGT G91R synt F T(15)AGGGTAAGGATCTCATTTGTACATTC G91R synt R T(15)TTAAATATAAAAAGATTCCATAGAAC 405 ϩ 1GϾA synt F T(15)ATAAGGATCTCATTTGTACATTCATT 405 ϩ 1GϾA synt R T(15)TCCCTAAATATAAAAAGATTCCATAG 405 ϩ 3AϾC synt F T(15)CAGGATCTCATTTGTACATTCATTAT 405 ϩ 3AϾC synt R T(15)GACCCCTAAATATAAAAAGATTCCAT 406 - 1GϾA synt F T(15)AGAAGTCACCAAAGCAGTACAGCCTC 406 - 1GϾA synt R T(15)TTACAAAAGGGGAAAAACAGAGAAAT E92X synt F T(15)TAAGTCACCAAAGCAGTACAGCCTCT E92X synt R T(15)ACTACAAAAGGGGAAAAACAGAGAAA E92K synt F T(15)AAAGTCACCAAAGCAGTACAGCCTCT E92K synt R T(15)TCTACAAAAGGGGAAAAACAGAGAAA 444delA synt F T(15)GATCATAGCTTCCTATGACCCGGATA 444delA synt R T(15)ATCTTCCCAGTAAGAGAGGCTGTACT 574delA synt F T(15)CTTGGAATGCAGATGAGAATAGCTAT 574delA synt R T(15)AGTGATGAAGGCCAAAAATGGCTGGG 621GϾA synt F T(15)AGTAATACTTCCTTGCACAGGCCCCA 621GϾA synt R T(15)TTTCTTATAAATCAAACTAAACATAG Q98P synt F T(15)CGCCTCTCTTACTGGGAAGAATCATA Q98P synt R T(15)GGTACTGCTTTGGTGACTTCCTACAA 457TATϾG synt F T(15)GGACCCGGATAACAAGGAGGAACGCT 457TATϾG synt R T(15)CGGAAGCTATGATTCTTCCCAGTAAG I148T synt F T(15)CTGGAATGCAGATGAGAATAGCTATG I148T synt R T(15)GTGTGATGAAGGCCAAAAATGGCTGG 624delT synt F T(15)CTTAAAGCTGTCAAGCCGTGTTCTAG 624delT synt R T(15)TAAGTCTAAAAGAAAAATGGAAAGTT 663delT synt F T(15)ATGGACAACTTGTTAGTCTCCTTTCC 663delT synt R T(15)CATACTTATTTTATCTAGAACACGGC G178R synt F T(15)AGACAACTTGTTAGTCTCCTTTCCAA G178R synt R T(15)TAATACTTATTTTATCTAGAACACGG Q179K synt F T(15)AAACTTGTTAGTCTCCTTTCCAACAA Q179K synt R T(15)TTCCAATACTTATTTTATCTAGAACA 711 ϩ 5GϾA synt F T(15)ATACCTATTGATTTAATCTTTTAGGC 711 ϩ 5GϾA synt R T(15)TTATACTTCATCAAATTTGTTCAGGT 712 - 1GϾT synt F T(15)TGGACTTGCATTGGCACATTTCGTGT 712 - 1GϾT synt R T(15)TATGGAAAATAAAAGCACAGCAAAAAC H199Y synt F T(15)TATTTCGTGTGGATCGCTCCTTTGCA H199Y synt R T(15)TATGCCAATGCTAGTCCCTGGAAAATA P205S synt F T(15)TCTTTGCAAGTGGCACTCCTCATGGG P205S synt R T(15)TAAGCGATCCACACGAAATGTGCCAAT L206W synt F T(15)GGCAAGTGGCACTCCTCATGGGGCTA L206W synt R T(15)TCAAGGAGCGATCCACACGAAATGTGC Q220X synt F T(15)TAGGCGTCTGCTTTCTGTGGACTTGG Q220X synt R T(15)TATAACAACTCCCAGATTAGCCCCATG 936delTA synt F T(15)AATCCAATCTGTTAAGGCATACTGCT 936delTA synt R T(15)TGATTTTCAATCATTTCTGAGGTAATC 935delA synt F T(15)GAAATATCCAATCTGTTAAGGCATAC 935delA synt R T(15)TATTTCAATCATTTCTGAGGTAATCAC N287Y synt F T(15)TACTTAAGACAGTAAGTTGTTCCAAT N287Y synt R T(15)TATTCAATCATTTTTTCCATTGCTTCT 1002 - 3TϾG synt F T(15)GAGAACAGAACTGAAACTGACTCGGA 1002 - 3TϾG synt R T(15)TCTAAAAAACAATAACAATAAAATTCA 1154insTC syntwt F T(15)ATCTCATTCTGCATTGTTCTGCGCAT 1154insTC syntwt R T(15)TTGAGATGGTGGTGAATATTTTCCGGA 1154insTC syntmt F T(15)TCTCTCATTCTGCATTGTTCTGCGCAT 1154insTC syntmt R T(15)TAGAGATGGTGGTGAATATTTTCCGGA DF311 mt syntV1 F T(15)CCTTCTTCTCAGGGTTCTTTGTGGTG dF311 mt syntV1 R T(15)GAGAAGAAGGCTGAGCTATTGAAGTATC G330X synt F T(15)TGAATCATCCTCCGGAAAATATTCAC G330X synt R T(15)ATTTGATTAGTGCATAGGGAAGCACA S364P synt F T(15)CCTCTTGGAGCAATAAACAAAATACA S364P synt R T(15)GGTCATACCATGTTTGTACAGCCCAG Q359K/T360K mt synt F T(15)AAAAAATGGTATGACTCTCTTGGAGC Q359K/T360K mt synt R T(15)TTTTTTACAGCCCAGGGAAATTGCCG 1078delT synt F T(15)CTTGTGGTGTTTTTATCTGTGCTTCC 1078delT synt R T(15)CAAGAACCCTGAGAAGAAGAAGGCTG 1119delA synt F T(15)CAAGGAATCATCCTCCGGAAAATATT 1119delA synt R T(15)CTTGATTAGTGCATAGGGAAGCACAG 1161delC synt F T(15)GATTGTTCTGCGCATGGCGGTCACTC 1161delC synt R T(15)TCAGAATGAGATGGTGGTGAATATTT T338I synt F T(15)TCACCATCTCATTCTGCATTGTTCTG T338I synt R T(15)ATGAATATTTTCCGGAGGATGATTCC R352Q synt F T(15)AGCAATTTCCCTGGGCTGTACAAACA R352Q synt R T(15)TGAGTGACCGCCATGCGCAGAACAAT L346P synt F T(15)CGCGCATGGCGGTCACTCGGCAATTT L346P synt R T(15)GGAACAATGCAGAATGAGATGGTGGT 1259insA synt F T(15)AAAAAGCAAGAATATAAGACATTGGA 1259insA synt R T(15)TTTTTGTAAGAAATCCTATTTATAAA W401X(TAG)mtsynt F T(15)AGGAGGAGGTCAGAATTTTTAAAAAA W401X(TAG)mtsynt R T(15)TAGAAGGCTGTTACATTCTCCATCAC W401X(TGA) synt F T(15)AGAGGAGGTCAGAATTTTTAAAAAAT W401X(TGA) synt R T(15)TCAGAAGGCTGTTACATTCTCCATCA 1342 - 2AϾC synt F T(15)CGGGATTTGGGGAATTATTTGAGAAA 1342 - 2AϾC synt R T(15)GGTTAAAAAAACACACACACACACAC 1504delG synt F T(15)TGATCCACTGTAGCAGGCAAGGTAGT 1504delG synt R T(15)TCAGCAACCGCCAACAACTGTCCTCT G480C synt F T(15)TGTAAAATTAAGCACAGTGGAAGAAT G480C synt R T(15)ACTCTGAAGGCTCCAGTTCTCCCATA C524X synt F T(15)ACAACTAGAAGAGGTAAGAAACTATG C524X synt R T(15)TCATGCTTTGATGACGCTTCTGTATC V520F synt F T(15)TTCATCAAAGCAAGCCAACTAGAAGA V520F synt R T(15)AGCTTCTGTATCTATATTCATCATAG 1609delCA synt F T(15)TGTTTTCCTGGATTATGCCTGGCACC 1609delCA synt R T(15)CAGAACAGAATGAAATTCTTCCACTG 1717 - 8GϾA synt F T(15)AGTAATAGGACATCTCCAAGTTTGCA 1717 - 8GϾA synt R T(15)TAAAAATAGAAAATTAGAGAGTCACT 1784delG synt F T(15)AGTCAACGAGCAAGAATTTCTTTAGC 1784delG synt R T(15)ACTCCACTCAGTGTGATTCCACCTTC A559T synt F T(15)ACAAGGTGAATAACTAATTATTGGTC A559T synt R T(15)TTAAAGAAATTCTTGCTCGTTGACCT Q552X synt F T(15)TAACGAGCAAGAATTTCTTTAGCAAG Q552X synt R T(15)AACCTCCACTCAGTGTGATTCCACCT S549R(AϾC) synt F T(15)CGTGGAGGTCAACGAGCAAGAATTTC S549R(AϾC) synt R T(15)GCAGTGTGATTCTACCTTCTCCAAGA S549R(TϾG) synt F T(15)GGGAGGTCAACGAGCAAGTATTTC S549R(TϾG) synt R T(15)CCTCAGTGTGATTCCACCTTCTCCAA L558S synt F T(15)CAGCAAGGTGAATAACTAATTATTGG L558S synt R T(15)GAAGAAATTCTCGCTCGTTGACCTCC 1811 ϩ 1.6 kb AϾG synt F T(15)GTAAGTAAGGTTACTATCAATCACAC 1811 ϩ 1.6 kb AϾG synt R T(15)CATCTCAAGTACATAGGATTCTCTGT 1812 - 1GϾA synt F T(15)AAGCAGTATACAAAGATGCTGATTTG 1812 - 1GϾA synt R T(15)TTAAAAAGAAAATGGAAATTAAATTA D572N synt F T(15)AACTCTCCTTTTGGATACCTAGATGT D572N synt R T(15)TTAATAAATACAAATCAGCATCTTTG P574H synt F T(15)ATTTTGGATACCTAGATGTTTTAACA P574H synt R T(15)TGAGAGTCTAATAAATACAAATCAGC 1833delT synt F T(15)ATTGTATTTATTAGACTCTCCTTTTG 1833delT synt R T(15)CAATCAGCATCTTTGTATACTGCTCT Table 4. Continued Primer name Sense strand 5Ј 3 3Ј Name Antisense strand 5Ј 3 3Ј Y563D synt F T(15)GACAAAGATGCTGATTTGTATTTATT Y563D synt R T(15)CTACTGCTCTAAAAAGAAAATGGAAA T582R synt F T(15)GAGAAAAAGAAATATTTGAAAGGTAT T582R synt R T(15)CTTAAAACATCTAGGTATCCAAAAGG E585X synt F T(15)TAAATATTTGAAAGGTATGTTCTTTG E585X synt R T(15)ATTTTTCTGTTAAAACATCTAGGTAT 1898 ϩ 5GϾT synt F T(15)TTTCTTTGAATACCTTACTTATATTG 1898 ϩ 5GϾT synt R T(15)AATACCTTTCAAATATTTCTTTTTCT 1924del7 synt F T(15)CAGGATTTTGGTCACTTCTAAAATGG 1924del7 synt R T(15)CTGTTAGCCATCAGTTTACAGACACA 2055del9ϾA synt F T(15)ACATGGGATGTGATTCTTTCGACCAA 2055del9ϾA synt R T(15)TCTAAAGTCTGGCTGTAGATTTTGGA D648V synt F T(15)TTTCTTTCGACCAATTTAGTGCAGAA D648V synt R T(15)ACACATCCCATGAGTTTTGAGCTAAA K710X synt F T(15)TAATTTTCCATTGTGCAAAAGACTCC K710X synt R T(15)ATCGTATAGAGTTGATTGGATTGAGA I618T synt F T(15)CTTTGCATGAAGGTAGCAGCTATTTT I618T synt R T(15)GTTAATATTTTGTCAGCTTTCTTTAA R764X synt F T(15)TGAAGGAGGCAGTCTGTCCTGAACCT R764X synt R T(15)ATGCCTGAAGCGTGGGGCCAGTGCTG Q685X synt F T(15)TAATCTTTTAAACAGACTGGAGAGTT Q685X synt R T(15)ATTTTTTTGTTTCTGTCCAGGAGACA R709X synt F T(15)TGAAAATTTTCCATTGTGCAAAAGAC R709X synt R T(15)ATATAGAGTTGATTGGATTGAGAATA V754M synt F T(15)ATGATCAGCACTGGCCCCACGCTTCA V754M synt R T(15)TGCTGATGCGAGGCAGTATCGCCTCT 1949del84 synt F T(15)AAAAATCTACAGCCAGACTTTATCTC 1949del84 synt R T(15)TTTTTAGAAGTGACCAAAATCCTAGT 2108delA synt F T(15)GAATTCAATCCTAACTGAGACCTTAC 2108delA synt R T(15)ATTCTTCTTTCTGCACTAAATTGGTC 2176insC synt F T(15)CCAAAAAAACAATCTTTTAAACAGACTGGAGAG 2176insC synt R T(15)GGTTTCTGTCCAGGAGACAGGAGCAT 2184delA synt F T(15)CAAAAAACAATCTTTTAAACAGACTGG 2184delA synt R T(15)GTTTTTTGTTTCTGTCCAGGAGACAG 2105-2117 del13 synt F T(15)AAACTGAGACCTTACACCGTTTCTCA 2105-2117 del13 synt R T(15)TTTCTTTCTGCACTAAATTGGTCGAA 2307insA synt F T(15)AAAGAGGATTCTGATGAGCCTTTAGA 2307insA synt R T(15)TTTCGATGCCATTCATTTGTAAGGGA W846X synt F T(15)AAACACATACCTTCGATATATTACTGTCCAC W846X synt R T(15)TCATGTAGTCACTGCTGGTATGCTCT 2734G/AT synt F T(15)TTAATTTTTCTGGCAGAGGTAAGAAT 2734G/AT synt R T(15)TTAAGCACCAAATTAGCACAAAAATT 2766del8 synt F T(15)GGTGGCTCCTTGGAAAGTGAGTATTC 2766del8 synt R T(15)CACCAAAGAAGCAGCCACCTGGAATGG 2790 - 2AϾG synt F T(15)GGCACTCCTCTTCAAGACAAAGGGAA 2790 - 2AϾG synt R T(15)CGTAAAGCAAATAGGAAATCGTTAAT 2991del32 synt F T(15)TTCAACACGTCGAAAGCAGGTACTTT 2991del32 synt R T(15)AAACATTTTGTGGTGTAAAATTTTCG Q890X synt F T(15)TAAGACAAAGGGAATAGTACTCATAG Q890X synt R T(15)AAAGAGGAGTGCTGTAAAGCAAATAG 2869insG synt F T(15)GATTATGTGTTTTACATTTACGTGGG 2869insG synt R T(15)CACGAACTGGTGCTGGTGATAATCAC 3120GϾA synt F T(15)AGTATGTAAAAATAAGTACCGTTAAG 3120GϾA synt R T(15)TTGGATGAAGTCAAATATGGTAAGAG 3121 - 2AϾT synt F T(15)TGTTGTTATTAATTGTGATTGGAGCT 3121 - 2AϾT synt R T(15)AGTAAGATCAAAGAAAACATGTTGGT 3132delTG synt F T(15)TTGATTGGAGCCATAGCAGTTGTCGC 3132delTG synt R T(15)AATTAATAACAACTGTAAGATCAAAG 3271delGG synt F T(15)ATATGACAGTGAATGTGCGATACTCA 3271delGG synt R T(15)ATTCAGATTCCAGTTGTTTGAGTTGC 3171delC synt F T(15)ACCTACATCTTTGTTGCAACAGTGCC 3171delC synt R T(15)AGGTTGTAAAACTGCGACAACTGCTA 3171insC synt F T(15)CCCCTACATCTTTGTTGCTACAGTGC 3171insC synt R T(15)GGGGTTGTAAAACTGCGACAACTGCT 3199del6 synt F T(15)GAGTGGCTTTTATTATGTTGAGAGCATAT 3199del6 synt R T(15)CCACTGGCACTGTTGCAACAAAGATG M1101K synt F T(15)AGAGAATAGAAATGATTTTTGTCATC M1101K synt R T(15)TTTTGGAACCAGCGCAGTGTTGACAG G1061R synt F T(15)CGACTATGGACACTTCGTGCCTTCGG G1061R synt R T(15)GTTTTAAGCTTGTAACAAGATGAGTG R1066L synt F T(15)TTGCCTTCGGACGGCAGCCTTACTTT R1066L synt R T(15)AGAAGTGTCCATAGTCCTTTTAAGCT R1070P synt F T(15)CGCAGCCTTACTTTGAAACTCTGTTC R1070P synt R T(15)GGTCCGAAGGCACGAAGTGTCCATAG L1077P synt F T(15)CGTTCCACAAAGCTCTGAATTTACAT L1077P synt R T(15)GGAGTTTCAAAGTAAGGCTGCCGTCC W1089X synt F T(15)AGTTCTTGTACCTGTCAACACTGCGC W1089X synt R T(15)TAGTTGGCAGTATGTAAATTCAGAGC L1093P synt F T(15)CGTCAACACTGCGCTGGTTCCAAATG L1093P synt R T(15)GGGTACAAGAACCAGTTGGCAGTATG W1098R synt F T(15)CGGTTCCAAATGAGAATAGAAATGAT W1098R synt R T(15)GGCGCAGTGTTGACAGGTACAAGAAC Q1100P synt F T(15)CAATGAGAATAGAAATGATTTTTGTC Q1100P synt R T(15)GGGAACCAGCGCAGTGTTGACAGGTA D1152H synt F T(15)CATGTGGATAGCTTGGTAAGTCTTAT D1152H synt R T(15)GTATGCTGGAGTTTACAGCCCACTGC R1158X synt F T(15)TGATCTGTGAGCCGAGTCTTTAAGTT R1158X synt R T(15)ACATCTGAAATAAAAATAACAACATT S1196X synt F T(15)GACACGTGAAGAAAGATGACATCTGG S1196X synt R T(15)CAATTCTCAATAATCATAACTTTCGA 3732delA synt F T(15)GGAGATGACATCTGGCCCTCAGGGGG 3732delA synt R T(15)CTCCTTCACGTGTGAATTCTCAATAA 3791delC synt F T(15)AAGAAGGTGGAAATGCCATATTAGAG 3791delC synt R T(15)TTGTATTTTGCTGTGAGATCTTTGAC 3821delT synt F T(15)ATTCCTTCTCAATAAGTCCTGGCCAG 3821delT synt R T(15)GAATGTTCTCTAATATGGCATTTCCA Q1238X synt F T(15)TAGAGGGTGAGATTTGAACACTGCTT Q1238X synt R T(15)AGCCAGGACTTATTGAGAAGGAAATG S1255X (ex19)synt F T(15)GTCTGGCCCTCAGGGGGCCAAATGAC S1255X (ex19) synt R T(15)CGTCATCTTTCTTCACGTGTGAATTC S1255X;L synt F T(15)AAGCTTTTTTGAGACTACTGAACACT S1255X;L synt R T(15)TATAACAAAGTAATCTTCCCTGATCC 3849 ϩ 4AϾG synt F T(15)GGATTTGAACACTGCTTGCTTTGTTA 3849 ϩ 4AϾG synt R T(15)CCACCCTCTGGCCAGGACTTATTGAG 3850 - 1GϾA synt F T(15)AGTGGGCCTCTTGGGAAGAACTGGAT 3850 - 1GϾA synt R T(15)TTATAAGGTAAAAGTGATGGGATCAC 3905insT synt F T(15)TTTTTTTGAGACTACTGAACACTGAA 3905insT synt R T(15)AAAAAAAGCTGATAACAAAGTACTCT 3876delA synt F T(15)CGGGAAGAGTACTTTGTTATCAGCTT 3876delA synt R T(15)CGATCCAGTTCTTCCCAAGAGGCCCA G1244V synt F T(15)TAAGAACTGGATCAGGGAAGAGTACT G1244V synt R T(15)ACCAAGAGGCCCACCTATAAGGTAAA G1249E synt F T(15)AGAAGAGTACTTTGTTATCAGCTTTT G1249E synt R T(15)TCTGATCCAGTTCTTCCCAAGAGGCC S1251N synt F T(15)ATACTTTGTTATCAGCTTTTTTGAGACTACTG S1251N synt R T(15)TTCTTCCCTGATCCAGTTCTTCCCAA S1252P synt F T(15)CCTTTGTTATCAGCTTTTTTGAGACT S1252P synt R T(15)GACTCTTCCCTGATCCAGTTCTTCCC D1270N synt F T(15)AATGGTGTGTCTTGGGATTCAATAAC D1270N synt R T(15)TGATCTGGATTTCTCCTTCAGTGTTC W1282R synt F T(15)CGGAGGAAAGCCTTTGGAGTGATACC W1282R synt R T(15)GCTGTTGCAAAGTTATTGAATCCCAA R1283K synt F T(15)AGAAAGCCTTTGGAGTGATACCACAG R1283K synt R T(15)TTCCACTGTTGCAAAGTTATTGAATC 4005 ϩ 1GϾA synt F T(15)ATGAGCAAAAGGACTTAGCCAGAAAA 4005 ϩ 1GϾA synt R T(15)TCTGTGGTATCACTCCAAAGGCTTTC 4010del4 synt F T(15)GTATTTTTTCTGGAACATTTAGAAAAAACTTGG 4010del4 synt R T(15)AAAATACTTTCTATAGCAAAAAAGAAAAGAAGAA 4016insT synt F T(15)TTTTTTTCTGGAACATTTAGAAAAAACTTGG 4016insT synt R T(15)AAAAAAATAAATACTTTCTATAGCAAAAAAGAAAAGAAGA CFTRdele21 synt F T(15)TAGGTAAGGCTGCTAACTGAAATGAT CFTRdele21 synt R T(15)CCTATAGCAAAAAAGAAAAGAAGAAGAAAGTATG 4382delA synt F T(15)GAGAGAACAAAGTGCGGCAGTACGAT 4382delA synt R T(15)CTCTATGACCTATGGAAATGGCTGTT Bold, mutation allele of interest; bold and italicized, modified nucleotide. 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[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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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

[hide] High heterogeneity of CFTR mutations and unexpecte... J Cyst Fibros. 2004 Dec;3(4):265-72. des Georges M, Guittard C, Altieri JP, Templin C, Sarles J, Sarda P, Claustres M
High heterogeneity of CFTR mutations and unexpected low incidence of cystic fibrosis in the Mediterranean France.
J Cyst Fibros. 2004 Dec;3(4):265-72., [PMID:15698946]

Abstract [show]
In this report, we present updated spectrum and frequency of mutations of the CFTR gene that are responsible for cystic fibrosis (CF) in Languedoc-Roussillon (L-R), the southwestern part of France. A total of 75 different mutations were identified by DGGE in 215 families, accounting for 97.6% of CF genes and generating 88 different mutational genotypes. The frequency of p.F508del was 60.23% in L-R versus 67.18% in the whole country and only five other mutations (p.G542X, p.N1303K, p.R334W, c.1717-1G>A, c.711+1G>T) had a frequency higher than 1%. The mutations were scattered over 20 exons or their border. This sample representing only 5.7% of French CF patients contributed to 24% of CFTR mutations reported in France. This is one of the highest molecular allelic heterogeneity reported so far in CF. We also present the result of a neonatal screening program based on a two-tiered approach "IRT/20 mutations/IRT" analysis on blood spots, implemented in France with the aim to improve survival and quality of life of patients diagnosed before clinical onset. This 18-month pilot project showed an unexpected low incidence of CF (1/8885) in South of France, with only six CF children detected among 43,489 neonates born in L-R, and 13 among 125,339 neonates born in Provence-Alpes-Cote-d'Azur (PACA).

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38 The 20 most common mutations responsible for CF worldwide were investigated by amplification refractory mutation system (ARMS) and migration on agarose gel (Kit Elucigene CF20, including mutations c.1717-1GNA, p.G542X, p.W1282X, p.N1303K, p.F508del, c.3849+10kbCNT, c.621+1GNT, p.R553X, p.G551D, p.R117H, p.R1162X, p.R334W, p.A455E, c.2183AANG, c.3659delC, c.1078delT, p.I507del, p.R347P, p.S1251N, p.E60X). Login to comment
131 The panel of 30 mutations (c.1717-1GNA, p.G542X, p.W1282X, p.N1303K, p.F508del, c.3849+10kbCNT, c.621+1GNT, p.R553X, p.G551D, p.R117H, p.R1162X, p.R334W, p.A455E, c.2183AANG, c.3659delC, c.1078delT, p.I507del, p.R347P, p.S1251N, p.E60X, p.Y1092X, c.394delTT, c.1811+1.6kbANG, c.3272-26ANG, c.2789+5GNA, c.3120+1GNA, c.711+ 1GNT, p.G85E, p.Y122X, p.W846X) should account for 83.32% of the CF alleles in L-R and 84.25% in the whole country. Login to comment

[hide] Genotype-phenotype relationship for five CFTR muta... J Cyst Fibros. 2004 Dec;3(4):259-63. Dugueperoux I, De Braekeleer M
Genotype-phenotype relationship for five CFTR mutations frequently identified in western France.
J Cyst Fibros. 2004 Dec;3(4):259-63., [PMID:15698945]

Abstract [show]
BACKGROUND: Cystic fibrosis (CF) is the most common inherited disorder in Caucasian populations, with more than 1000 cystic fibrosis transmembrane conductance regulator (CFTR) mutations presently described. The distribution of the mutations ranges widely between countries and/or ethnic groups. Multicentric studies are usually needed to study the genotype-phenotype correlations. METHODS: Since 1992, the French CF Registry (FCFR) has collected and analyzed data from most of the CF patients regularly seen in CF care centres in France. We compared the mutation distribution of the patients born in western France to that of those born elsewhere in France. Then we extracted the available data for all the compound heterozygotes carrying the DeltaF508 allele and one of the following mutations: DeltaI507, 1078delT, 4005+1G->A, E60X and W846X, and matched a patient homozygous for the DeltaF508 mutation for each of them. RESULTS: Western France appeared to have a specific distribution of some CF mutations. Furthermore, disparities were found regarding the mutation repartition (DeltaI507 in Normandy, 1078delT, 4005+1G->A and W846X in western Brittany). Genotype-phenotype correlations showed a wide heterogeneity. Although variations were found, DeltaI507/DeltaF508, 4005+1G->A/DeltaF508 and 1078delT/DeltaF508 patients appeared to have a similar disease as the DeltaF508/DeltaF508 patients. Although the W846X and E60X mutations should be considered as severe alleles as regards to pancreatic function, they were associated with less severe pulmonary manifestations and, probably, better prognosis. CONCLUSION: The knowledge of the distribution of uncommon CF mutations specific to particular areas and of their associated phenotype makes up an essential tool in the management of local CF patients.

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5 Then we extracted the available data for all the compound heterozygotes carrying the DF508 allele and one of the following mutations: DI507, 1078delT, 4005+1G-NA, E60X and W846X, and matched a patient homozygous for the DF508 mutation for each of them. Login to comment
9 Although the W846X and E60X mutations should be considered as severe alleles as regards to pancreatic function, they were associated with less severe pulmonary manifestations and, probably, better prognosis. Login to comment
12 Keywords: Cystic fibrosis; DI507; 4005+1G-NA; 1078delT; E60X; W846X; Genotype-phenotype; Rare mutations; France 1. Login to comment
33 In a second step, we extracted the available data for all the compound heterozygotes carrying the DF508 allele and one of the following mutations: DI507, 1078delT, 4005+1G-NA, E60X and W846X, as previously described [15]. Login to comment
43 Five CFTR mutations (DI507, 4005+1G-NA, 1078delT, E60X and W846X) were more commonly identified in western France than in the other regions ( pb0.05 for all but one alleles). Login to comment
66 Table 1 Distribution of the CF alleles in western France and in the other French regions Western France Other regions Number of alleles Frequency (%) Number of alleles Frequency (%) DI507 16 0.97 36 0.55 1078delT 33 2.00 12 0.18 4005+1G-NA 6 0.36 13 0.20 E60X 7 0.43 3 0.05 W846X 9 0.55 7 0.11 DF508 1118 68.00 4031 61.22 Other mutations 306 18.61 1376 20.90 Unknown mutations 149 9.06 1106 16.80 Total 1644 6584 I. Dugue´pe´roux, M. De Braekeleer / Journal of Cystic Fibrosis 3 (2004) 259-263260 Nine pairs of E60X/DF508 and DF508 /DF508 patients were included in the present study (Table 3). Login to comment
68 The mean height and weight Z scores were higher among the E60X/DF508 patients but not statistically different from those of DF508 homozygous patients. Login to comment
70 The mean FEV1 and FCV values were much higher among the E60X/DF508 patients but not significantly different from those of the DF508 homozygotes. Login to comment
71 Seven out of the nine E60X/DF508 patients had pancreatic insufficiency. Login to comment
72 Ten W846X/DF508 patients were included in the study (Table 3). Login to comment
73 All of them had a G to A change at nucleotide Table 2 Distribution of the five CFTR alleles in the three regions of western France DI507 1078delT 4005+1G-NA E60X W846X Brittany 6(37.5%) 28(84.8%) 6(100.0%) 5(71.3%) 5(55.5%) Normandy 8(50.0%) 2(6.1%) 0 2(28.7%) 3(33.3%) Pays-de-Loire 2(12.5%) 3(9.1%) 0 0 1(11.2%) Western France 16(100.0%) 33(100.0%) 6(100.0%) 7(100.0%) 9(100.0%) Table 3 Clinical and laboratory findings of the CF patients distributed in the five genotype groups DI507/DF508 4005+1G-NA/DF508 1078delT/DF508 E60X/DF508 W846X/DF508 Sex (males/females) 10/11 4/6 13/10 2/7 4/6 Age on Jan 1, 2001 (years)* Mean age onFS.D. Login to comment
89 One was W846X/ DF508, another DI507/DF508 and the last one E60X/DF508. Login to comment
92 The E60X allele is also mentioned but as an uncommon CF mutation in specific populations. Login to comment
93 Indeed, in Belgium, the frequency of the E60X allele ranges from 1.0% to 2.1% [18]. Login to comment
94 No data are found on the 4005+1G-NA and W846X alleles in the CF database. Login to comment
100 Scotet et al. [4] reported a frequency over 3.5% for the 1078delT mutation, 0.8% for the 4005+1G-NA, 1.1% for the W846X and 0.7% for the E60X. Login to comment
101 A founder effect was also postulated for the 1078delT and W846X mutations [16]. Login to comment
106 Although not statistically different, the age at diagnosis and the Z scores of height and weight were higher in the E60X/DF508 group than among the DF508 homozygotes. Login to comment
108 The age distribution of the CF patients compound heterozygous for the E60X is also different from that of the DF508 homozygotes present in the French CF Registry, 67% being 15 years old and over compared to 40%. Login to comment
109 Statistically, no distinction can be made between the W846X/DF508 compound heterozygotes and the DF508 homozygotes except for a higher risk of diarrhoea at the time of diagnosis ( p=0.02). Login to comment
112 In the present study, patients carrying a stop mutation, either E60X or W846X, associated with DF508 have higher age at diagnosis, higher anthropometric and pulmonary function parameters, the mean BMI values being within the normal brackets. Login to comment
130 CF patients carrying the E60X or W846X allele have better anthropometric and lung functional results combined with a higher probability of reaching adulthood. Login to comment
131 This leads us to conclude that, although the W846X or E60X mutations should be considered as severe alleles as regards to pancreatic function, they are associated with less severe pulmonary manifestations and, probably, better prognosis. Login to comment
34 In a second step, we extracted the available data for all the compound heterozygotes carrying the DF508 allele and one of the following mutations: DI507, 1078delT, 4005+1G-NA, E60X and W846X, as previously described [15]. Login to comment
44 Five CFTR mutations (DI507, 4005+1G-NA, 1078delT, E60X and W846X) were more commonly identified in western France than in the other regions ( pb0.05 for all but one alleles). Login to comment
67 Table 1 Distribution of the CF alleles in western France and in the other French regions Western France Other regions Number of alleles Frequency (%) Number of alleles Frequency (%) DI507 16 0.97 36 0.55 1078delT 33 2.00 12 0.18 4005+1G-NA 6 0.36 13 0.20 E60X 7 0.43 3 0.05 W846X 9 0.55 7 0.11 DF508 1118 68.00 4031 61.22 Other mutations 306 18.61 1376 20.90 Unknown mutations 149 9.06 1106 16.80 Total 1644 6584 Nine pairs of E60X/DF508 and DF508 /DF508 patients were included in the present study (Table 3). Login to comment
69 The mean height and weight Z scores were higher among the E60X/DF508 patients but not statistically different from those of DF508 homozygous patients. Login to comment
74 All of them had a G to A change at nucleotide Table 2 Distribution of the five CFTR alleles in the three regions of western France DI507 1078delT 4005+1G-NA E60X W846X Brittany 6(37.5%) 28(84.8%) 6(100.0%) 5(71.3%) 5(55.5%) Normandy 8(50.0%) 2(6.1%) 0 2(28.7%) 3(33.3%) Pays-de-Loire 2(12.5%) 3(9.1%) 0 0 1(11.2%) Western France 16(100.0%) 33(100.0%) 6(100.0%) 7(100.0%) 9(100.0%) Table 3 Clinical and laboratory findings of the CF patients distributed in the five genotype groups DI507/DF508 4005+1G-NA/DF508 1078delT/DF508 E60X/DF508 W846X/DF508 Sex (males/females) 10/11 4/6 13/10 2/7 4/6 Age on Jan 1, 2001 (years)* Mean age onFS.D. Login to comment
90 One was W846X/ DF508, another DI507/DF508 and the last one E60X/DF508. Login to comment
107 Although not statistically different, the age at diagnosis and the Z scores of height and weight were higher in the E60X/DF508 group than among the DF508 homozygotes. Login to comment
113 In the present study, patients carrying a stop mutation, either E60X or W846X, associated with DF508 have higher age at diagnosis, higher anthropometric and pulmonary function parameters, the mean BMI values being within the normal brackets. Login to comment
132 This leads us to conclude that, although the W846X or E60X mutations should be considered as severe alleles as regards to pancreatic function, they are associated with less severe pulmonary manifestations and, probably, better prognosis. Login to comment

[hide] Distal intestinal obstruction syndrome in adults w... Clin Gastroenterol Hepatol. 2004 Jun;2(6):498-503. Dray X, Bienvenu T, Desmazes-Dufeu N, Dusser D, Marteau P, Hubert D
Distal intestinal obstruction syndrome in adults with cystic fibrosis.
Clin Gastroenterol Hepatol. 2004 Jun;2(6):498-503., [PMID:15181619]

Abstract [show]
BACKGROUND & AIMS: With the improved survival of patients with cystic fibrosis (CF), gastrointestinal complications become more evident in adults with this condition. The aims of this study were to determine the prevalence and clinical features of distal intestinal obstruction syndrome (DIOS) and its relationship with the cystic fibrosis transmembrane conductance regulator (CFTR) genotype in an adult CF population. METHODS: Cross-sectional study was conducted in an adult CF cohort. RESULTS: Among 171 adults with CF (mean age, 28.9 years), 27 patients (15.8%) reported 43 episodes of DIOS. No significant association was found between DIOS and a history of meconium ileus. The first episode of DIOS occurred in adulthood in 21 cases (77.8%). DIOS recurred in 13 patients (48.1%). All patients who developed DIOS had pancreatic insufficiency. Pulmonary function was significantly more altered in patients with DIOS than in the other patients, but pancreatic insufficiency and age might act as confounding factors. DIOS occurred in 21.9% of patients with a severe CFTR genotype and in only 2.4% of patients with a mild CFTR genotype (P < 0.005). CONCLUSIONS: DIOS is frequent in adults with CF with a severe CFTR genotype and/or advanced-stage pulmonary disease. The relative contributions of malabsorption and impaired intestinal secretion in the development of DIOS are discussed.

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110 CFTR Genotypes of Patients With a History of DIOS CFTR mutations Observations Frequency Mutation classes CFTR genotype ⌬F508/⌬F508 15 55.6% II/II Severe ⌬F508/non-⌬F508 9 33.3% ⌬F508/E60X 1 II/I Severe ⌬F508/G542X 1 II/I Severe ⌬F508/W846X 1 II/I Severe ⌬F508/R851X 1 II/I Severe ⌬F508/2894insAG 2 II/I Severe ⌬F508/⌬I507 1 II/II Severe ⌬F508/G551D 1 II/III Severe ⌬F508/2789ϩ5GϾA 1 II/V Mild Non-⌬F508/non-⌬F508 3 11.1% G542X/G542X 1 I/I Severe W1282X/W1282X 1 I/I Severe 1811ϩ1.6kb AϾG/ni 1 I/undetermined Undetermined Total 27 100.0% ni, not identified. Login to comment

[hide] Solid phase fluorescent sequencing of the CFTR gen... Methods Mol Biol. 2001;167:63-88. Cuppens H, Cassiman JJ
Solid phase fluorescent sequencing of the CFTR gene.
Methods Mol Biol. 2001;167:63-88., [PMID:11265322]

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255 (A) A "G" to "T" mutation at nucleotide position 310 of the CFTR gene in the E60X nonsense mutant. 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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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

[hide] A comparison of fluorescent SSCP and denaturing HP... Hum Mutat. 2000;15(6):556-64. Ellis LA, Taylor CF, Taylor GR
A comparison of fluorescent SSCP and denaturing HPLC for high throughput mutation scanning.
Hum Mutat. 2000;15(6):556-64., [PMID:10862085]

Abstract [show]
We examined 67 different mutations in 16 different amplicons in a comparison of mutation detection by fluorescent single strand conformation polymorphism (F-SSCP) and by denaturing HPLC (DHPLC). F-SSCP was used to analyze fluorescent amplicons with internal size standards and automated fragment analysis (GeneScan, PE Applied Biosystems, Foster City, CA). In DHPLC, unlabelled amplicons were analyzed by reverse phase HPLC with fragment detection by absorbance at 260nm. Both methods had high sensitivity (95-100%) and specificity (100%). Overall, F-SSCP with external temperature control was the more sensitive method, but DHPLC was particularly useful for the rapid analysis of novel fragments.

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97 Comparison of F-SSCP and DHPLC Using a Panel of ABCC7 Mutations Gel condition Location Location 49:1 49:1 49:1 49:1 MDE MDE MDE Capillary DHPLC °C from 5' (bp) from 3' (bp) 15 20 25 35 20 25 35 35 N/A Exon 3 (320bp) E60X 128 192 + + + + + + + + - P67L 150 170 + + + - + + + - + R75X 173 147 + + + + + + + + + R75Q 174 146 + + + - + + + + + G85E 204 116 + + + - + + + + + L88S 213 107 + + + + + + + + + Exon 4 (400bp) 441delA 135 265 + + + + + + + + + D110H 154 246 + + + + + + - + + R117H/H 176 224 + + + + + + + + N/A R117R/H 176 224 + + + + + + + + + L137H 236 164 + + + + + + + + + I148T 261 139 + + + + + + + + + 621+1 (G>T) 309 91 + + + + + + + + + Exon 7 (360bp) R334W 180 180 + + + + + + + - + 1058delC 105 255 + + + + + + + + + 1078delT 125 235 + + + - + + + + + 1138insG 226 134 - + + - + + + + + 1154insTC 202 158 + + + + + + + + + 1161delC 209 151 + + + + + + + + + R347H 220 140 + + + + + + - + + R347P 220 140 + + + - + + + - + A349V 226 134 + + + + + + + + + W356X 248 112 + + + + + + + + + Exon 10 (365bp) M470V 143 222 + + + + + + + + + Q493X 212 153 + + + + + + - + - DelF508 255 110 + + + + + + + + - Del I507 253 112 + + + + + + + + + V520F 293 72 + + - + + - + - + Exon 11 (190bp) 1717-1 (G>A) 54 136 + + + - + + - + + G542X 94 96 + + + - + + - + + S549N 116 74 + + + + + + + + - S549R 117 73 + + + + - - - + + G551D 122 68 + - - - + + + - + R553X 127 63 + + + + + + + + + G551D/R553X + + + + + + + + + R560T 149 41 + + + - - - - - + R560K 149 41 + + + - + + + - + 1811+1 (G>C) 150 40 + + + + + + + + + Exon 12 (250bp) 1898+1(G>A) 167 83 + + + + + + - + + Exon 13a (290bp) C590W 87 203 + + - - + - - + + Exon 13b (405bp) 2184insA 148 257 + + + + + + + - + R709X 220 185 - + - - - - - - + V754M 453 52 + + + + + + + - - Exon 13c (345bp) V754M 65 280 + + + + + + - - + R785X 158 187 + + - - + + - - + Exon 19 (370bp) 3601-17 (T>C) 29 341 - + + - + + + - + R1162X 61 309 + + - - + - - + + 3659delC 105 265 - - - + + + + + + Y1182X 123 247 - + + - + + + - + Exon 20 (370bp) W1282X 186 184 + + + + + + + + + % detected 90 96 86 66 94 88 74 72 90 remainder were detected using DGGE. Login to comment

[hide] Genotype-phenotype relationships in a cohort of ad... Eur Respir J. 1996 Nov;9(11):2207-14. Hubert D, Bienvenu T, Desmazes-Dufeu N, Fajac I, Lacronique J, Matran R, Kaplan JC, Dusser DJ
Genotype-phenotype relationships in a cohort of adult cystic fibrosis patients.
Eur Respir J. 1996 Nov;9(11):2207-14., [PMID:8947061]

Abstract [show]
In cystic fibrosis (CF), relationships between genotype and phenotype have been shown for pancreatic status but not for pulmonary disease. One hundred and ten adult CF patients were classified according to the expected effect of their mutations on cystic fibrosis transmembrane conductance regulator (CFTR) protein: Group 1 (n=48) included deltaF508 homozygotes; Group 2 (n=26), patients with two "severe" mutations and no expected CFTR production; Group 3 (n=17), patients with expected partly functional CFTR corresponding to at least one "mild" mutation; Group 4 (n=19), patients with no mutation identified or only one identified "severe" mutation. As compared to Groups 1 and 2: patients from Groups 3 and 4 had higher arterial oxygen tension (Pa,O2) (9.5+/-1.9 and 9.9+/-1.5 vs 8.8+/-1.5 and 8.3+/-1.7 kPa, respectively p<0.02); and a slower decline in their pulmonary function, estimated by the mean annual loss in forced vital capacity (FVC) (1.2+/-1.0 and 1.5+/-1.1 vs 2.0+/-0.9 and 2.2+/-1.0%, respectively; p<0.01) and in forced expiratory volume in one second (FEV1) (1.7+/-1.1 and 1.9+/-1.3 vs 2.6+/-1.0 and 2.8+/-1.0%, respectively; p<0.005). They had fewer episodes of colonization of the airways by Pseudomonas aeruginosa, and colonization occurred at a more advanced age (median age 25 and 19 vs 15 and 17 yrs, respectively; p<0.01) and required fewer intravenous antibiotic courses (p<0.01). Pancreatic insufficiency was less frequent in Groups 3 (23%) and 4 (63%) than in Groups 1 (100%) and 2 (96%). This study suggests that the phenotype of adult cystic fibrosis patients, including the severity of the lung disease, is related to the severity of the cystic fibrosis transmembrane conductance regulator mutations.

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77 - Genotype of the 110 CF patients: details of the CF mutations and classification into four groups Genotype Genotype Pts groups n 1 ∆F508/∆F508 48* 2 ∆F508/G542X 6 ∆F508/E827X 3† ∆F508/R553X 2 ∆F508/W1282X 2 ∆F508/E595X 1 206;F508/E60X 1 ∆F508/W846X 1 ∆F508/1078delT 1 ∆F508/2143delT 1 ∆F508/2347delG 1 ∆F508/3659delC 1 ∆F508/4382delA 1 ∆F508/2183 AA→G 1 ∆F508/1717-1 G→A 1 ∆F508/1811+1.6 kb A→G 1 E595X/Y1092X 1 1717-1 G→A/1078delT 1 3 ∆F508/I336K 1 ∆F508/G27E 1 ∆F508/D192N 1 ∆F508//I980K 1 ∆F508/P205S 1 ∆F508/2789+5 G→A 1 ∆F508/3272-26 A→G 1 G542X/3849+10 kb C→T 2‡ G542X/2789+5 G→A 1 W361R/297-3 C→T 1 G551D/1717-1 G→A 1 N1303H/2183 AA→G 1 2789+5 G→A/2183 AA→G 1 R1070Q/D1152H 1 R1070Q/unidentified 1 S1251N/unidentified 1 4 ∆F508/unidentified 7 ∆I507/unidentified 2 1811+1.6 kb A→G/unidentified 1 1161delC/unidentified 1 unidentified/unidentified 8 *: two patients are brothers; †: three brothers; ‡: two sisters. 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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46 Mutations R297Q, 557delT, and 3849G>A, first identified in Northern Irish CF patients, were identified by PCR assays and direct sequencing (Graham et al., 1991, 1992;Cutting et al., 1992), whereas E60X, 3659delC, and N1303K were found by automated fluorescent sequencing. Login to comment
53 35%) PAGE (278) Kerem et al.. 1989AF508 G551D R117H R560T G542X 621+1G>T A1507 E60X 3659delC R553X 3120G>A 1l54insTC 2789+5G>A N1303K MlI(G>T) QW P67L 557delT 711+3A>G L206W R297Q V520F V562L Y563N Y917C R1162X 3849G>A 3849 +10kbC>T 3850-1GBA W1282X 280 21 17 12 9 9 7 3 2 1 68.0 5.1 4.1 2.9 2.2 2.2 1.7 0.7 0.5 0.24 17-32-13 (38;27%j 17-31-13(24,17%) 16-07-17 16-30-13 plus14 rare haplotypes (29) 16-07-17 23-33-13 (4) 22-31-13 (2) 21-31-13 17-07-17 (5) 16-31-13 16-35-13 17-58-13 17-35-13 16-07-17 17-07-17 23-29-13 (1) 23-31-13 (1) 16-07-17 16-31-13 16-07-17 15-29-13 16-33-13 16-07-17 17-07-17 16-07-17 16-07-17 16-30-13 16-32-17 17-31-13 16-31-14 16-46-13 16-30-14 17-07-17 DGGE(2) ' RD ASO's (11) DGGE(6) RD AR (8) DGGE (1) RD PAGE (5) DGGE (2) SEQ SEQ (2) DGGE (1) RD DGGE DGGE DGGE SEQ DGGE DGGE DGGE SEQ DGGE DGGE SEQ DGGE DGGE DGGE DGGE DGGE SEQ RD DGGE DGGE Cutting et al.. 1990 Dean et al.. 1990 Kerem et al., 1990 Kerem et al.. 1990 Zielenski et al., 1991 Kerem et al.. 1990 Malone et al., CFGAC Kerem et al., 1990 Cutting et al., 1990 Zielenski et al., CFGAC lannuzzi et al., 1991 Highsmith et al., 1990 Osborne et al., 1991 this study Savov et al., 1994 Hamosh et al., CFGAC Graham et al., 1992 Petreska et al., CFGAC Claustres et al., 1993 Graham et al., 1991 Jones et al.. 1992 this study Kerem et al.. 1990 Edkins & Creegan, CFGAC Gasparini et al., 1991 Cutting et al.. 1992 Highsmith et al., 1994 Audriizet et al., 1993 Vidaud et al., 1990 "Numbers in parentheses after the microsatellite haplotypes refer to the number of alleles haplotyped when not all of the available chromosomeswere typed. Login to comment
72 241delAT 40-70 40 16 E60X 394delTT, R75X R75Q (p),P67L. Login to comment

[hide] Fluorescent multiplex microsatellites used to defi... Hum Mutat. 1996;8(3):229-35. Hughes D, Wallace A, Taylor J, Tassabehji M, McMahon R, Hill A, Nevin N, Graham C
Fluorescent multiplex microsatellites used to define haplotypes associated with 75 CFTR mutations from the UK on 437 CF chromosomes.
Hum Mutat. 1996;8(3):229-35., [PMID:8889582]

Abstract [show]
The cystic fibrosis (CF) transmembrane conductance regulator (CFTR) gene contains three highly informative microsatellites: IVS8CA, IVS17bTA, and IVS17bCA. Their analysis improves prenatal/ carrier diagnosis and generates haplotypes from CF chromosomes that are strongly associated with specific mutations. Microsatellite haplotypes were defined for 75 CFTR mutations carried on 437 CF chromosomes (220 for delta F508, 217 for other mutations) from Northern Ireland and three English regions: the North-West, East Anglia, and the South. Fluorescently labelled microsatellites were amplified in a triplex PCR reaction and typed using an ABI 373A fluorescent fragment analyser. These mutations cover all the common and most of the rare CF defects found in the UK, and their corresponding haplotypes and geographic region are tabulated here. Ancient mutations, delta F508, G542X, N1303K, were associated with several related haplotypes due to slippage during replication, whereas other common mutations were associated with the one respective haplotype (e.g., G551D and R560T with 16-7-17, R117H with 16-30-13, 621 + 1G > T with 21-31-13, 3659delC with 16-35-13). This simple, fast, and automated method for fluorescent typing of these haplotypes will help to direct mutation screening for uncharacterised CF chromosomes.

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83 G 23-31-13 2 NI,G 24-31-13 1 C R117H 16-30-13 19 16.3 NI.G, C 1717-1G>A 16-07-17 2 M, G 16-30-13 2 M, G R553X 17-55-13 1 M 17-56-13 1 C 17-58-13 1 0.4 NI 1898+1G>A 16-45-13 4 1.5 M E60X 0.2-0.5 16-31-13 7 3.8 NI.M G85E 16-24-13 8 M. G, C 1154insTC 16-07-17 4 NI, M, G A1507 17-07-17 5 4.5 NI R560T 16-07-17 8 N1 3659delC 16-35-13 7 2.3 NI. Login to comment

[hide] Haplotype analysis of 94 cystic fibrosis mutations... Hum Mutat. 1996;8(2):149-59. Morral N, Dork T, Llevadot R, Dziadek V, Mercier B, Ferec C, Costes B, Girodon E, Zielenski J, Tsui LC, Tummler B, Estivill X
Haplotype analysis of 94 cystic fibrosis mutations with seven polymorphic CFTR DNA markers.
Hum Mutat. 1996;8(2):149-59., [PMID:8844213]

Abstract [show]
We have analyzed 416 normal and 467 chromosomes carrying 94 different cystic fibrosis (CF) mutations with polymorphic genetic markers J44, IVS6aGATT, IVS8CA, T854, IVS17BTA, IVS17BCA, and TUB20. The number of mutations found with each haplotype is proportional to its frequency among normal chromosomes, suggesting that there is no preferential haplotype in which mutations arise and thus excluding possible selection for specific haplotypes. While many common mutations in the worldwide CF population showed absence of haplotype variation, indicating their recent origins, some mutations were associated with more than one haplotype. The most common CF mutations, delta F508, G542X, and N1303K, showed the highest number of slippage events at microsatellites, suggesting that they are the most ancient CF mutations. Recurrence was probably the case for 9 CF mutations (R117H, H199Y, R347YH, R347P, L558S, 2184insA, 3272-26A-->G, R1162X, and 3849 + 10kbC-->T). This analysis of 94 CF mutations should facilitate mutation screening and provides useful data for studies on population genetics of CF.

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105 CFTR Haplotypes for Diallelic and Multiallelic DNA Markers for 94 CF Mutations" J44-GATT- 8CA-17BTA- No. of T854-TUB20 17BCA Mutation chromosomes % Normal Laboratory Reference 2-7-1-2 17-47-13 (55.4%) 17-46-13 17-45-13 17-34-13 17-32-13 17-31-14 17-31-13 17-29-14 17-28-13 16-48-13 16-46-14 16-46-13 16-45-13 16-44-13 16-35-13 16-33-13 16-32-13 16-31-14 16-31-13 16-30-13 16-29-13 16-26-13 16-25-13 16-24-13 14-31-13 1-7-2-1 17-7-17 (16.8%) R334W R334W 3860ins31 G1244E R1162X R1162X R1162X G91R MllOlK R347P R334W R117C E92K 3849+lOkbC+T 3293delA 1811+1.6kb A-tG 1811+1.6kb A-tG 2184insA P205S 3659delC G673X 11005R I336K W58S R347P W846X 405+1-A G178R 3905insT R1162X R347H 3100insA E60X 1078delT 4005+1-A K710X 1677delTA H199Y 3601-2AjG 3850-3T+G 3272-26A-tG 3850-1-A 1812-1-A R117H L1059X S492F Y1092X Y569H 3732delA C866Y 711+1G+T 711+1-T G85E 1949del84 2789+5-A H1085R W1282X R1066C 2043delG V456F 2 1 1 1 2 1 6 2 2 1 2 1 1 2 1 1 4 1 1 1 3 2 1 1 1 1 1 1 2 7 1 1 1 1 2 1 1 3 19 3 3 1 1 2 1 1 5 1 1 1 1 3 6 3 5 1 13 2 1 1 - 0.48 0.48 - - - 0.24 - - - 2.65 2.40 1.93 2.65 1.68 2.65 0.72 13.94 13.46 1.93 - 0.72 0.24 3.37 - b b fP fP fP t b,fb.fP h fb t h t h h fP fP b.h b h h b h h h h h fb fb,fP.t fP fP fP9t fP b t fPh b h fb b.fb,h fb*fP b,fP h h t h fb fb,fp,h.t fP fP fb t b.fP,t b,fb,h,t b f b h h fb b,fb.fP,h fP h h Gasparini et al. (1991b) Chilldn et al. (1993a) Devoto et al. (1991) Gasparini et al. (1991b) Dork et al. (1993a) Guillermit et al. (1993) Zielenski et al. (1993) Dean et al. (1990) Dork et al. (1994a) Nunes et al. (1993) Highsmith et al. (1994) Ghanem et al. (1994) Chilldn et al. (1995) Dork et al. (1994a) Dork et al. (1993a) Chilldn et al. (1993b) Kerem et al. (1990) Dork et al. (1994a) Dork et al. (1994a) Cuppenset al. (1993) Fanen et al. (1992) Maggio et al. (personal communication) Audrezet et al. (1993) Vidaud et al. (1990) Dork et al. (1993b) Zielenski et al. (1991a) Chilldn et al. (1994b) Malik et al. (personal communication) Cremonesi et at. Login to comment

[hide] Methods for screening in cystic fibrosis. Methods Mol Med. 1996;5:99-119. Schwarz M, Malone G
Methods for screening in cystic fibrosis.
Methods Mol Med. 1996;5:99-119., [PMID:21374513]

Abstract [show]
Cystic fibrosis (CF) is the most common lethal autosomal recessive disorder in Whites, with an incidence of approx 1 m 2500 live births and a carrier frequency of approx 1 in 25. Since the discovery of the cystic fibrosis transmembrane conductance regulator (CFTR) gene m 1989 (1-3), molecular genetics laboratories throughout the world have endeavored to identify the mutations present in their population of CF-bearing chromosomes. Since the entire CFTR gene and its intron-exon boundaries have been sequenced, mutation analysis in CF has become relatively simple, although time consuming. Generally, a number of different methods are applied to mutation analysis, but all involve an imtial step of amplification of part of the gene by polymerase chain reaction (PCR) (4), or a derivative of it, such as amplification refractory mutation system (ARMS) (5).

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10 Molecular D/agnoss of GenetIc Diseases Edlted by R Elles Humana Press Inc , Totowa, NJ 99 Table1 RelativeFrequenciesoftheCommonCFMutationsintheUnitedKingdom(S),NorthAmerica, andNorthernandSouthernEurope(7)" NorthNorthernSouthern UKAmericaEuropeEurope MutationExonNo.%No.%No.%No%References AF508 G551D G542X 621+l(G>T) 1717-l(G>A) sR117H =R553x 1898+l(G>A) N1303K R560T AI507 G85E 1154insTC V520F W1282X E60X 3659delC 1078delT 10738775.32690066.114,86670.28400755.033 113023.082061.973561.68370.518 111651.682342.244392.082593.569 intron4910.931541.48970.46370.51IO intron10560.57440.421600.76650.899 4450.46610.586202930.04II 11450.46960.921650.7844068 intron12450.4620.02410.191001412 21450.461301.252090.991792.4613 11410.42240.2340019009 10300.31200.19570.2750.079,14 3210.211601530014140.19II 7190.19n/an/an/an/an/an/a15 10170.17n/an/an/an/an/an/a16 20170.172452.351200.57430.5917 3160.16n/an/an/an/an/an/aMaloneb 19140.14140.133901810.019 790.0910.015302520.318 S549N1180.0850.051800920038 Q493X1070.07n/an/adan/adan/a9 R347P760.06260.25550.26240.3311 3849+10kb(C>T)intron1950.05570.55230.1180.1119 A455E930.03270.26350.17009 %/a,Datanotavadable. Login to comment

[hide] Genetic and clinical features of patients with cys... Thorax. 1995 Dec;50(12):1301-4. Gan KH, Geus WP, Bakker W, Lamers CB, Heijerman HG
Genetic and clinical features of patients with cystic fibrosis diagnosed after the age of 16 years.
Thorax. 1995 Dec;50(12):1301-4., [PMID:8553305]

Abstract [show]
BACKGROUND: Cystic fibrosis is usually diagnosed in childhood, but a number of patients are not diagnosed until adulthood. The aim of this study was to investigate whether patients diagnosed at an older age had a different genetic constitution, manifestations of disease, and prognosis from those diagnosed at an early age. METHODS: Clinical data and results of lung function tests and DNA analysis of 143 adult patients with cystic fibrosis were entered into a computerised database. Patients diagnosed before their 16th birthday (early diagnosis, ED) were compared with those diagnosed at 16 years of age or older (late diagnosis, LD). RESULTS: Mean age of diagnosis of the ED group was 4.6 years compared with 27.7 years for the LD group. Mean (SD) percentage predicted pulmonary function was better for the LD group than for the ED group: forced expiratory volume in one second (FEV1) 72.5 (31.1)% and 52.0 (24.8)%, and forced vital capacity (FVC) 89.8 (25.7)% and 71.9 (23.0)%, respectively. Colonisation with Pseudomonas aeruginosa was present in 70% of the ED group and 24% of the LD group. In the ED group 81% had pancreatic insufficiency compared with only 12% of the LD group. None of the LD group was homozygous for delta F508 compared with 58% of the ED group. In the LD group 72% were compound AF508 heterozygotes and 28% had two non-delta F508 mutations. CONCLUSIONS: Among this group of 143 adult patients with cystic fibrosis late diagnosis is caused mainly by delayed expression and mild progression of clinical symptoms. Late diagnosis is associated with milder pulmonary disease, less pancreatic insufficiency, and different cystic fibrosis mutations. Since mortality in cystic fibrosis depends on the progression of pulmonary disease, patients with a late diagnosis have a better prognosis than those diagnosed early.

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41 DNA was analysed for the following mutations: E60X, R117H, A455E, AI507, AF508, G542X, S549N, G550X, G551D, R553X, R560T, R1162X, S1251N, W1282X, N1303K, 621 + 1G-+T, 1717-1G--+A. These mutations represent 80% ofthe expected cystic fibrosis mutations in The Netherlands. Login to comment
65 Table 3 CFTR mutations in 278 chromosomes of adult cystic fibrosis patients Early diagnosis Late diagnosis (n= 118) (n=25) n % n % AF508s 175 74-2 18 36-0 A455Em 12 5-1 14 28-0 1717-15 6 2-5 1 2-0 G542X' 4 1-7 - W1282X1 3 1-3 - R553X' 1 04 1 2-0 S1251N 2 0-8 - N1303K' 1 0 4 - E60X 1 0-4 3 6-0 Not identified 31 13-2 13 26-0 Total 236 50 Mutations not found: RI 17H, AI507, S549N, G550X, G551D, R560T, R1162X, 621+1G-+T. Login to comment

[hide] A cystic fibrosis mutation associated with mild lu... N Engl J Med. 1995 Jul 13;333(2):95-9. Gan KH, Veeze HJ, van den Ouweland AM, Halley DJ, Scheffer H, van der Hout A, Overbeek SE, de Jongste JC, Bakker W, Heijerman HG
A cystic fibrosis mutation associated with mild lung disease.
N Engl J Med. 1995 Jul 13;333(2):95-9., [PMID:7539891]

Abstract [show]
BACKGROUND: Cystic fibrosis is the most common lethal autosomal recessive disorder among whites. Among Dutch patients with cystic fibrosis, delta F508 is the most common mutation and A455E the second most common mutation of the cystic fibrosis transmembrane conductance regulator gene on chromosome 7. A455E is associated with preserved pancreatic function and residual secretion of chloride across membranes. We investigated whether it is also associated with less severe pulmonary disease in patients with cystic fibrosis. METHODS: A total of 33 patients with compound heterozygosity for the A455E mutation were matched according to age and sex with patients who were homozygous for the delta F508 mutation. The pairs were analyzed with respect to the following outcome variables: age at diagnosis, pulmonary-function values, and the frequency of pseudomonas colonization, pancreatic sufficiency, and diabetes mellitus. RESULTS: Cystic fibrosis was diagnosed at a later age in the patients with the A455E mutation than in the delta F508 homozygotes (mean age at diagnosis, 15.0 vs. 3.1 years; P < 0.001). Fewer patients with the A455E mutation had pancreatic insufficiency (21.2 percent vs. 93.9 percent, P < 0.001), and none had diabetes mellitus (0 percent vs. 27.3 percent, P = 0.004). Forced expiratory volume in one second (FEV1) and forced vital capacity (FVC) were significantly higher in the patients with the A455E mutation (mean FEV1, 73.9 percent of the predicted value vs. 54.3 percent of the predicted value; P = 0.002; mean FVC, 88.7 percent of the predicted value vs. 76.3 percent of the predicted value; P = 0.04). Fewer patients with the A455E mutation were colonized with Pseudomonas aeruginosa (33.3 percent vs. 60.6 percent, P = 0.02). CONCLUSIONS: A455E is a common mutation causing cystic fibrosis in the Netherlands. Although several mutations are known to be associated with less severe pancreatic disease, our findings demonstrate a correlation between the A455E mutation and mild pulmonary disease. Because mortality in this disease depends primarily on the progression of pulmonary disease, patients with the A455E mutation have a better prognosis than patients who are homozygous for the delta F508 mutation.

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34 Among the patients screened, 151 were found to be homozygous for the ⌬F508 mutation and 39 were found to have compound heterozygosity for the A455E mutation. Login to comment
35 In the A455E compound heterozygotes, the following mutations were found on the other allele: ⌬F508 (27 patients), 1717-1G→A (4 patients), E60X (4 patients), G542X (2 patients), R553X (1 patient), and an unknown mutation (1 patient). Login to comment
69 †The following genotypes were identified: A455E/⌬F508 (25 patients), A455E/E60X (4), A455E/G542X (2), A455E/R553X (1), and A455E/1717-1G→A (1). Login to comment
70 ߤThe following genotypes were identified: A455E/F508 (25 patients), A455E/E60X (4), A455E/G542X (2), A455E/R553X (1), and A455E/1717-1G࢐A (1). Login to comment

[hide] Fluorescent multiplex microsatellites used to iden... Hum Genet. 1995 Apr;95(4):462-4. Hughes D, Hill A, Redmond A, Nevin N, Graham C
Fluorescent multiplex microsatellites used to identify haplotype associations with 15 CFTR mutations in 124 Northern Irish CF families.
Hum Genet. 1995 Apr;95(4):462-4., [PMID:7535745]

Abstract [show]
The cystic fibrosis transmembrane conductance regulator gene contains three highly informative microsatellites; IVS8CA, IVS17BTA and IVS17BCA. Fluorescent multiplexes of these microsatellites were assayed in 124 CF families carrying 15 different CFTR mutations, from N. Ireland.

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25 Nine haplotypes having specific CF mutations are not present in normal chromosomes Mutation Alleles tested (%) AF508 41 (34.2) 32 (26.7) 22 (18.3) G551D 16 R560T 08 621 + 1G > T 08 Rll7H 05 G542X 03 02 E60X 02 M507 02 R297Q 01 R553X 01 3849 G > A 01 N1303K 01 3659delC 01 557delT 01 Q2X 01 Frequency Haplotype of mutation in % 8AC 17AT 17AC 463 % in normal chromosomes 58.0 23 31 13 - 17 32 13 01 17 31 13 - 4.0 16 07 17 03 2.5 16 07 17 03 1.7 21 31 13 - 2.1 16 30 13 16 1.7 23 33 13 01 22 31 13 - 0.6 16 31 13 03 0.8 17 07 17 08 0.2 17 07 17 08 0.2 17 58 13 - 0.2 16 31 14 - 0.4 23 31 13 - 0.2 16 35 13 03 0.2 15 29 13 - 0.2 23 34 13 01 Table 2 Frequent haplotypes generated from normal and uncharacterised CF chromosomes in N. Ireland. Login to comment

[hide] Detection of more than 50 different CFTR mutations... Hum Genet. 1994 Nov;94(5):533-42. Dork T, Mekus F, Schmidt K, Bosshammer J, Fislage R, Heuer T, Dziadek V, Neumann T, Kalin N, Wulbrand U, et al.
Detection of more than 50 different CFTR mutations in a large group of German cystic fibrosis patients.
Hum Genet. 1994 Nov;94(5):533-42., [PMID:7525450]

Abstract [show]
We have conducted a comprehensive study of the molecular basis of cystic fibrosis (CF) in 350 German CF patients. A screening approach based on single-strand conformation analysis and direct sequencing of genomic polymerase chain reaction products has allowed us to detect the molecular defects on 95.4% of the CF chromosomes within the coding region and splice sites of the cystic fibrosis transmembrane conductance regulator (CFTR) gene. The spectrum of sequence changes comprises 54 different mutations, including 17 missense mutations, 14 nonsense mutations, 11 frameshift mutations, 10 splice site variants and two amino acid deletions. Eleven of these mutations have not previously been described. Our results reflect the marked mutational heterogeneity of CF in a large sample of patients from a non-isolated population.

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77 Table 1 Frequency distribution and haplotypes of CFTR mutations in 700 German CF chromosomes Mutation~ Nucleotide changesb Locationc Frequencyd Haplotype~ Referencef Q39x C--~T at 247 Exon 2 1 (0.1%) D3 Cutting et al. (1992) E60X G-+T at 310 Exon 3 1 (0.1%) A2 Malone et al. (*) R75X C--+T at 355 Exon 3 1 (0.1%) C2 This study 405+1 G---~A G-+A at 405+1 Intron 3 1 (0.1%) C2 D6rk et al. (1993c) E92X G--~T at 406 Exon 4 2 (0.3%) B2 Will et al. (1994) R117C C---~Tat 481 Exon 4 1 (0.1%) C2 This study R117H G--+A at 482 Exon 4 2 (0.3%) B6 Dean et al. (1990) 621+1 G--+T G--+T at 621+1 Intron 4 1 (0.1%) B1 Zielenski et al. (1991b) H199Y C--+T at 727 Exon 6a 1 (0.1%) A2 This study (*) 1078delT Deletion of T at 1078 Exon 7 4 (0.6%) C2 Claustres et al. (1992) R334W C-~T at 1132 Exon 7 2 (0.3%) BI Gasparini et al. (1991) 1336K T-->A at 1139 Exon 7 3 (0.4%) A2 Cuppens et al. (1993) R347P G--+C at 1172 Exon 7 11 (1.6%) A2, C2 Dean et al. (1990) 1342-2 A--+C A--+C at 1342-2 Intron 8 3 (0.4%) A4 D/3rk et al. (1993b) Q414X C--+T at 1372 Exon 9 1 (0.1%) D3 D6rk et al. (1994a) A455E C-+A at 1496 Exon 9 1 (0.1%) BI Kerem et al. (1990) V456F G--~T at 1498 Exon 9 1 (0.1%) B3 D6rk et al. (1994a) A1507 Deletion of 3 bp between 1648-1653 Exon 10 1 (0.1%) D5 Kerem et al. (1990) AF508 Deletion of 3 bp between 1652-1655 Exon 10 504 (72.0%) B1, DI, B7 Kerem et al. (1989) 1717-1 G--+A G--+A at 1717-1 lntron 10 6 (0.9%) B3 Kerem et al. (1990) G542X G--+T at 1756 Exon 11 10 (1.4%) B1 Kerem et al. (1990) G551D G--+A at 1784 Exon 11 7 (l.0%) B3 Cutting et al. (1990) Q552X C-+T at 1786 Exon 11 1 (0.1%) A4 Devoto et al. (1991) R553X C--+T at 1789 Exon 11 16 (2.3%) A4, B4, D3 Cutting et al. (1990) L558S T--+C at 1805 Exon 11 1 (0.1%) C2 Maggio et al. (*) 1811+I.6kBA-+G A--+Gat 1811+l.6kB lntron 11 1 (0.1%) A2 Chillonetal. Login to comment
79 Minor haplotypes are indicated in italics f The following mutations (*) were reported to the Cystic Fibrosis Genetic Analysis Consortium as personal communications: E60X by G. Malone, M. Schwartz and M. Super; H199Y by T.DOrk and B.Tttmmler (in preparation); L558S by M. Maggio, M.Goossens and P. Fanen; 1811+1.6 kB A--+G by M.Chillon, T. D6rk, V. Nunes, T.Casals and X.Estivill; 1833delT by M.Schwartz, A.L. Palle and G. V. Christensen; 2789+5 G----~Aby W. E. Highsmith Jr., T.Strong, L. Burch, L.M.Silverman, F.S.Collins, R.C. Boucher and M.R. Knowles; 3849+10 kB C-+T by W.E. Highsmith Jr., L. Butch, T. 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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120 Exon 1: S4X (24), 186-13C-G (F£rec et al., pers. comm.); Exon 2: G27X (Shacldeton and Harris, pers. comm.), Q30X (Chilldn aal., pers. comm.), R31L (Zielenski et al., pers. comm.), Q39X (25); Exon 3: 300delA (Malone et al., pers. comm.), W57G (Ferrari et al., pers. comm.), W57X (26), E60X (Malone et al., pers. comm.), R74W (Claustres et al., pers. comm.), R75Q (27), G85E (28), 394delTT (Claustres et al., pers. comm.), L88X (Maceketal., pers. comm.), L88S (Malone et al., pers. comm.), 405 + 1G-A (Dork and Tummler, pers. comm.); Exon 4: E92K (Chillon et al., pers. comm.), E92X (D6rk a al., pers. comm.), P99L (Schwartz and Holmberg, pers. comm.), 441delA (Zielenski et al., pers. comm.), 444delA (29), 457TAT-C- (F£rec et al., pers. comm., (21), Dl 10H (14), Rl 17C (D6rk et al., pers. comm.), Rl 17H (14), A120T (Chillon et al., pers. comm.), 541delC (30), 556delA (28), I148T (Rininsland et al., pers. comm.), Q151X (Shacldeton et al., pers. comm.), 621 + 1C-T (28), 622-2A-C (31); Exon5:G178R (28), 681delC (Zielenski a al., pers. comm.), 711 + 1G-T (28); Exon 6a: H199Y (Dork and Tummler, pers. comm.), H199Q (Dean etal., pers. comm.), L206W (Claustres et al., pers. comm.), Q220X (Shacldeton and Harris, pers. comm., Schwartz and Holmberg, pers. comm.), 852del22 (32); Exon 6b: 977insA (33); Exon7:F311L(34). Login to comment

[hide] Retrospective study of the cystic fibrosis transme... Hum Genet. 1994 Apr;93(4):429-34. Verlingue C, Mercier B, Lecoq I, Audrezet MP, Laroche D, Travert G, Ferec C
Retrospective study of the cystic fibrosis transmembrane conductance regulator (CFTR) gene mutations in Guthrie cards from a large cohort of neonatal screening for cystic fibrosis.
Hum Genet. 1994 Apr;93(4):429-34., [PMID:7513292]

Abstract [show]
The cystic fibrosis transmembrane conductance regulator (CFTR) gene encodes a cAMP-activated chloride channel, and in individuals with both alleles of the gene mutated, symptoms of CF disease are manifest. With more than 300 mutations so far described in the gene the profile of mutant alleles in a population is specific to its ethnic origin. For an analysis with an unbiased recruitment of the CF alleles in neonates of similar origin (Normandy, France), we have retrospectively analyzed the Guthrie cards of affected newborns, diagnosed by the immunoreactive trypsinogen (IRT) assay. Analysis of the 27 exons of the CFTR gene using a GC clamp denaturing gradient gel electrophoresis (DGGE) assay has enabled us to identify over 96% of the mutated alleles. Two of these were novel mutations. We would like to propose this strategy as an efficient method of retrospective molecular genetic diagnosis that can be performed wherever Guthrie cards can be obtained. Knowledge of rare alleles could be a prerequisite for CF therapy in the future.

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69 1 Kerem et al. 1990 1 394 del TT 3 0.05 Claustres et al. 1993 1 E60X 3 0.05 unpublished data 1 621 + 1 G---~T intron 5 0.05 Zielenski et a1.1991 1 876 - 14 del 12 NT 6a 0.05 Audr6zet et a1.1993 1 Q493X 10 0.05 Kerem et al. 1990 1 1507 10 0.05 Kerem et al. 1990, Schwartz et al. 1991 1 1717 - 1 G---~A intron 10 0.05 Kerem et al. 1990, Guillermit et al. 1990 1 K710X 13 0.05 Fanen et al. 1992 1 L610S 13 0.05 This study 1 E83 IX 14a 0.05 This study 1 W846X 14a 0.05 Vidaud et al. 1990 1 $945L 15 0.05 Claustres et al. 1993 1 Y1092X 17b 0.05 unpublisheddata 1 3359 del CT 17b 0.05 Mercier et al. 1993 1 RI066C 17b 0.05 Fanen et al. 1992 1 W1204X 19 0.05 Costes et al. 1993 1 R1162X 19 0.05 Gasparini et al. 1991 1 W1282X 20 0.05 Vidaud et al. 1990 175 Identified 96.1 6 Unidentified 3.9 15 No blood left to perform the complete analysis 196 Total The affected child has a pancreatic insufficiency. 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
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

[hide] Exon 9 of the CFTR gene: splice site haplotypes an... Hum Genet. 1994 Jan;93(1):67-73. Dork T, Fislage R, Neumann T, Wulf B, Tummler B
Exon 9 of the CFTR gene: splice site haplotypes and cystic fibrosis mutations.
Hum Genet. 1994 Jan;93(1):67-73., [PMID:7505767]

Abstract [show]
The alternatively spliced exon 9 of the cystic fibrosis transmembrane conductance regulator (CFTR) gene codes for the initial part of the amino-terminal nucleotide-binding fold of CFTR. A unique feature of the acceptor splice site preceding this exon is a variable length polymorphism within the polypyrimidine tract influencing the extent of exon 9 skipping in CFTR mRNA. We investigated this repeat for its relationship to CFTR mutations and intragenic markers on 200 chromosomes from German patients with cystic fibrosis (CF). Four frequent length variations were strongly associated with the four predominant haplotypes previously defined by intragenic marker dimorphisms. One of these alleles displayed absolute linkage disequilibrium to the major CF mutation delta F508. Other frequent CFTR mutations were linked to one particular splice site haplotype indicating that differential exon 9 skipping contributes little to the clinical heterogeneity among CF patients with an identical mutation. We also identified a novel missense mutation (V456F) and a novel nonsense mutation (Q414X) within the coding region of exon 9. The missense mutation V456F adjacent to Walker motif A was present in a pancreas-sufficient CF patient. In contrast, the pancreas-insufficient Q414X/delta F508 compound heterozygote suffered from a severe form of the disease, indicating that alternative splicing of exon 9 does not overcome the deleterious effect of a stop codon with this exon.

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61 Association of (TG),Tm alleles with CFTR mutations (TG),Tm CFTR mutationsa (TG)llT7 E60X, E92X, R117C, 1078delT, R347P, R553X, 2184delA, 2184insA, I1005R, 3272-26A--~G, L1059X, Y1092X, R1162X, 3659delC, 3850-3T-oG, S1251N Q39X, R117H, Q414X, V456F, AI507, 1717-1G--~A, G551D, 2043delG, 2183AA---~G, 2184insA, 2789 + 5 G---~A,3272-26A---~G, R1066C, L1077P, 3849 + l0 kB C---~T,4374 + 1 G---~T 621 + 1 G---~T,R334W, A455E, AF508, G542X, 2143delT, 3849 + 10 kB C---~T,NI303K 405 + 1 G----~A,1342-2 A---~C,R553X (TG)IoT7 (TG)10T9 (TG)12T7 a References are compiled in Tsui (1992), except for 2143delT (Dtrk et al. 1992b), 3850-3 T---~G,4374 + 1 G---~T,1342-2 A---~C (Dtrk et al. 1993a, b), Q414X, V456F (this work), 405 + 1 G---~A, E92X, R117C, 2184delA, 2184insA, I1005R, L1059X (T. Login to comment

[hide] Detection of 98.5% of the mutations in 200 Belgian... Genomics. 1993 Dec;18(3):693-7. Cuppens H, Marynen P, De Boeck C, Cassiman JJ
Detection of 98.5% of the mutations in 200 Belgian cystic fibrosis alleles by reverse dot-blot and sequencing of the complete coding region and exon/intron junctions of the CFTR gene.
Genomics. 1993 Dec;18(3):693-7., [PMID:7508414]

Abstract [show]
We have previously shown that about 85% of the mutations in 194 Belgian cystic fibrosis alleles could be detected by a reverse dot-blot assay. In the present study, 50 Belgian chromosomes were analyzed for mutations in the cystic fibrosis transmembrane conductance regulator gene by means of direct solid phase automatic sequencing of PCR products of individual exons. Twenty-six disease mutations and 14 polymorphisms were found. Twelve of these mutations and 3 polymorphisms were not described before. With the exception of one mutant allele carrying two mutations, these mutations were the only mutations found in the complete coding region and their exon/intron boundaries. The total sensitivity of mutant CF alleles that could be identified was 98.5%. Given the heterogeneity of these mutations, most of them very rare, CFTR mutation screening still remains rather complex in our population, and population screening, whether desirable or not, does not appear to be technically feasible with the methods currently available.

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32 The E60X mutation was independently found by Malone et al. (in Ref. 21). Login to comment
43 TABLE 1 Mutations (and Their Frequencies) Identified in This Study Predicted amino Mutation Nucleotide change~ acid change Location Frequencyb Reference E60X G --~ T at 310 (TAGATAGCT) Glu --~ Stop at 60 Malone et al. in (21); this study G --~ A at 482 (GAACACTCT) (8) A --~ C at 622-2 (TTTTCGACT) This study T --~ A at 1139 (AAAAAATTC) This study G --~ A at 1335 (TCTGAGAGG) This study C --~ A at 1496 (TTGGAGGTT) (14) G -~ T at 1505 (GCTGTATCC) (6) Deletion of ATC from 1651 (14); Schwarz et al. (TATC_TTTG) in (21) Deletion of CTT from 1653 145 (13) (TCAT_TGGT) G --~ A at 1717-1 (AATAAGACA) G --~ T at 1756 (TCTTTGAGA) G --~ C at 1898 + 1 (AAAGCTATG) G --~ C at 2014 (TTATCGGAC Deletion of A at 2184; A --~ G at 2183 (AAAAG CAAT) G --~ T at 2320 (TGATTAGCC Deletion of 11 nucleotides from 2721 (TGCT_TAGT) G --~ C at 3040 (AGCACGTAC A --~ G at 3272-26 (TGCAGTGTT) C --~ A at 3408 (TGTAACTGT) Deletion of C at 3659 (CCTA_CAAG) T --~ G at 3837 (TAAGGCCTG G --* A at 3884 (AAGAATACT G --~ A at 3978 (AGTGAAGGA' C --~ G at 4041 (AAAAGTTGG G -~ A at 4061 (CAGTAGAGT Insertion of T after 4218 (CAGTTAAGG) R117H 622-2A --~ C I336K W401X A455E G458V AI507 AF508 1717-1G -~ A G542X 1898+ 1G-~C G628R(G -~ C) 2184delA plus A -~ G at 2183 E730X 2721de111 G970R 3272-26A --~ G Y1092X 3659delc $1235R $1251N W1282X N1303K W1310X 4218insT Exon 3 2 (1.0%) Arg --~ His at 117 Exon 4 c 3' splice signal Intron 4 1 (0.5%) Ile -~ Lys at 336 Exon 7 1 (0.5%) Trp --~ Stop at 401 Exon 8 2 (1.0%) Ala --~ Glu at 455 Exon 9 2 (1.0%) Gly --* Val at 458 Exon 9 1 (0.5%) Deletion of Ile 507 Exon 10 1 (0.5%) Deletion of Phe 508 Exon 10 (72.5%) 3' splice signal Intron 10 5 (2.5%) Gly --* Stop at 542 Exon 11 11 (5.5%) 5' splice signal Intron 12 1 (0.5%) Gly -~ Arg at 628 Exon 13 1 (0.5%) Frameshift Exon 13 2 (1.0%) Glu --~ Stop at 730 Exon 13 1 (0.5%) Frameshift Exon 14a I (0.5%) Gly --~ Arg at 970 Exon 15 1 (0.5%) 5' splice signal? Login to comment
31 The E60X mutation was independently found by Malone et al. (in Ref. 21). Login to comment
42 TABLE 1 Mutations (and Their Frequencies) Identified in This Study Predicted amino Mutation Nucleotide change~ acid change Location Frequencyb Reference E60X G --~ T at 310 (TAGATAGCT) Glu --~ Stop at 60 Malone et al. in (21); this study G --~ A at 482 (GAACACTCT) (8) A --~ C at 622-2 (TTTTCGACT) This study T --~ A at 1139 (AAAAAATTC) This study G --~ A at 1335 (TCTGAGAGG) This study C --~ A at 1496 (TTGGAGGTT) (14) G -~ T at 1505 (GCTGTATCC) (6) Deletion of ATC from 1651 (14); Schwarz et al. (TATC_TTTG) in (21) Deletion of CTT from 1653 145 (13) (TCAT_TGGT) G --~ A at 1717-1 (AATAAGACA) G --~ T at 1756 (TCTTTGAGA) G --~ C at 1898 + 1 (AAAGCTATG) G --~ C at 2014 (TTATCGGAC Deletion of A at 2184; A --~ G at 2183 (AAAAG CAAT) G --~ T at 2320 (TGATTAGCC Deletion of 11 nucleotides from 2721 (TGCT_TAGT) G --~ C at 3040 (AGCACGTAC A --~ G at 3272-26 (TGCAGTGTT) C --~ A at 3408 (TGTAACTGT) Deletion of C at 3659 (CCTA_CAAG) T --~ G at 3837 (TAAGGCCTG G --* A at 3884 (AAGAATACT G --~ A at 3978 (AGTGAAGGA' C --~ G at 4041 (AAAAGTTGG G -~ A at 4061 (CAGTAGAGT Insertion of T after 4218 (CAGTTAAGG) R117H 622-2A --~ C I336K W401X A455E G458V AI507 AF508 1717-1G -~ A G542X 1898+ 1G-~C G628R(G -~ C) 2184delA plus A -~ G at 2183 E730X 2721de111 G970R 3272-26A --~ G Y1092X 3659delc $1235R $1251N W1282X N1303K W1310X 4218insT Exon 3 2 (1.0%) Arg --~ His at 117 Exon 4 c 3' splice signal Intron 4 1 (0.5%) Ile -~ Lys at 336 Exon 7 1 (0.5%) Trp --~ Stop at 401 Exon 8 2 (1.0%) Ala --~ Glu at 455 Exon 9 2 (1.0%) Gly --* Val at 458 Exon 9 1 (0.5%) Deletion of Ile 507 Exon 10 1 (0.5%) Deletion of Phe 508 Exon 10 (72.5%) 3' splice signal Intron 10 5 (2.5%) Gly --* Stop at 542 Exon 11 11 (5.5%) 5' splice signal Intron 12 1 (0.5%) Gly -~ Arg at 628 Exon 13 1 (0.5%) Frameshift Exon 13 2 (1.0%) Glu --~ Stop at 730 Exon 13 1 (0.5%) Frameshift Exon 14a I (0.5%) Gly --~ Arg at 970 Exon 15 1 (0.5%) 5' splice signal? Login to comment

[hide] Direct sequencing of the complete CFTR gene: the m... Hum Mol Genet. 1993 Oct;2(10):1551-6. Cheadle JP, Goodchild MC, Meredith AL
Direct sequencing of the complete CFTR gene: the molecular characterisation of 99.5% of CF chromosomes in Wales.
Hum Mol Genet. 1993 Oct;2(10):1551-6., [PMID:7505689]

Abstract [show]
We have performed an extensive mutation analysis on 184 CF families in Wales. In our previous study, mutations on 329/369 CF chromosomes were identified after screening for delta F508 and sixteen other mutations. To identify the mutations on the remaining 40 uncharacterized CF chromosomes, we have carried out direct DNA sequencing over the complete coding region, intron splice sites, and part of the promoter region of the CFTR gene. During this study we have designed a set of internal sequencing primers which allow clear sequencing through the aforementioned regions. Sequence analysis revealed 15 further mutations (4 of which are novel), and 10 previously described polymorphisms. In total, we have identified 29 mutations, the distribution of which provides further insight into the functional domains of the CFTR protein. We have characterised 99.5% of the CF chromosomes (365/367, one sample degraded). In order to ascertain accurate frequency data for the Welsh population, CF families with at least 3 'Welsh' grandparents were strictly regarded as 'Welsh'. Of these 91 families, delta F508 accounts for 71.6%, 621 + 1G-->T 6.6% and 1898 + 1G-->A 5.5%. The implications for CF population screening in Wales are discussed.

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34 6'-CTGGATCCAAATGAGCACTGGG-3' 23I6' (PCR)b 23I3' (PCR)b 24IS' (PCR)b 248S': S'-CAAAGTGCGGCAGTACGATTCC-3' HAPLOTYPE LOCATION Exon Exon Exon Exon Exon Exon Exon Intron Exon Exon 1 3 8A 8B 7 11 11 12 13 13 Exon 14A Intron Exon Exon 17A 17B 19 In t ror 1 ^ Exon 21 MUTATION M1V E60X O220X 977 imA 107S delT SS49N 8S49R 1B98«1 0-A 2184 dsIA 2184 InsA W846X1 3272-26 A>Q L1077P 3069 dtIC 1A4Q«10khC>T O O ^ W lUHDv* 1 401B IntT AMINO ACID ALTERATION TRANSLATION 1N1T1 AT 10 N MUTATION Qlu>8top I t 00 Oln'Stop i t 2 : o FRAME8HIFT FRAMtBHIFT Skr'Akn 11 540 8«r>Arg it 549 8PLICINO M U TAT 10 N FHAMESHIFT FRAME8HIFT Trp>8t0p kt 146 • PUCIHO. Login to comment
64 17b 18 19 20 21 22 23 24 M1V E60X O220X | R117H G85E 621*1G>T 977msA AF508 I AI607 1898*1G>A G642X 2184delA 1078delT I I 8549N 2184insA I I 1154insTC S549R G651D I R553X I R560T I 1717-1G>A W846X1 3272-26A>G L1077P R12B3U 3669delC 4 016in aT I N1303K 3849*10kbC>T Figure 2. Login to comment

[hide] Milestones in cystic fibrosis. Br Med Bull. 1992 Oct;48(4):717-37. Super M
Milestones in cystic fibrosis.
Br Med Bull. 1992 Oct;48(4):717-37., [PMID:1281032]

Abstract [show]
The study of cystic fibrosis (CF) provides a fascinating insight into developments in medicine in the 20th century. Milestones include the first clear clinical descriptions in the 1930s, discovery of a sweat electrolyte abnormality, establishing the autosomal recessive mode of inheritance and improvements in treatment. Microdissection experiments on sweat glands allowed the main defect to be delineated as one of chloride transport. Location of the gene to chromosome 7 made prenatal diagnosis feasible and carrier detection in siblings. The CF gene--its product being the cystic fibrosis transmembrane conductance regulator (CFTR), and its major mutation Delta F508 was discovered in 1989. World-wide collaboration has resulted in discovery of more than 150 further mutations. Incorporation of CFTR into non-chloride transporting insect cells by conferring chloride transport, proved it a chloride channel. CFTR incorporated into adenovirus results in correction of the chloride transport defect in airway cells, bringing gene therapy closer.

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160 Thus a protein conformational change in CFTR resulting in a signif- FIBROSIS Table 4 CF Mutations encountered in United Kingdom Mutation Delta F508 G551D R553 G542X R56OT N1303K DI507 R117H 621+1G-T G85E W1282X E60X R75Q V520F 1717-1 G-A CF chromosomes screened 1 Mutations encountered 1062 199 (non Delta F508) 199 199 199 199 199 199 199 199 199 30 15 199 199 CF chromosomes with mutation in North-West England 863 37 8 11 6 6 4 5 10 4 2 2 1 3 3 Percentage 81.2 3.48 0 75 1.03 0.58 0 58 038 0.47 0.98 0.38 0 19 ? Login to comment

[hide] CFTR gene mutations and asthma in the Norwegian En... Respir Med. 2006 Dec;100(12):2121-8. Epub 2006 May 5. Munthe-Kaas MC, Lodrup Carlsen KC, Carlsen KH, Skinningsrud B, Haland G, Devulapalli CS, Pettersen M, Eiklid K
CFTR gene mutations and asthma in the Norwegian Environment and Childhood Asthma study.
Respir Med. 2006 Dec;100(12):2121-8. Epub 2006 May 5., [PMID:16678395]

Abstract [show]
BACKGROUND: Several candidate genes have been implicated in the etiology of asthma, including the gene coding for the cystic fibrosis transmembrane conductance regulator (CFTR). Mutations in the CFTR gene result in derangements of mucociliary clearance. Homozygotes for CFTR mutations develop cystic fibrosis (CF), a disorder characterized mainly by lung and pancreas disease. OBJECTIVE: To investigate whether there was an increased frequency of CFTR mutations in asthma patients. METHODS: Seven hundred and three subjects aged 10-11 years from the environment and childhood asthma (ECA) study were included in the present study. Possible associations between asthma, reduced lung function, bronchial hyperresponsiveness (BHR), and increased or decreased nitrogen oxide (NO) levels (based on structural parental interview, spirometry, PD20 methacholine challenge test and exhaled NO measurements), and the five most common CFTR mutations in Norway (DeltaF508, R117H, R117C, 4005+2T-->C, 394delTT), the modulating polymorphisms IVS8(TG)mTn and the IVS8-5T were investigated. RESULTS: No association were found between asthma, reduced lung function, BHR or exhaled NO levels and CF heterozygosity. However, the IVS8(TG)11T7 haplotype was associated with normal lung function. CONCLUSIONS: Our results do not support the hypothesis that CFTR mutations or polymorphisms play a role in the pathogenesis of asthma in children. However, the distribution of Tn(TG)m haplotypes differed between individuals with reduced lung function and individuals with normal lung function.

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25 CFTR mutation Alleles (%) F508del 184 (62.2) R117C 12 (4.1) R117H 12 394delTT 11 (3.8) 4005+2T-C 11 G551D 6 (2.0) 3659delC 5 (1.7) E60X 4 (1.4) V232D 4 1525-2A-G 3 (1.0) N1303K 3 G542X 2 (0.7) E279X 2 R75X 2 S912X 2 E116X 1 (0.3) L295Q 1 R347L 1 Q493X 1 I506L 1 I507del 1 R553X 1 G576A 1 621-1G-T 1 2183AA-G 1 S945L 1 R1162X 1 I1234V 1 3849+10 kbC-T 1 W1282X 1 Unknown 18 (6.5) Total alleles 296 (100%) Mutations detected with OLA31 m kit-74%. Login to comment

[hide] CFTR gene analysis in Latin American CF patients: ... J Cyst Fibros. 2007 May;6(3):194-208. Epub 2006 Sep 11. Perez MM, Luna MC, Pivetta OH, Keyeux G
CFTR gene analysis in Latin American CF patients: heterogeneous origin and distribution of mutations across the continent.
J Cyst Fibros. 2007 May;6(3):194-208. Epub 2006 Sep 11., [PMID:16963320]

Abstract [show]
BACKGROUND: Cystic Fibrosis (CF) is the most prevalent Mendelian disorder in European populations. Despite the fact that many Latin American countries have a predominant population of European-descent, CF has remained an unknown entity until recently. Argentina and Brazil have detected the first patients around three decades ago, but in most countries this disease has remained poorly documented. Recently, other countries started publishing their results. METHODS: We present a compilation and statistical analysis of the data obtained in 10 countries (Argentina, Brazil, Chile, Colombia, Costa Rica, Cuba, Ecuador, Mexico, Uruguay and Venezuela), with a total of 4354 unrelated CF chromosomes studied. RESULTS: The results show a wide distribution of 89 different mutations, with a maximum coverage of 62.8% of CF chromosomes/alleles in the patient's sample. Most of these mutations are frequent in Spain, Italy, and Portugal, consistent with the origin of the European settlers. A few African mutations are also present in those countries which were part of the slave trade. New mutations were also found, possibly originating in America. CONCLUSION: The profile of mutations in the CFTR gene, which reflects the heterogeneity of its inhabitants, shows the complexity of the molecular diagnosis of CF mutations in most of the Latin American countries.

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78 At least another 38 mutations have been searched for, but none of them were found in the CF patients from Latin America: p.E60X, p.Y122X, p.G178R, p.G330X, p.R347H, p.R352Q, p.S364P, p.A455E, p.Q493X, p.V520F, p.C524X, p.R560T, p.Y563D, p.P574H, p.K710X, p.Q890X, p. R1158X, p.S1196X, p.S1255X, p.D1270N, p.W1310X, p. W1316X, c.405+1G-A, c.444delA, c.556delA, c.574delA, c.1677delTA, c.2043delG, c.2307insA, c.2909delT, c.3120G-A, c.3358delAC, c.3662delA, c.3750delAG, c.3791delC, c.3821delT, c.3849+4A-G, c.3905insT. Login to comment

[hide] [The French nationwide cystic fibrosis newborn scr... Arch Pediatr. 2008 Jun;15 Suppl 1:S1-6. doi: 10.1016/S0929-693X(08)73940-X. Munck A, Roussey M
[The French nationwide cystic fibrosis newborn screening program: strategy and results].
Arch Pediatr. 2008 Jun;15 Suppl 1:S1-6. doi: 10.1016/S0929-693X(08)73940-X., [PMID:18822253]

Abstract [show]
In 2002 France implemented a nationwide newborn screening program for cystic fibrosis (CF). The strategy combined immunoreactive trypsinogen and, in case of a value over the cut-off level, DNA analysis in dried blood samples at day 3. Data were centralized and periodically analyzed thus maintaining the percentage of samples requiring mutation analysis (0.6%), limiting the number of false-positive cases (0.1%) without increasing the number of false-negative cases (3.2%). 3.527.353 infants were screened between 2002 and 2006. The overall cystic fibrosis incidence was 1/ 4136 with a wide range of regional variations. Dilemma case presentation occurred for 14 % of the patients; an European working group is actively working on this topic, attempting to establish a consensus on the adequate procedures. Cystic fibrosis newborn screening is feasible all over a nation but needs a strong organization from maternity wards to CF care centers.

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50 L`organigramme du DNN (fig. 1) pr&#e9;voit une valeur seuil de TIR &#e0; J3 d&#e9;termin&#e9;e sur les donn&#e9;es des r&#e9;gions fran&#e7;aises ayant d&#e9;but&#e9; ce d&#e9;pistage il y a plus de 10 ans afin de s&#e9;lec- Mutations recherch&#e9;es par le Kit Elucigen dans le cadre du d&#e9;pistage n&#e9;onatal de la mucoviscidose (Kit CF30) : F508del ; I 507del ; 1078delT, 1717-1 G>A ; 2183AA>G ; 3659delC ; 3849+10kbC>T ; 621+1G>T ; A455E ; E60X ; G542X ; G551D ; N1303K ; R1162X ; R117H ; R334W ; R347P ; R553X ; S1251N ;W1282X ; 1811+1.6kbA>G ; 2789+5G>A ; 3120+1G>A ; 3272-26A>G ; 394delT ; 711+1G>T ; G85E ; Y1092X ; Y122X ;W846X. Login to comment

[hide] Clinical and genetic features in patients with cys... Iran J Pediatr. 2013 Apr;23(2):212-5. Farjadian S, Moghtaderi M, Kashef S, Alyasin S, Najib K, Saki F
Clinical and genetic features in patients with cystic fibrosis in southwestern iran.
Iran J Pediatr. 2013 Apr;23(2):212-5., [PMID:23724185]

Abstract [show]
OBJECTIVE: Cystic fibrosis (CF) is a common autosomal recessive genetic disease caused by a mutation in the CF transmembrane conductance regulatory (CFTR) gene. This study attempted to identify the most common CFTR mutations and any correlations between certain mutations and the clinical presentation of the disease in CF patients in southwestern Iran. METHODS: Twenty nine common CFTR gene mutations were examined in 45 CF patients. FINDINGS: Chronic cough, intestinal obstruction, dehydration, heat exhaustion and steatorrhea were the most common early clinical symptoms among our patients. The most common mutation was DeltaF508, with an allele frequency of 21%. The homozygous DeltaF508 mutation was observed in eight patients (18%), and three patients (7%) were DeltaF508 carriers. The 2183AA > G mutation was observed in four patients, one of whom was also a DeltaF508 carrier. The R1162X mutation was detected in two patients. The G542X, R334W and N1303K mutations were detected each in one patient, the first of whom was also a DeltaF508 carrier. CONCLUSION: Out of 45 patients, 27 (60%) had none of the CFTR gene mutations we tested for. The most frequent mutations in southwestern Iranian patients with CF should be identified by sequencing the entire CFTR gene in order to optimize the design of a diagnostic kit for common regional mutations.

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26 Genomic DNA was extracted from 200 &#b5;L of whole blood with the QiaAmp DNA Mini Kit (Qiagen, Valencia, CA, USA) and 29 common CFTR gene mutations (D1152H, 1717-1G>A, G542X, W1282X, N1303K, ࢞F508, 3849+10kbC>T, 394delTT, 621+1G>T, S1251N, G551D, R117H, R1162X, R334W, A455E, 2183AA>G, 3659delC, 1078delT, ࢞I507, R347P, R553X, E60X, 3120+1G>A, 2789+5G>A, 1898+1G>A, 711+1G>T, G85E, 2184delA and R560T) were analyzed with the ELUCIGENE CF29 v. 2 kit using four multiplex PCR. Login to comment

[hide] A functional CFTR assay using primary cystic fibro... Nat Med. 2013 Jul;19(7):939-45. doi: 10.1038/nm.3201. Epub 2013 Jun 2. Dekkers JF, Wiegerinck CL, de Jonge HR, Bronsveld I, Janssens HM, de Winter-de Groot KM, Brandsma AM, de Jong NW, Bijvelds MJ, Scholte BJ, Nieuwenhuis EE, van den Brink S, Clevers H, van der Ent CK, Middendorp S, Beekman JM
A functional CFTR assay using primary cystic fibrosis intestinal organoids.
Nat Med. 2013 Jul;19(7):939-45. doi: 10.1038/nm.3201. Epub 2013 Jun 2., [PMID:23727931]

Abstract [show]
We recently established conditions allowing for long-term expansion of epithelial organoids from intestine, recapitulating essential features of the in vivo tissue architecture. Here we apply this technology to study primary intestinal organoids of people suffering from cystic fibrosis, a disease caused by mutations in CFTR, encoding cystic fibrosis transmembrane conductance regulator. Forskolin induces rapid swelling of organoids derived from healthy controls or wild-type mice, but this effect is strongly reduced in organoids of subjects with cystic fibrosis or in mice carrying the Cftr F508del mutation and is absent in Cftr-deficient organoids. This pattern is phenocopied by CFTR-specific inhibitors. Forskolin-induced swelling of in vitro-expanded human control and cystic fibrosis organoids corresponds quantitatively with forskolin-induced anion currents in freshly excised ex vivo rectal biopsies. Function of the CFTR F508del mutant protein is restored by incubation at low temperature, as well as by CFTR-restoring compounds. This relatively simple and robust assay will facilitate diagnosis, functional studies, drug development and personalized medicine approaches in cystic fibrosis.

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91 We observed no FIS in E60X 4015delATTT organoids (Supplementary Video 2). Login to comment
121 (a) Western blot analysis of CFTR and E-cadherin (loading control) expression in human rectal healthy control (HC; n = 2), E60X 4015delATTT (n = 1) and homozygous F508del CFTR (n = 2) organoids (top) and CFTR and ezrin (loading control) expression in whole-cell lysates of human rectal organoids that were either not treated (control) or treated with the deglycosylation enzyme Endo H or PNGase F (bottom). Login to comment
127 (d) Forskolin-induced swelling of rectal organoids derived from three individual healthy controls, two individuals with a mild cystic fibrosis genotype (F508del A455E) and nine individuals with a severe cystic fibrosis genotype (one individual with E60X 4015ATTTdel, one with F508del G542X, one with F508del L927P and six with F508del F508del). Login to comment
134 (Healthy controls, n = 3; mild cystic fibrosis, n = 2; severe cystic fibrosis (F508del F508del), n = 5; severe cystic fibrosis (other; E60X 4015ATTTdel and F508del G542X), n = 2; mean &#b1; s.d.). Login to comment
139 All F508del compound heterozygous organoids also responded to correction, but no correction or potentiation was observed in E60X 4015delATTT organoids (Fig. 5a-c). Login to comment
150 0 500 1,000 1,500 2,000 2,500 0 500 1,000 1,500 2,000 2,500 3,000 0 400 800 1,200 1,600 C8 Corr-4a C8 + Corr-4a VX-809 VX-770 VX-809 + VX-770 VRT-325 Corr-4a VRT-325 + Corr-4a CF1 CF6 CF5 CF4 CF3 CF2 F508del L927P F508del G542X E60X 4015delATTT F508del F508del b d a c 0 20 40 60 80 100 120 V R T - 3 2 5 C o r r - 4 a C 8 V X - 8 0 9 V X - 7 7 0 V R T - 3 2 5 + C o r r - 4 a C 8 + C o r r - 4 a V X - 8 0 9 + V X - 7 7 0 C o n t r o l C o n t r o l F508del F508del HC F508del A455E Organoid swelling (absolute AUC t = 60) Organoid swelling (absolute AUC t = 60) Organoid swelling (absolute AUC t = 60) Organoid swelling (normalized AUC t = 60) Figure 5ߒ Differential FIS between organoids from subjects with cystic fibrosis after chemical CFTR restoration. Login to comment
390 Rectal organoids from healthy controls and subjects with cystic fibrosis were generated from four rectal suction biopsies after ICMs obtained (i) during standard cystic fibrosis care (one individual each harboring E60X 4015ATTTdel, F508del G542X or F508del L927P and five individuals harboring F508del F508del), (ii) for diagnostic purposes (one healthy control) or (iii) during voluntary participation in studies approved by the University Medical Center Utrecht and Erasmus MC ethics committees (two healthy controls and one individual harboring F508del F508del). Login to comment

[hide] Multicenter intestinal current measurements in rec... PLoS One. 2013 Sep 10;8(9):e73905. doi: 10.1371/journal.pone.0073905. eCollection 2013. Clancy JP, Szczesniak RD, Ashlock MA, Ernst SE, Fan L, Hornick DB, Karp PH, Khan U, Lymp J, Ostmann AJ, Rezayat A, Starner TD, Sugandha SP, Sun H, Quinney N, Donaldson SH, Rowe SM, Gabriel SE
Multicenter intestinal current measurements in rectal biopsies from CF and non-CF subjects to monitor CFTR function.
PLoS One. 2013 Sep 10;8(9):e73905. doi: 10.1371/journal.pone.0073905. eCollection 2013., [PMID:24040112]

Abstract [show]
Intestinal current measurements (ICM) from rectal biopsies are a sensitive means to detect cystic fibrosis transmembrane conductance regulator (CFTR) function, but have not been optimized for multicenter use. We piloted multicenter standard operating procedures (SOPs) to detect CFTR activity by ICM and examined key questions for use in clinical trials. SOPs for ICM using human rectal biopsies were developed across three centers and used to characterize ion transport from non-CF and CF subjects (two severe CFTR mutations). All data were centrally evaluated by a blinded interpreter. SOPs were then used across four centers to examine the effect of cold storage on CFTR currents and compare CFTR currents in biopsies from one subject studied simultaneously either at two sites (24 hours post-biopsy) or when biopsies were obtained by either forceps or suction. Rectal biopsies from 44 non-CF and 17 CF subjects were analyzed. Mean differences (microA/cm(2); 95% confidence intervals) between CF and non-CF were forskolin/IBMX=102.6(128.0 to 81.1), carbachol=96.3(118.7 to 73.9), forskolin/IBMX+carbachol=200.9(243.1 to 158.6), and bumetanide=-44.6 (-33.7 to -55.6) (P<0.005, CF vs non-CF for all parameters). Receiver Operating Characteristic curves indicated that each parameter discriminated CF from non-CF subjects (area under the curve of 0.94-0.98). CFTR dependent currents following 18-24 hours of cold storage for forskolin/IBMX, carbachol, and forskolin/IBMX+carbachol stimulation (n=17 non-CF subjects) were 44%, 47.5%, and 47.3%, respectively of those in fresh biopsies. CFTR-dependent currents from biopsies studied after cold storage at two sites simultaneously demonstrated moderate correlation (n=14 non-CF subjects, Pearson correlation coefficients 0.389, 0.484, and 0.533). Similar CFTR dependent currents were detected from fresh biopsies obtained by either forceps or suction (within-subject comparisons, n=22 biopsies from three non-CF subjects). Multicenter ICM is a feasible CFTR outcome measure that discriminates CF from non-CF ion transport, offers unique advantages over other CFTR bioassays, and warrants further development as a potential CFTR biomarker.

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106 In addition, six CF subjects were enrolled in a parallel protocol at one site (genotypes were F508del/F508del for five subjects, E60X/ 621+1G-T for the sixth subject). Login to comment

[hide] Sinonasal manifestations of cystic fibrosis: a cor... J Cyst Fibros. 2014 Jul;13(4):442-8. doi: 10.1016/j.jcf.2013.10.011. Epub 2013 Nov 5. Berkhout MC, van Rooden CJ, Rijntjes E, Fokkens WJ, el Bouazzaoui LH, Heijerman HG
Sinonasal manifestations of cystic fibrosis: a correlation between genotype and phenotype?
J Cyst Fibros. 2014 Jul;13(4):442-8. doi: 10.1016/j.jcf.2013.10.011. Epub 2013 Nov 5., [PMID:24210900]

Abstract [show]
BACKGROUND: Patients with Cystic Fibrosis are prone to develop sinonasal disease. Studies in genotype-phenotype correlations for sinonasal disease are scarce and inconclusive. METHODS: In this observational study several aspects of sinonasal disease were investigated in 104 adult patients with CF. In each patient a disease specific quality of life questionnaire (RSOM-31), nasal endoscopy and a CT scan of the paranasal sinuses were performed. Patients were divided into two groups, class I-III mutations and class IV-V mutations, based on their CFTR mutations. RESULTS: The prevalence of rhinosinusitis in adult patients with CF was 63% and the prevalence of nasal polyps 25%. Patients with class I-III mutations had significantly smaller frontal sinuses, sphenoid sinuses, more opacification in the sinonasal area and more often osteitis/neoosteogenesis of the maxillary sinus wall compared to patients with class IV and V mutations. CONCLUSION: These data suggest more severe sinonasal disease in patients with class I-III mutations compared to patients with class IV-V mutations.

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163 Genotype Frequency; N (%) Class of mutation F508del/F508del 61 (58.7) I-III F508del/3849 + 10kbC 2 (1.9) IV-V F508del/N1303K 2 (1.9) I-III F508del/R1162X 2 (1.9) I-III F508del/A455E 12 (11.5) IV-V F508del/3272-26A N G 5 (4.8) IV-V F508del/E528X 1 (1.0) I-III F508del/S1251N 3 (2.9) IV-V F508del/R75Q 1 (1.0) IV-V F508del/G542X 2 (1.9) I-III F508del/1717-1G N A 1 (1.0) I-III F508del/Ser489X 1 (1.0) I-III F508del/4382delA 1 (1.0) -a F508del/L1077 1 (1.0) I-III F508del/1813insC 1 (1.0) -b A455E/S1251N 1 (1.0) IV-V A455E/E60X 1 (1.0) IV-V 3272-26A N G/G970R 1 (1.0) IV-V 3272-26A N G/R1162X 1 (1.0) IV-V F508del/UNK 2 (1.9) -c R117H-7T/UNK 1 (1.0) -d UNK/UNK 1 (1.0) -e Total 104 (100.4) One patient with pancreatic sufficiency and diagnosed at 46 years of age (class IV-V). Login to comment

[hide] Cystic fibrosis carrier screening in a North Ameri... Genet Med. 2014 Jul;16(7):539-46. doi: 10.1038/gim.2013.188. Epub 2013 Dec 19. Zvereff VV, Faruki H, Edwards M, Friedman KJ
Cystic fibrosis carrier screening in a North American population.
Genet Med. 2014 Jul;16(7):539-46. doi: 10.1038/gim.2013.188. Epub 2013 Dec 19., [PMID:24357848]

Abstract [show]
PURPOSE: The aim of this study was to compare the mutation frequency distribution for a 32-mutation panel and a 69-mutation panel used for cystic fibrosis carrier screening. Further aims of the study were to examine the race-specific detection rates provided by both panels and to assess the performance of extended panels in large-scale, population-based cystic fibrosis carrier screening. Although genetic screening for the most common CFTR mutations allows detection of nearly 90% of cystic fibrosis carriers, the large number of other mutations, and their distribution within different ethnic groups, limits the utility of general population screening. METHODS: Patients referred for cystic fibrosis screening from January 2005 through December 2010 were tested using either a 32-mutation panel (n = 1,601,308 individuals) or a 69-mutation panel (n = 109,830). RESULTS: The carrier frequencies observed for the 69-mutation panel study population (1/36) and Caucasian (1/27) and African-American individuals (1/79) agree well with published cystic fibrosis carrier frequencies; however, a higher carrier frequency was observed for Hispanic-American individuals (1/48) using the 69-mutation panel as compared with the 32-mutation panel (1/69). The 69-mutation panel detected ~20% more mutations than the 32-mutation panel for both African-American and Hispanic-American individuals. CONCLUSION: Expanded panels using race-specific variants can improve cystic fibrosis carrier detection rates within specific populations. However, it is important that the pathogenicity and the relative frequency of these variants are confirmed.

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63 This threshold could not be reached Table 1ߒ CFTR allele frequency identified by the CF32 mutation panel Varianta Number of detected alleles Mutation (%) Legacy nomenclature HGVS nomenclature F508delb p.F508del 31,142 68.69 R117Hb p.R117H 5,198 11.46 G542Xb p.G542X 1,162 2.56 G551Db p.G551D 989 2.18 W1282Xb p.W1282X 824 1.82 3120ߙ+ߙ1G>Ab c.2988ߙ+ߙ1G>A 706 1.56 N1303Kb p.N1303K 648 1.43 R553Xb p.R553X 487 1.07 3849ߙ+ߙ10kbC>Tb c.3717ߙ+ߙ12191C>T 436 0.96 621ߙ+ߙ1G>Tb c.489ߙ+ߙ1G>T 410 0.90 1717-1G>Ab c.1585-1G>A 388 0.86 2789ߙ+ߙ5G>Ab c.2657ߙ+ߙ5G>A 382 0.84 I507delb p.I507del 258 0.57 R334Wb p.R334W 257 0.57 R1162Xb p.R1162X 211 0.47 G85Eb p.G85E 199 0.44 1898ߙ+ߙ1G>Ab c.1766ߙ+ߙ1G>A 170 0.37 R347Hc p.R347H 160 0.35 3659delCb c.3528delC 155 0.34 3876delAc c.3744delA 153 0.34 R560Tb p.R560T 132 0.29 S549Nc p.S549N 125 0.28 3905insTc c.3773dupT 121 0.27 R347Pb p.R347P 117 0.26 2184delAb c.2052delA 107 0.24 A455Eb p.A455E 106 0.23 711ߙ+ߙ1G>Tb c.579ߙ+ߙ1G>T 65 0.14 394delTTc c.262_263delTT 56 0.12 V520Fc p.V520F 54 0.12 1078delTc c.948delT 52 0.11 2183AA>Ga,c c.2051_2052delAAinsG 37 0.08 S549Rc p.S549R 31 0.07 Total 45,338 100 a 2183AA>G variant was added to the panel in 2010. b Variants from ACMG/ACOG CF screening panel. c Classified as a CF-causing mutation by the CFTR2 Database. ACMG, American College of Medical Genetics and Genomics; ACOG, American College of Obstetricians and Gynecologists; CF, cystic fibrosis; HGVS, Human Genome Variation Society. Table 2ߒ Continued on next page Table 2ߒ CFTR allele frequency identified by the CF69 mutation panel Varianta Allele frequency Mutation (%) Legacy nomenclature HGVS nomenclature F508delb p.F508del 1,868 60.49 R117Hb p.R117H 274 8.87 D1152Hc p.D1152H 125 4.05 G542Xb p.G542X 98 3.17 L206Wd p.L206W 73 2.36 3120ߙ+ߙ1G>Ab c.2988ߙ+ߙ1G>A 65 2.10 G551Db p.G551D 47 1.52 N1303Kb p.N1303K 42 1.36 W1282Xb p.W1282X 38 1.23 3849ߙ+ߙ10kbC>Tb c.3717ߙ+ߙ12191C>T 28 0.91 3876delAd c.3744delA 28 0.91 F311dele p.F312del 24 0.78 I507delb p.I507del 24 0.78 R553Xb p.R553X 24 0.78 R117Cd p.R117C 22 0.71 621ߙ+ߙ1G>Tb c.489ߙ+ߙ1G>T 21 0.68 1717-1G>Ab c.1585-1G>A 18 0.58 S549Nd p.S549N 18 0.58 R334Wb p.R334W 17 0.55 2789ߙ+ߙ5G>Ab c.2657ߙ+ߙ5G>A 16 0.52 G85Eb p.G85E 14 0.45 3199del6e c.3067_3072delATAGTG 12 0.39 R1066Cd p.R1066C 11 0.36 1898ߙ+ߙ1G>Ab c.1766ߙ+ߙ1G>A 10 0.32 R347Hd p.R347H 10 0.32 R1162 Xb p.R1162X 9 0.29 W1089Xd p.W1089X 9 0.29 2184delAb c.2052delA 8 0.26 2307insAd c.2175dupA 8 0.26 1078delTd c.948delT 7 0.23 R75Xd p.R75X 7 0.23 3120G>Ad c.2988 G>A 6 0.19 3659delCb c.3528delC 6 0.19 Q493Xd p.Q493X 6 0.19 R1158Xd p.R1158X 6 0.19 R560Tb p.R560T 6 0.19 1812-1G>Ad c.1680-1G>A 5 0.16 2055del9>Ad c.1923_1931del9insA 5 0.16 406-1G>Ad c.274-1G>A 5 0.16 A559Td p.A559T 5 0.16 R347Pb p.R347P 5 0.16 S1255Xd p.S1255X 5 0.16 1677delTAd c.1545_1546delTA 4 0.13 711ߙ+ߙ1G>Tb c.579ߙ+ߙ1G>T 4 0.13 E60Xd p.E60X 4 0.13 R352Qd p.R352Q 4 0.13 Y1092Xd p.Y1092X 4 0.13 2183AA>Gd c.2051_2052delAAinsG 3 0.10 3791delCd c.3659delC 3 0.10 3905insTd c.3773dupT 3 0.10 by 10 variants: the 2143delT, A455E, S549R, Y122X, and M1101K mutations, typically observed in Caucasians; 935delA, 2869insG, and Q890X in Hispanics; and 405+3A>C and G480C in the African-American population. Login to comment

[hide] Impact of heterozygote CFTR mutations in COPD pati... Respir Res. 2014 Feb 11;15:18. doi: 10.1186/1465-9921-15-18. Raju SV, Tate JH, Peacock SK, Fang P, Oster RA, Dransfield MT, Rowe SM
Impact of heterozygote CFTR mutations in COPD patients with chronic bronchitis.
Respir Res. 2014 Feb 11;15:18. doi: 10.1186/1465-9921-15-18., [PMID:24517344]

Abstract [show]
BACKGROUND: Cigarette smoking causes Chronic Obstructive Pulmonary Disease (COPD), the 3rd leading cause of death in the U.S. CFTR ion transport dysfunction has been implicated in COPD pathogenesis, and is associated with chronic bronchitis. However, susceptibility to smoke induced lung injury is variable and the underlying genetic contributors remain unclear. We hypothesized that presence of CFTR mutation heterozygosity may alter susceptibility to cigarette smoke induced CFTR dysfunction. Consequently, COPD patients with chronic bronchitis may have a higher rate of CFTR mutations compared to the general population. METHODS: Primary human bronchial epithelial cells derived from F508del CFTR heterozygotes and mice with (CFTR+/-) and without (CFTR+/+) CFTR heterozygosity were exposed to whole cigarette smoke (WCS); CFTR-dependent ion transport was assessed by Ussing chamber electrophysiology and nasal potential difference measurements, respectively. Caucasians with COPD and chronic bronchitis, age 40 to 80 with FEV1/FVC < 0.70 and FEV1 < 60% predicted, were selected for genetic analysis from participants in the NIH COPD Clinical Research Network's Azithromycin for Prevention of Exacerbations of COPD in comparison to 32,900 Caucasian women who underwent prenatal genetic testing. Genetic analysis involved an allele-specific genotyping of 89 CFTR mutations. RESULTS: Exposure to WCS caused a pronounced reduction in CFTR activity in both CFTR (+/+) cells and F508del CFTR (+/-) cells; however, neither the degree of decrement (44.7% wild-type vs. 53.5% F508del heterozygous, P = NS) nor the residual CFTR activity were altered by CFTR heterozygosity. Similarly, WCS caused a marked reduction in CFTR activity measured by NPD in both wild type and CFTR heterozygous mice, but the severity of decrement (91.1% wild type vs. 47.7% CF heterozygous, P = NS) and the residual activity were not significantly affected by CFTR genetic status. Five of 127 (3.9%) COPD patients with chronic bronchitis were heterozygous for CFTR mutations which was not significantly different from controls (4.5%) (P = NS). CONCLUSIONS: The magnitude of WCS induced reductions in CFTR activity was not affected by the presence of CFTR mutation heterozygosity. CFTR mutations do not increase the risk of COPD with chronic bronchitis. CFTR dysfunction due to smoking is primarily an acquired phenomenon and is not affected by the presence of congenital CFTR mutations.

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81 As expected based on genotype-phenotype correlations in the disease [33], HBE cells derived from a F508del CFTR heterozygote had slightly lower CFTR activity at baseline than wild type monolayers as measured by Table 1 List of CFTR mutations analyzed F508del R117H 1717-1G > A R117C G85E R334W 1898 + 1G > A Y122X A455E R347P 2184delA G178R I507del R553X 2789 + 5G > A G314E G542X R560T 3120 + 1G > A G330X G551D W1282X 3659delC R347H N1303K 621 + 1G > T K710X 406-1G > A R1162X 711 + 1G > T E60X G480C R1066C W1089X V520F A559T S1196X Q1238X S1251N S1255X 663delT 935delA 1161delC 1288insTA 2184insA 2307insA 2711delT 2869insG R709X R764X R1158X 574delA Q493X 1898 + 5G > T 3905insT I506T 3849 + 10kbC > T 712-1G > T Q98R Q552X S549N 1078delT H199Y 444delA S549R (T > G) 2143delT P205S 2043delG 1811 + 1.6kbA > G 3272-26A > G L206W 3791delC Y1092X (C > G) 3199del6 F508C 2108delA Y1092X (C > A) D1152H V520I 3667del4 394delTT 3876delA M1101K 1677delTA W1098X (TGA) 1812-1G > A 4016insT 1609delCA 3171delC response to forskolin stimulation (49.3 &#b1; 11.5 bc;A/cm2 in CFTR (+/+) vs. 40.5 &#b1; 5.3 bc;A/cm2 in CFTR (+/-), although this was not statistically significant (Figure 1A,B). Login to comment

[hide] CFTR mutations spectrum and the efficiency of mole... PLoS One. 2014 Feb 26;9(2):e89094. doi: 10.1371/journal.pone.0089094. eCollection 2014. Zietkiewicz E, Rutkiewicz E, Pogorzelski A, Klimek B, Voelkel K, Witt M
CFTR mutations spectrum and the efficiency of molecular diagnostics in Polish cystic fibrosis patients.
PLoS One. 2014 Feb 26;9(2):e89094. doi: 10.1371/journal.pone.0089094. eCollection 2014., [PMID:24586523]

Abstract [show]
Cystic fibrosis (CF) is caused by mutations in the cystic fibrosis transmembrane regulator gene (CFTR). In light of the strong allelic heterogeneity and regional specificity of the mutation spectrum, the strategy of molecular diagnostics and counseling in CF requires genetic tests to reflect the frequency profile characteristic for a given population. The goal of the study was to provide an updated comprehensive estimation of the distribution of CFTR mutations in Polish CF patients and to assess the effectiveness of INNOLiPA_CFTR tests in Polish population. The analyzed cohort consisted of 738 patients with the clinically confirmed CF diagnosis, prescreened for molecular defects using INNOLiPA_CFTR panels from Innogenetics. A combined efficiency of INNOLiPA CFTR_19 and CFTR_17_TnUpdate tests was 75.5%; both mutations were detected in 68.2%, and one mutation in 14.8% of the affected individuals. The group composed of all the patients with only one or with no mutation detected (109 and 126 individuals, respectively) was analyzed further using a mutation screening approach, i.e. SSCP/HD (single strand conformational polymorphism/heteroduplex) analysis of PCR products followed by sequencing of the coding sequence. As a result, 53 more mutations were found in 97 patients. The overall efficiency of the CF allele detection was 82.5% (7.0% increase compared to INNOLiPA tests alone). The distribution of the most frequent mutations in Poland was assessed. Most of the mutations repetitively found in Polish patients had been previously described in other European populations. The most frequent mutated allele, F508del, represented 54.5% of Polish CF chromosomes. Another eight mutations had frequencies over 1%, 24 had frequencies between 1 and 0.1%; c.2052-2053insA and c.3468+2_3468+3insT were the most frequent non-INNOLiPA mutations. Mutation distribution described herein is also relevant to the Polish diaspora. Our study also demonstrates that the reported efficiency of mutation detection strongly depends on the diagnostic experience of referring health centers.

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71 Exon / intron (legacy) Exon / intron (Ensembl) Protein change SVM value cDNA (HGVS nomenclature) gDNA (cDNA +132 bp) Number of PL CF chromosomes Reference a Mutations in trans Pathogenic mutations 1 1 L15Ffs10X c.43delC 175delC 1 CFMDB 1717-1G.A 2 2 G27V 21.92 c.80G.T 212G.T 1 Novel F508del 2 2 S18RfsX16 c.54-5940_273 +10250del21kb exon2,3del21kb 66 IL19 various CF mutations i2 i2 IVS2_Donor c.164+1G.A 296+1G.A 3 CFMDB various CF mutations 3 3 G85E 22.61 c.254G.A 386G.A 1 IL17 unknown 3 3 E60X c.178G.T 310G.T 0 IL17 x 3 3 L88IfsX22 c.262_263delTT 394delTT 0 IL17 x 4 4 E92K 21.92 c.274G.A 406G.A 2 CFMDB c.164+1G.A; c.2051- 2AA.G 4 4 L101X c.302T.G 434T.G 1 CFMDB c.3717+12191C.T 4 4 K114IfsX5 c.341_353del13bp 473del13bp 1 Novel F508del 4 4 R117H 20.35 c.350G.A 482G.A 5 IL17 F508del; 2x unknown 4 4 R117C 22.07 c.349C.T 481C.T 2 CFMDB S1206X;1x unknown 4 4 L137_L138insT c.412_413insACT L138ins 1 CFMDB F508del 4 4 R153I 22.61 c.458G.T 590G.T 2 Novel F508del; c.3527delC i4 i4 IVS4_Donor c.489+1G.T 621+1G.T 5 IL17 F508del; c.489+1G.T 5 5 L165X c.494T.A 626T.A 1 Novel F508del i5 i5 IVS5_Donor c.579+1G.T 711+1G.T 0 IL19 x i5 i5 IVS5_Donor c.579+3A.G 711+3A.G 2 CFMDB 2,3del21kb; c.2052-3insA i5 i5 IVS5_Donor c.579+5G.A 711+5G.A 0 IL17 x 7 8 F311L 20.90 c.933C.G 965C.G 2 CFMDB 2x F508 7 8 G314R 20.58 c.940G.A 1072G.A 4 CFMDB various CF mutations 7 8 F316LfsX12 c.948delT 1078delT 1 IL17 unkown 7 8 R334W 22.41 c.1000C.T 1132C.T 6 IL17 various CF mutations 7 8 I336K 22.07 c.1007T.A 1139T.A 2 CFMDB 2,3de21kb; F508del 7 8 R347P 22.27 c.1040G.C 1172G.C 11 IL17 various CF mutations i7 i8 IVS8_Donor c.1116+2T.A 1248+2T.A 1 Novel Q1412X 9 10 A455E 22.61 c.1364C.A 1496C.A 0 IL17 x i9 i10 IVS10_Donor c.1392+1G.A 1524+1G.A 1 CFMDB c.3816-7delGT 10 11 S466X c.1397C.G 1529C.G 1 CFMDB G542X 10 11 I507del c.1519_1521delATC 1651delATC 2 IL19 F508del 10 11 F508del c.1521_1523delCTT 1654delCTT 805 IL19 various CF mutations i10 i11 IVS11_Acceptor c.1585-1G.A 1717-1G.A 27 IL19 various CF mutations 11 12 G542X c.1624G.T 1756G.T 25 IL19 various CF mutations 11 12 G551D 21.24 c.1624G.T 1756G.T 5 IL19 various CF mutations 11 12 Q552X c.1654C.T 1786C.T 0 IL19 x 11 12 R553X c.1657C.T 1789C.T 14 IL19 various CF mutations 11 12 R560T 21.92 c.1679G.C 1811G.C 0 IL19 x i12 i13 IVS13_Donor c.1766+1G.A 1898+1G.A 6 IL19 various CF mutations i12 i13 IVS13_Donor c.1766+1G.C 1898+1G.C 1 CFMDB F508del 13 14 H620P 21.73 c.1859A.C 1991A.C 1 CFMDB F508del 13 14 R668C//G576A 21.61//1.73 c.2002C.T//c.1727G.C 2134C.T// 1859G.C 5 b CFMDB// rs1800098 c.1585-1G.A; 4 unknown 13 14 L671X c.2012delT 2143delT 27 IL17 various CF mutations 13 14 K684SfsX38 c.2051_2052delAAinsG 2183AA.G 10 IL17 various CF mutations 13 14 K684NfsX38 c.2052delA 2184delA 0 IL17 x 13 14 Q685TfsX4 c.2052_2053insA 2184insA 15 CFMDB various CF mutationsc , 1 unknown Table 2. Cont. Exon / intron (legacy) Exon / intron (Ensembl) Protein change SVM value cDNA (HGVS nomenclature) gDNA (cDNA +132 bp) Number of PL CF chromosomes Reference a Mutations in trans 13 14 L732X c.2195T.G 2327T.G 1 CFMDB F508del 14A 15 R851X c.2551C.T 2683C.T 3 CFMDB various CF mutations 14A 15 I864SfsX28 c.2589_2599del11bp 2721del11bp 2 CFMDB F508del; 2,3del21kb i14B i16 IVS16_Donor c.2657+2_2657+3insA 2789+2insA 1 CFMDB F508del i14B i16 IVS16_Donor c.2657+5G.A 2789+5G.A 0 IL17 unkown 15 17 Y919C 21.02 c.2756A.G 2888A.G 1 CFMDB unknown 15 17 H939HfsX27 c.2817_2820delTACTC 2949delTACTC 1 Novel unkown i15 i17 IVS17_Donor c.2908+3A.C 3040+3A.C 1 Novel F508del i16 i18 IVS18_Donor c.2988+1G.A 3120+1G.A 0 IL19 x 17A 19 I1023_V1024del c.3067_3072delATAGTG 3199del6 0 IL19 x i17A i19 IVS19 c.3140-26A.G 3272-26A.G 9 IL19 various CF mutations 17B 20 L1065R 21.90 c.3194T.G 3326T.G 1 CFMDB F508del 17B 20 Y1092X c.3276C.A 3408C.A 1 CFMDB R334W i18 i21 IVS21_Donor c.3468+2_3468+3insT 3600+2insT 11 CFMDB various CF mutationsd , 1 unknown 18 21 E1126EfsX7 c.3376_3379delGAAG 3508delGAAG 1 Novel F508del 19 22 R1158X c.3472C.T 3604C.T 2 CFMDB F508del; R553X 19 22 R1162X c.3484C.T 3616C.T 1 IL17 F508del 19 22 L1177SfsX15 c.3528delC 3659delC 4 IL17 various CF mutations 19 22 S1206X c.3617C.A 3749C.A 1 CFMDB R117C i19 i22 IVS22 c.3717+12191C.T 3849+10kbC.T 58 IL17 various CF mutations 20 23 G1244R 22.62 c.3730G.C 3862G.C 1 CFMDB F508del 20 23 S1251N 22.28 c.3752G.A 3884G.A 0 IL19 x 20 23 L1258FfsX7 c.3773_3774insT 3905insT 0 IL19 x 20 23 V1272VfsX28 c.3816_3817delGT 3944delGT 1 CFMDB c.1392+1G.A 20 23 W1282X c.3846G.A 3978G.A 9 IL19 various CF mutations 21 24 N1303K 22.62 c.3909C.G 4041C.G 18 IL19 various CF mutations 22 25 V1327X c.3979delG 4111delG 1 Novel F508del 22 25 S1347PfsX13 c.4035_4038dupCCTA c.4167dupCCTA 1 CFMDB 2,3del21kb 23 26 Q1382X c.4144C.T 4276C.T 1 CFMDB F508del 23 26 Q1412X c.4234C.T 4366C.T 2 CFMDB F508del; c.1116+2T.A i23 i26 IVS26_Donor c.4242+1G.T 4374+1G.T 1 CFMDB F508del Sequence changes of uncertain pathogenic effect, tentatively counted as mutations 6A 6 E217G 0.30 c.650A.G 782A.G 1 CFMDB; rs1219109046 unknown 7 8 R352Q 20.01 c.1055G.A 1187G.A 1 CFMDB; rs121908753 F508del 7 8 Q359R 0.33 c.1076A.G 1208A.G 1 CFMDB F508del i8 i9 IVS9 c.1210-12T5_1210- 34_35 (TG)12 1332-12Tn_- 34TGm 6 CFMDB F508del; 3x unknown i8 i9 IVS9 c.1210-12T5_1210- 34_35 (TG)13 1332-12Tn_- 34TGm 2 CFMDB 2143delT; 1x unknown i8 i9 IVS9 c.1210-12T8 1332-12Tn 1 Novel unknown 10 11 I506V 20.21 c.1516A.G 1648A.G 1 CFMDB; rs1800091 unknown 12 13 V562L 0.79 c.1684G.C 1816G.C 1 CFMDB; rs1800097 unknown 13 14 G723V 0.44 c.2168G.T 2300G.T 1 CFMDB; rs200531709 unknown 15 17 D924N 0.03 c.2770G.A 2902G.A 1 CFMDB; rs201759207 unknown patient with F508del on another allele) was not supported by the SVM value (+0.35); the patient was PS and had ambiguous chloride values (45, 64 and 83 mmol/L). 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103 IL17 (INNOLiPA_CFTR17_TnUpdate): 621+1G.T; 3849+10kbC.T; 2183AA.G; 394delTT; 2789+5G.A; R1162X; 3659delC; R117H; R334W; R347P; G85E; 1078delT; A455E; 2143delT; E60X; 2184delA; 711+5G.A; polymorphism 5T/7T/9T. Login to comment

[hide] VX-809 and related corrector compounds exhibit sec... Chem Biol. 2014 May 22;21(5):666-78. doi: 10.1016/j.chembiol.2014.02.021. Epub 2014 Apr 10. Eckford PD, Ramjeesingh M, Molinski S, Pasyk S, Dekkers JF, Li C, Ahmadi S, Ip W, Chung TE, Du K, Yeger H, Beekman J, Gonska T, Bear CE
VX-809 and related corrector compounds exhibit secondary activity stabilizing active F508del-CFTR after its partial rescue to the cell surface.
Chem Biol. 2014 May 22;21(5):666-78. doi: 10.1016/j.chembiol.2014.02.021. Epub 2014 Apr 10., [PMID:24726831]

Abstract [show]
The most common mutation causing cystic fibrosis (CF), F508del, impairs conformational maturation of CF transmembrane conductance regulator (CFTR), thereby reducing its functional expression on the surface of epithelia. Corrector compounds including C18 (VRT-534) and VX-809 have been shown to partially rescue misfolding of F508del-CFTR and to enhance its maturation and forward trafficking to the cell surface. Now, we show that there is an additional action conferred by these compounds beyond their role in improving the biosynthetic assembly. In vitro studies show that these compounds bind directly to the metastable, full-length F508del-CFTR channel. Cell culture and patient tissue-based assays confirm that in addition to their cotranslational effect on folding, certain corrector compounds bind to the full-length F508del-CFTR after its partial rescue to the cell surface to enhance its function. These findings may inform the development of alternative compounds with improved therapeutic efficacy.

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231 This ''priming`` or potentiating effect was not observed in intestinal organoids generated from a patient bearing a CFTR nonsense mutation (E60X/4015 delATT, inset) showing that it is mediated by rescued F508del-CFTR rather than a non-CFTR channel. Login to comment

[hide] Cystic fibrosis transmembrane conductance regulato... J Histochem Cytochem. 2014 Nov;62(11):791-801. doi: 10.1369/0022155414546190. Epub 2014 Jul 25. Marcorelles P, Friocourt G, Uguen A, Lede F, Ferec C, Laquerriere A
Cystic fibrosis transmembrane conductance regulator protein (CFTR) expression in the developing human brain: comparative immunohistochemical study between patients with normal and mutated CFTR.
J Histochem Cytochem. 2014 Nov;62(11):791-801. doi: 10.1369/0022155414546190. Epub 2014 Jul 25., [PMID:25062999]

Abstract [show]
Cystic Fibrosis Transmembrane conductance Regulator (CFTR) protein has recently been shown to be expressed in the human adult central nervous system (CNS). As CFTR expression has also been documented during embryonic development in several organs, such as the respiratory tract, the intestine and the male reproductive system, suggesting a possible role during development we decided to investigate the expression of CFTR in the human developing CNS. In addition, as some, although rare, neurological symptoms have been reported in patients with CF, we compared the expression of normal and mutated CFTR at several fetal stages. Immunohistochemistry was performed on brain and spinal cord samples of foetuses between 13 and 40 weeks of gestation and compared with five patients with cystic fibrosis (CF) of similar ages. We showed in this study that CFTR is only expressed in neurons and has an early and widespread distribution during development. Although we did not observe any cerebral abnormality in patients with CF, we observed a slight delay in the maturation of several brain structures. We also observed different expression and localization of CFTR depending on the brain structure or the cell maturation stage. Our findings, along with a literature review on the neurological phenotypes of patients with CF, suggest that this gene may play previously unsuspected roles in neuronal maturation or function.

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55 Case number Gestational Age CFTR mutation Cause of Death Control cases 1 13 WG Spontaneous abortion 2 16 WG Acute chorioamnionitis 3 18 WG Acute chorioamnionitis 4 22 WG Acute chorioamnionitis 5 23 +4 WG In utero death 6 24 WG Premature rupture of the membranes 7 30 WG Prematurity ߒ Bilateral hemorrhage of adrenal glands 8 34 WG Meconium ileus ߒ Termination of pregnancy 9 38 WG Neonatal death ߒ Aspiration pneumonia 10 40 WG Per partum death ߒ Aspiration pneumonia (Streptococcus B) CF cases 11 13 WG p.F508del homozygous CF in sibling ߒ Termination of pregnancy 12 15 WG p.F508del/p.R553G CF in sibling ߒ Termination of pregnancy 13 19 WG p.F508del/p.E60X Neural tube defect ߒ Termination of pregnancy 14 26 WG p.F508del homozygous Meconium ileus ߒ Termination of pregnancy 15 26 WG p.F508del homozygous Meconium ileus ߒ Termination of pregnancy 16 34 WG p.F508del homozygous Prematurity ߒ Meconium ileus Abbreviation: WG, weeks of gestation. Login to comment
83 In the 19 WG CF case (compound heterozygous p.F508del/p.E60X), CFTR expression was very weak, more so than in the other CF cases (Table 2), probably due to the severity of the mutations. Login to comment
154 This is in agreement with the genotype of this patient who has, in addition to the p.F508del mutation, a class I mutation (p.E60X) leading to the absence of the protein. Login to comment

[hide] Comprehensive CFTR gene analysis of the French cys... Genet Med. 2015 Feb;17(2):108-16. doi: 10.1038/gim.2014.113. Epub 2014 Aug 14. Audrezet MP, Munck A, Scotet V, Claustres M, Roussey M, Delmas D, Ferec C, Desgeorges M
Comprehensive CFTR gene analysis of the French cystic fibrosis screened newborn cohort: implications for diagnosis, genetic counseling, and mutation-specific therapy.
Genet Med. 2015 Feb;17(2):108-16. doi: 10.1038/gim.2014.113. Epub 2014 Aug 14., [PMID:25122143]

Abstract [show]
PURPOSE: Newborn screening (NBS) for cystic fibrosis (CF) was implemented throughout France in 2002. It involves a four-tiered procedure: immunoreactive trypsin (IRT)/DNA/IRT/sweat test [corrected] was implemented throughout France in 2002. The aim of this study was to assess the performance of molecular CFTR gene analysis from the French NBS cohort, to evaluate CF incidence, mutation detection rate, and allelic heterogeneity. METHODS: During the 8-year period, 5,947,148 newborns were screened for cystic fibrosis. The data were collected by the Association Francaise pour le Depistage et la Prevention des Handicaps de l'Enfant. The mutations identified were classified into four groups based on their potential for causing disease, and a diagnostic algorithm was proposed. RESULTS: Combining the genetic and sweat test results, 1,160 neonates were diagnosed as having cystic fibrosis. The corresponding incidence, including both the meconium ileus (MI) and false-negative cases, was calculated at 1 in 4,726 live births. The CF30 kit, completed with a comprehensive CFTR gene analysis, provides an excellent detection rate of 99.77% for the mutated alleles, enabling the identification of a complete genotype in 99.55% of affected neonates. With more than 200 different mutations characterized, we confirmed the French allelic heterogeneity. CONCLUSION: The very good sensitivity, specificity, and positive predictive value obtained suggest that the four-tiered IRT/DNA/IRT/sweat test procedure may provide an effective strategy for newborn screening for cystic fibrosis.

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53 Because only a limited number of functional studies have assessed the pathogenicity of variants, mutations have been classified in previous studies according to their disease-causing potential.16,22,23 Based on the recommendations and data from these studies (UMD-CFTR-France),24 variants were classified into four groups: A, CF-causing; B, associated with CFTR-RDs; C, no clinical consequences; and D, unknown or Table 1ߒ Allelic frequencies of CF30-kit mutations, identified in neonates with CF, and correspondence between traditional mutation nomenclature and that on the Human Genome Variation Society website Frequency (F) % Mutation Legacy mutation nomenclature Number of alleles/2,320 % of alleles/2,320 Cumulative % ࣙ5 p.Phe508del F508del 1,560 67.24 67.24 p.Gly542* G542X 113 3.19 10.51 p.Asn1303Lys N1303K 81 1.98 c.1585-1G>A 1717-1G>A 48 1.47 1.00ࣙFࣙ4.99 c.2657ߙ+ߙ5G>A 2789ߙ+ߙ5G>A 37 1.42 p.Arg553* R553X 36 1.29 p.Gly551Asp G551D 31 1.16 p.Tyr122* Y122X 26 0.97 6.86 c.2988ߙ+ߙ1G>A 3120ߙ+ߙ1G>A 22 0.82 c.579ߙ+ߙ1G>T 711ߙ+ߙ1G>T 18 0.67 p.Ile507del I507del 17 0.63 c.3140-26A>G 3272-26A>G 16 0.59 0.40ࣙFࣙ0.99 p.Arg347Pro R347P 15 0.56 p.Arg1162* R1162X 15 0.56 p.Trp1282* W1282X 14 0.52 p.Tyr1092* Y1092X 13 0.48 c.2051_2052delinsG 2183AA>G 12 0.45 c.3528delC 3659delC 11 0.41 c.1680-886A>G 1811ߙ+ߙ1.6kbA>G 9 0.39 p.Gly85Glu G85E 8 0.34 3.06 p.Ser1251Asn S1251N 7 0.30 p.Arg334Trp R334W 7 0.30 p.Arg117His R117H 7 0.30 0.1ࣙFࣙ0.39 p.Trp846* W846X 6 0.26 c.489ߙ+ߙ1G>T 621ߙ+ߙ1G>T 6 0.26 c.948delT 1078delT 5 0.22 p.Ala455Glu A455E 5 0.22 p.Glu60* E60X 4 0.17 c.262_263delTT 394delTT 4 0.17 c.3718-2477C>T 3849ߙ+ߙ10kbC>T 3 0.13 Total 2,034 87.67 87.67 Mutations are clustered into four groups of frequency intervals (>5%, 1-4.99%, 0.99-0.4%, and <0.4%). Login to comment

[hide] Preliminary study of haplotypes linked to the rare... Acta Physiol Hung. 2015 Mar;102(1):86-93. doi: 10.1556/APhysiol.101.2014.013. Oueslati S, Hadj Fredj S, Belhaj R, Siala H, Bibi A, Messaoud T
Preliminary study of haplotypes linked to the rare cystic fibrosis E1104X mutation.
Acta Physiol Hung. 2015 Mar;102(1):86-93. doi: 10.1556/APhysiol.101.2014.013., [PMID:25481366]

Abstract [show]
The analysis of some extra- and intragenic markers within or closely linked to the cystic fibrosis transmembrane regulator (CFTR) gene is useful as a molecular method in clinical linkage analysis. Indeed, knowing that the molecular basis of cystic fibrosis (CF) is highly heterogeneous in our population, the study of haplotype association with normal and CF chromosomes could be very helpful in cases where one or both mutations remain unidentified. In this study, we analysed with PCR-RFLP and capillary electrophoresis some extra (pJ3.11, KM19 and XV2C) and intragenic (IVS8CA, IVS17bTA and IVS17bCA) polymorphic markers in 50 normal and 10 Tunisian patients carrying the rare E1104X mutation in order to determine the haplotype associated with this mutation. For the extragenic markers, 8 haplotypes were identified. The most frequent of them are the 221 and 112 accounting for 80% of total haplotypes. For the intragenic markers, five haplotypes were present on the E1104X chromosomes. One of them 16-31-13 accounted for 50%. To our knowledge, this is the first work to be interested to the haplotypes linked to the E1104X mutation. This preliminary study of haplotypes could be a helpful method to determine the molecular lesions responsible of this pathology.

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78 The 16-31-13 haplotype found in 50% of E1104X chromosomes was also described linked to 2 rare mutations, the E60X mutation in UK (12) and S549N mutation in the "Grande bri&#e9;re" population (3). Login to comment

[hide] Prevalence of meconium ileus marks the severity of... Genet Med. 2015 Jun 18. doi: 10.1038/gim.2015.79. Dupuis A, Keenan K, Ooi CY, Dorfman R, Sontag MK, Naehrlich L, Castellani C, Strug LJ, Rommens JM, Gonska T
Prevalence of meconium ileus marks the severity of mutations of the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) gene.
Genet Med. 2015 Jun 18. doi: 10.1038/gim.2015.79., [PMID:26087176]

Abstract [show]
RATIONALE: Meconium ileus (MI) is a perinatal complication in cystic fibrosis (CF), which is only minimally influenced by environmental factors. We derived and examined MI prevalence (MIP) scores to assess CFTR phenotype-phenotype correlation for severe mutations. METHOD: MIP scores were established using a Canadian CF population (n = 2,492) as estimates of the proportion of patients with MI among all patients carrying the same CFTR mutation, focusing on patients with p.F508del as the second allele. Comparisons were made to the registries from the US CF Foundation (n = 43,432), Italy (Veneto/Trentino/Alto Adige regions) (n = 1,788), and Germany (n = 3,596). RESULTS: The prevalence of MI varied among the different registries (13-21%). MI was predominantly prevalent in patients with pancreatic insufficiency carrying "severe" CFTR mutations. In this severe spectrum MIP scores further distinguished between mutation types, for example, G542X (0.31) with a high, F508del (0.22) with a moderate, and G551D (0.08) with a low MIP score. Higher MIP scores were associated with more severe clinical phenotypes, such as a lower forced expiratory volume in 1 second (P = 0.01) and body mass index z score (P = 0.04). CONCLUSIONS: MIP scores can be used to rank CFTR mutations according to their clinical severity and provide a means to expand delineation of CF phenotypes.Genet Med advance online publication 18 June 2015Genetics in Medicine (2015); doi:10.1038/gim.2015.79.

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63 Canadian studies for CF modfier genes 2,492 3,153 43,432 3,596 1,788 2,230 23,397 16,023 3 716 3,438 860 15% (19%) 1,902 2,576 PIP and MIP derivation FEV1 and zBMI modeling MIP calculation following correction of MI variable 23,301 2,413 510 21% (25%) 20% (23%) 13% (15%) Total F508del/others MI prevalence uncorrected (estimated) Missing or incomplete genotype Available for analysis Canadian CF patient registry, born after 1980 US CF patient registry German CF patient registry CF patient registry, North Italy Table 1ߒ Meconium ileus prevalence scores for the most common cystic fibrosis-causing variants p. F508del/other variants Class PIP Canada, (n) MIP, (n) Canada United States Germany Italy HGVS Legacy name c.262_263delTT 394delTT I 0.38 (50) c.3472C>T R1158X I 0.37 (35) c.1558G>T V520F 0.35 (43) c.3484C>T R1162X I 0.34 (135) 0.17 (14) 0.22 (45) c.2012delT 2143delT I 0.33 (13) c.3276C>A or G Y1092X I 0.92 (13) 0.09 (12) 0.33 (55) c.3846G>A W1282X I 1.00 (13) 0.29 (13) 0.32 (442) 0.17 (20) c.1477C>T Q493X I 1.00 (11) 0.19 (11) 0.32 (102) c.3528delC 3659delC I 0.31 (139) c.579ߙ+ߙ1G>T 711ߙ+ߙ1G>T 0.97 (39) 0.30 (38) 0.31 (54) c.178G>T E60X I 0.30 (66) c.1657C>T R553X I 1.00 (16) 0.28 (16) 0.30 (415) 0.24 (107) c.1585-1G>A 1717-1G>A I 1.00 (12) 0.23 (12) 0.29 (367) 0.22 (38) 0.16 (22) c.1766ߙ+ߙ1G>A 1898ߙ+ߙ1G>A 0.29 (139) c.1624G>T G542X I 0.99 (73) 0.31 (72) 0.29 (976) 0.21 (79) 0.22 (33) c.1521_1523delCTT F508del II 0.99 (1292) 0.22 (1260) 0.27 (15391) 0.21 (1910) 0.20 (230) c.1679G>C R560T II 0.27 (123) c.3744delA 3876delA 0.27 (22) c.2128A>T K710X I 0.26 (12) c.1519_1521delATC I507del II 1.00 (20) 0.21 (19) 0.25 (162) c.3909C>G N1303K II 0.98 (40) 0.13 (39) 0.25 (534) 0.23 (80) 0.14 (62) c.489ߙ+ߙ1G>T 621ߙ+ߙ1G>T I 1.00 (90) 0.24 (88) 0.25 (369) 0.21 (11) c.3266G>A W1089X I 0.25 (17) c.1675G>A A559T 0.24 (21) c.988G>T G330X 0.24 (10) c.3773_3774insT 3905insT 0.23 (78) c.2988ߙ+ߙ1G>A 3120ߙ+ߙ1G>A 0.22 (121) c.443T>C I148T;3199del6 1.00 (15) 0.22 (15) c.2052delA 2184delA I 0.21 (89) 0.22 (10) c.2051_2052delAAinsG 2183AA>G 0.20 (73) 0.20 (42) c.948delT 1078delT 0.19 (20) c.1652G>A G551D III 0.96 (54) 0.08 (53) 0.15 (979) 0.09 (84) c.254G>A G85E 0.50 (24) 0.06 (24) 0.14 (137) 0.00 (10) c.3196C>T R1066C 0.14 (42) c.1466C>A S489X 1.00 (14) 0.14 (14) c.3808G>A D1270N 0.13 (19) c.1055G>A R352Q 0.12 (18) c.579ߙ+ߙ5G>A 711ߙ+ߙ5G>A 0.12 (30) c.2175_2176insA 2307insA 0.11 (24) c.349C>T R117C 0.10 (37) c.1040G>C R347P IV 0.18 (11) 0.19 (11) 0.10 (130) 0.02 (56) c.350G>A R117H IV 0.05 (21) 0.00 (21) 0.07 (666) 0.02 (19) c.2657ߙ+ߙ5G>A 2789ߙ+ߙ5G>A V 0.25 (20) 0.00 (20) 0.06 (271) 0.01 (21) c.1040G>A R347H 0.06 (55) c.2988G>A 3120G->A 0.06 (36) c.328G>C D1152H IV 0.06 (124) c.3717ߙ+ߙ12191C>T 3849ߙ+ߙ10kbC>T V 0.07 (14) 0.00 (14) 0.05 (299) 0.01 (42) 0.00 (15) c.1364C>A A455E V 0.16 (45) 0.01 (41) 0.05 (109) c.1000C>T R334W IV 0.18 (11) 0.00 (10) 0.05 (92) c.617T>G L206W 0.06 (18) 0.05 (17) 0.04 (52) c.3302T>A M1101K 0.04 (17) c.200C>T P67L V 0.07 (14) 0.00 (14) Meconium ileus prevalence (MIP) and pancreas insufficiency prevalence (PIP) scores are presented. Login to comment

[hide] Limited premature termination codon suppression by... J Cyst Fibros. 2015 Aug 5. pii: S1569-1993(15)00169-1. doi: 10.1016/j.jcf.2015.07.007. Zomer-van Ommen DD, Vijftigschild LA, Kruisselbrink E, Vonk AM, Dekkers JF, Janssens HM, de Winter-de Groot KM, van der Ent CK, Beekman JM
Limited premature termination codon suppression by read-through agents in cystic fibrosis intestinal organoids.
J Cyst Fibros. 2015 Aug 5. pii: S1569-1993(15)00169-1. doi: 10.1016/j.jcf.2015.07.007., [PMID:26255232]

Abstract [show]
Premature termination codon read-through drugs offer opportunities for treatment of multiple rare genetic diseases including cystic fibrosis. We here analyzed the read-through efficacy of PTC124 and G418 using human cystic fibrosis intestinal organoids (E60X/4015delATTT, E60X/F508del, G542X/F508del, R1162X/F508del, W1282X/F508del and F508del/F508del). G418-mediated read-through induced only limited CFTR function, but functional restoration of CFTR by PTC124 could not be confirmed. These studies suggest that better read-through agents are needed for robust treatment of nonsense mutations in cystic fibrosis.

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31 Human organoid culture and functional CFTR measurements Crypts were isolated from rectal biopsies of six subjects with cystic fibrosis (E60X/4015delATTT, E60X/F508del, G542X/ F508del, R1162X/F508del, W1282X/F508del and F508del/ F508del) as previously described (20). Login to comment
39 Results To investigate CFTR repair by PTC124 and G418, we measured swelling of human intestinal organoids compound heterozygous for a CFTR PTC allele and a frame shift allele (E60X/4015delATTT), lacking CFTR function as indicated by absence of forskolin-induced swelling (FIS) (20). Login to comment
46 We next assessed read-through by G418 and PTC124 in organoids compound heterozygous for F508del and a nonsense mutation (E60X, G542X, R1162X and W1282X) (Fig. 2A). Login to comment
58 The G418-induced CFTR function was further stimulated by CFTR-modifying drugs VX-770 and VX-809 in organoids lacking residual CFTR function (E60X/4015delATTT), confirming G418 induced full-length CFTR protein and confirming previous data (22) (Fig. 1A, C-D). Login to comment
61 These data indicated that E60X/4015delATTT intestinal organoids express sufficient CFTR nonsense mRNA levels for detection of read-through by pharmacological agents such as G418. Login to comment
66 Forskolin-induced swelling (FIS) of intestinal organoids (E60X/4015delATTT and F508del/F508del), incubated with either G418, PTC124 or DMSO (vehicle), w/o VX-809 for 24 h and stimulated with forskolin, w/o VX-770. Login to comment
69 A) Normalized E60X/4015delATTT organoid area increase in 60 min of FIS (%, &#b1;SD); B) representative images to determine total area and luminal area per well; C) luminal size (% of total organoid area) after 60 min of FIS (%, &#b1;SD), *p b 0.05, **p b 0.01; D) representative confocal images, conditions as indicated. Login to comment

[hide] rAAV-CFTRDeltaR Rescues the Cystic Fibrosis Phenot... Am J Respir Crit Care Med. 2015 Oct 28. Vidovic D, Carlon MS, F da Cunha M, Dekkers JF, Hollenhorst MI, Bijvelds MJ, Ramalho AS, Van den Haute C, Ferrante M, Baekelandt V, Janssens HM, De Boeck K, Sermet-Gaudelus I, de Jonge HR, Gijsbers R, Beekman JM, Edelman A, Debyser Z
rAAV-CFTRDeltaR Rescues the Cystic Fibrosis Phenotype in Human Intestinal Organoids and CF Mice.
Am J Respir Crit Care Med. 2015 Oct 28., [PMID:26509335]

Abstract [show]
RATIONALE: Gene therapy holds promise for a curative mutation-independent treatment applicable to all cystic fibrosis (CF) patients. The various viral vector-based clinical trials conducted in the past have demonstrated safety and tolerance of different vectors, but none have led to a clear and persistent clinical benefit. Recent clinical breakthroughs in adeno-associated virus-(rAAV) based gene therapy encouraged us to re-explore a rAAV approach for CF. OBJECTIVES: We evaluated the preclinical potential of rAAV gene therapy for CF to restore chloride and fluid secretion in two complementary models: intestinal organoids derived from CF subjects and a CF mouse model, an important milestone towards the development of a clinical rAAV candidate for CF gene therapy. METHODS: We engineered a rAAV vector containing a truncated CFTR (CFTRDeltaR) combined with a short promoter (CMV173) to ensure optimal gene expression. A rescue in chloride and fluid secretion after rAAV-CFTRDeltaR treatment was assessed by forskolin-induced swelling in CFTR-deficient organoids and by nasal potential differences in DeltaF508 mice. MEASUREMENTS AND MAIN RESULTS: rAAV-CFTRDeltaR transduction of human CFTR-deficient organoids resulted in forskolin-induced swelling indicating a restoration of CFTR function. Nasal potential differences demonstrated a clear response to low chloride and forskolin perfusion in the majority of rAAV-CFTRDeltaR treated CF mice. CONCLUSIONS: Our study provides robust evidence that rAAV-mediated gene transfer of a truncated CFTR functionally rescues the CF phenotype across the nasal mucosa of CF mice and in patient-derived organoids. These results underscore the clinical potential of rAAV-CFTRDeltaR in offering a cure for all CF patients in the future.

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91 3 4 CFTR࢞R restores chloride and fluid secretion in intestinal organoids derived from cystic 5 fibrosis subjects 6 After showing functionality in a HeLa-based cell culture model, we set out to evaluate the 7 potential of CFTR࢞R to rescue the CF phenotype in human CFTR-deficient organoids 8 (E60X/4014delATTT; referred to as CF) and to compare activity to full length 3F-CFTR. Login to comment
108 Next, 2 rAAV-CFTR࢞R was functionally validated in human CFTR-deficient organoids 3 (E60X/4014delATTT; referred to as CF) (Figure 3E-I). Login to comment
461 All 10 results are representative of at least three independent experiments and are presented as mean &#b1; 11 SEM. CF organoids = E60X/4015ATTTdel. Login to comment
476 CF organoids = E60X/4015ATTTdel. Login to comment
598 Organoids 17 originate from a CF subject with two class I mutations (E60X/4015ATTTdel). Login to comment