125 These mutants sustain a reduced response to ATP-examples include S1255P, G551S, G1244E, and G1349D.

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ABCC7 p.Gly551Ser 10021451:125:73

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98 These mutants sus- ment of CF cells with 4-phenylbutyrate or low tempera- tain a reduced response to adenosine 5Ј-triphosphate ture to induce ⌬F508 trafficking to the plasma mem- (ATP); examples include S1255P, G551S, G1244E, and brane, allowed genistein to activate chloride transport G1349D.

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ABCC7 p.Gly551Ser 10720936:98:224

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152 There may be other specific mutations consistently associated with a mild lung presentation, like the G551S allele, but the small number of patients analyzed do not allow for a definite conclusion [55, 58].

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ABCC7 p.Gly551Ser 10773783:152:102

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69 First, we tested these patients for 12 mutations selected for the following reasons: five are the most common mutations worldwide (∆F508, G542X, N1303K, G551D and R553X; CFGAC 1994); 362 Table 1 Frequency of the CFTR gene mutations in 97 (194 chromosomes) Mexican patients Mutation Number of Frequency affected alleles (%) ∆F508 79 40.72 G542X 12 6.18 ∆I507 5 2.57 S549N 5 2.57 N1303K 4 2.06 R75X 3 1.54 406-1G→A 3 1.54 I148T 3 1.54 2055del9→A 2 1.03 935delA 2 1.03 I506T 2 1.03 3199del6 2 1.03 2183AA→G 2 1.03 G551D 1 0.51 R553X 1 0.51 1924del7 1 0.51 G551S 1 0.51 1078delT 1 0.51 Y1092X 1 0.51 R117H 1 0.51 G85E 1 0.51 3849+10KbC→T 1 0.51 1716G→A 1 0.51 W1204X 1 0.51 W1098Ca 1 0.51 846delTa 1 0.51 P750La 1 0.51 V754M 1 0.51 R75Q 1 0.51 W1069X 1 0.51 L558S 1 0.51 4160insGGGGa 1 0.51 297-1G→Aa 1 0.51 H199Y 1 0.51 2869insG 0 0 R1162X 0 0 3120+1G→A 0 0 Total 34 145 74.58% aNovel mutations detected in this study Fig.1 Sequencing ladders showing the CFTR novel mutations.

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ABCC7 p.Gly551Ser 10798368:69:595

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22 Examples of CFTR mutations organized by classification of the defect in CFTR biosynthesis Type Genotype Phenotype Defect Cell diagram Drugs that may improve phenotype G542X 621+1 G → T 3905insT W1282X R553X 1717-1 G → A PI no CFTR protein no cell surface chloride transport gentamicin G418 Class II [64] 'F508 N1303K (P574H)a (A455E)a PI defective CFTR processing defective CFTR trafficking no cell surface chloride transport chemical chaperones CPX phenylbutyrate deoxyspergualin Class III [64] G551D G551S PI defective chloride channel regulation reduced or absent cell surface chloride transport genistein pyrophosphate Class IV [64, 66] R117H R334W G314E R347P ('F508)a P574H PS reduced chloride conductance reduced levels of cell surface chloride transport genistein milrinone phenylbutyrate Class V [64] 3849+10 kb C → T 2789+5 G → A 3272-26 A → G A455E 3120+1 G → A 1811+1.6 kb A → G 5Tb PS normal CFTR channels reduced numbers of normal CFTR reduced cell surface chloride transport genistein milrinone phenylbutyrate a Some mutants have features of more than one class of defect.

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ABCC7 p.Gly551Ser 10940786:22:516

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100 Whereas G551D is severely defective, G551S is a milder mutant.

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ABCC7 p.Gly551Ser 10940786:100:37

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104 Interestingly, inorganic pyrophosphate stimulated G551S and R117H, a class IV mutation.

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ABCC7 p.Gly551Ser 10940786:104:50

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92 These mutants, including S1255P, G551S, G1244E, and G1349D, sustain a reduced response to ATP.

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ABCC7 p.Gly551Ser 11100963:92:33

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50 Two sets of particularly interesting mutants are G551D and G551S and H620Q and A800G.

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ABCC7 p.Gly551Ser 11242048:50:59

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51 G551S, which is associated with CF with pancreatic suf®ciency, had no effect on Cl-transport but reduced HCO3 transport by 59% (Fig. 2).

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ABCC7 p.Gly551Ser 11242048:51:0

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66 Notably, although a few of these mutants exhibit altered letters to nature NATURE |VOL 410 |1 MARCH 2001 |www.nature.com 95 NO3 - Forskolin 5 µM NO3 - Forskolin 5 µM a G551S b G551D 10mMCl- 200 s NO3 - NO3 - Forskolin 5 µM Forskolin 5 µM f H620Q g A800G h H620Q Forskolin 5 µMCl- free Cl- freeCl- free Cl-free c G551S d G551D Forskolin 5 µM Forskolin 5 µM 0.25pHunits 250 s e A800G 0 0.25 0.50 0.75 1.00 H620Q A800G G551D G551S j WT Forskolin 5 µM 0 0.25 0.50 0.75 1.00 H620Q A800G G551D G551S WT i [Cl- ]change(mMs-1 )HCO3 -transport (∆pH+ min-1 ) Figure 2 cAMP-stimulated Cl- and HCO3 transport by CFTR mutants associated with a severe or a mild form of CF.

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ABCC7 p.Gly551Ser 11242048:66:178

status: NEW

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ABCC7 p.Gly551Ser 11242048:66:337

status: NEW

X

ABCC7 p.Gly551Ser 11242048:66:338

status: NEW

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ABCC7 p.Gly551Ser 11242048:66:457

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186 letters to nature 96 NATURE |VOL 410 |1 MARCH 2001 |www.nature.com HCO3 -/Cl- transportratio 0 0.25 0.50 0.75 1.00 WT I148T G178R R297Q G551D H620Q G970R A1067T G1244E S1255P G1349D E193K G551S A800G H949Y R1070Q Pancreatic insufficient Pancreatic sufficientD648V N CI148T G178R E193K R297Q R117H A1067T R1070Q G1244E S1255P G1349D NBD2 RD H949Y G970R CL4CL3CL2CL1 NBD1 G551D G551S H620Q D648V A800G Figure 3 The HCO3:Cl-transport ratio of CFTR mutants associated with CF.

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ABCC7 p.Gly551Ser 11242048:186:188

status: NEW

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ABCC7 p.Gly551Ser 11242048:186:376

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65 Distribution of XK Haplotype on Chromosomes Bearing Uncommon Cystic Fibrosis (CF) Mutations A B C D S549N 4/4 DI507 3/3 N1303K 3/3 2055 del9!A 2/2 I148T 1/1 406-1G!A 1/1 R75X 1/1 I506T 1/1 935delA 1/1 2183AA!G 1/1 1924del7 1/1 G551S 1/1 1078delT 1/1 R117H 1/1 3849‡10KbC!T 1/1 1716G!A 1/1 W1204X 1/1 W1098C 1/1 846delT 1/1 R75Q 1/1 W1069X 1/1 L558S 1/1 4160insGGGG 1/1 297-1G!A 1/1 Fig.

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ABCC7 p.Gly551Ser 11484207:65:227

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73 Dans des situations d`hétérozygotie composite, la présence de certaines d`entre elles a pu être associée de manière occasionnelle ou parfois plus consistante avec un taux de chlorure dans la sueur inférieur à 60 voire même (dans de très rares cas) 30 mmol/L. Dans ce singulier petit groupe, figurent notamment les mutations 3 849 + 10kb C→T, A455E, R117H, , R347H, G551S, D1152H.

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ABCC7 p.Gly551Ser 11547256:73:422

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77 C→T (6-9), R347H (12), G551S (13), D1152H (14), R117H (15, 16), and R117C (17) mutations.

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ABCC7 p.Gly551Ser 11897640:77:30

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113 G551D G551S PI Defective chloride channel Regulation Reduced or absent cell surface chloride transport Genistein Pyrophosphate UTP INS36217 Moli1901 Class IV Mutations located within membrane spanning domain, implicated in forming the pore of the channel.

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ABCC7 p.Gly551Ser 11966405:113:6

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113 Mexico ∆F508 (41.6%) G551S (0.5%) 75.5 57.0 35 374/194 Orozco et al.[1993]; Villalobos- G542X (5.6%) 1078delT (0.5%) Torres et al. [1997]; Liang et al. ∆I507 (2.5%) Y1092X (0.5%) [1998]; Orozco et al. [2000] S549N (1.9%) R117H (0.5%) N1303K (1.7%) G85E (0.5%) R75X (1.5%) 1716G→A (0.5%) 406-1G→A (1.5%) W1204X (0.5%) I148T (1.5%) W1098C (0.5%) 3849+10KbC→T (1.5%) 846delT (0.5%) 621+1G→T (1.2%) P750L (0.5%) 2055del9→A (1.0%) V754M (0.5%) 935delA (1.0%) R75Q (0.5%) I506T (1.0) W1096X (0.5%) 3199del6 (1.0%) L558S (0.5%) 2183AA→G (1.0%) 4160insGGGG (0.5%) G551D (0.5%) 297-1G→A (0.5%) R553X (0.5%) H199Y (0.5%) 1924del7 (0.5%) United States ∆F508 (68.6%) R553X (0.9%) 79.7 63.5 10 25048 Cystic Fibrosis Foundation (total) G542X (2.4%) 621+1G→T (0.9%) [1998] G551D (2.1%) 1717-1G→A (0.7%) W1282X (1.4%) 3849+10KbC→T (0.7%) N1303K (1.3%) R117H (0.7%) United States ∆F508 (48.0%) S1255X (1.4%) 77.3 59.8 16 160/148 Carles et al. [1996]; Macek et al. (African 3120+1G→A (12.2%) 444delA (0.7%) [1997]; Dörk et al. [1998]; American) 2307insA (2.0%) R334W (0.7%) Friedman et al. [1998] A559T (2.0%) ∆I507 (0.7%) R553X (2.0%) 1717-1G→A (0.7%) ∆F311 (2.0%) G542X (0.7%) G480C (1.4%) S549N (0.7%) 405+3A→C (1.4%) G551D (0.7%) United States 1) L1093P - - 1 2 Yee et al. [2000] (Cherokee) United States Non-French: French: Non- Non- Non- Non- Bayleran et al. [1996] (Maine) ∆F508 (82.0%) ∆F508 (58%) French: French: French: French: G542X (2.6%) 711+1G→T (8.3%) 95.3 90.8 11 191 G551D (2.6%) I148T (4.2%) French: French: French: French: N1303K (2.1%) A455E (4.2%) 80.3 64.5 8 72 R560T (1.0%) 1717-1G→A (1.4%) Total: 621+1G→T (1.0%) G85E (1.4%) 263 711+1G→T (1.0%) 621+1G→T (1.4%) R117H (1.0%) Y1092X (1.4%) 1717-1G→A (1.0%) G85E (0.5%) W1282X (0.5%) 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 WORLDWIDEANALYSISOFCFTRMUTATIONS589 United States ∆F508 (46.0%) R334W (1.6%) 58.5 34.2 7 129 Grebe et al. [1994] (SW Hispanic) G542X (5.4%) W1282X (0.8%) 3849+10KbC→T (2.3%) R553X (0.8%) R1162X (1.6%) United States 1) R1162X - - 3 17 Mercier et al. [1992] (SW Native 2) D648V American) 3) G542X United States 1) R1162X 3) G542X - - 4 16 Mercier et al. [1994] (Zuni Pueblo) 2) 3849+10KbC®T 4) D648V Venezuela ∆F508 (29.6%) G542X (3.7%) 33.3 11.1 2 54 Restrepo et al. [2000] Other Regions Australia ∆F508 (76.9%) 621+1G→T (1.1%) 88.7 78.7 8 761/464 CFGAC [1994] G551D (4.5%) N1303K (0.9%) G542X (2.8%) W1282X (0.6%) R553X (1.3%) R117H (0.6%) East Asia 1) 1898+1G®T 2) 1898+5G®T - - 2 28 Suwanjutha et al. [1998] Hutterite 1) M1101K (69.0%) 2) DF508 (31.0%) - - 2 32 Zielenski et al. [1993] Brethren New Zealand ∆F508 (78.0%) N1303K (1.9%) 87.4 76.4 5 636 CFGAC [1994] G551D (4.4%) 621+1G→T (1.1%) G542X (2.0%) *This table presents the mutation panels for all regions investigated in this study.

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ABCC7 p.Gly551Ser 12007216:113:28

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160 Some of them are always responsible for a unique phenotype that can be either CF-PI (for instance, the case of N1303K in class II, G551D in class III, and R1066C in class IV), or CF-PS (for instance, the case of G551S in class III) or CBVAD for D1152H (class IV).

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ABCC7 p.Gly551Ser 12414835:160:212

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18 Other mutations that might be associated with intermediate (40-60 mmol/L) or normal sweat chloride values have been reported: R117H [Kerem et al., 1997; Massie et al., 2000], G551S [Strong et al., 1991], A455E [Gan et al., 1995], L206W [Desgeoges et al., 1995], D1152H [Feldmann et al., 1995; Lebecque et al., 2001].

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ABCC7 p.Gly551Ser 12955726:18:175

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60 This group includes G551D and G551S.

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ABCC7 p.Gly551Ser 14662004:60:30

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88 Class of mutation Molecular mechanism Pancreatic status (if known) Examples 1 No CFTR protein synthesis PI W1282X, G542X, R553X, 621 + 1 G→T, 1717-1 G→A, 3905insT, 394delTT 2 Abnormal CFTR processing and trafficking PI ∆F508, N1303K, P574H 3 Defective CFTR regulation (normal trafficking) PI G551D, G551S, G1349D, S1255P 4 Decreased CFTR chloride conductance PS R117H, R334W, R347P, P547H 5 Reduced synthesis and trafficking of normal CFTR PS A455E, 3849 + 10kb C→T, (5T) 6A Reduced apical stability PI S1455X, Q1412S, 4326delTC, 4279insA 6B Defective regulation of other ion channels PI G551D Note that the G551D is placed in Class 3 for defective regulation and Class 6B for defective regulation of the outwardly rectifying chloride channel.

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ABCC7 p.Gly551Ser 14662004:88:320

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82 However, chloride channel activity alone is not necessarily sufficient to activate chloride-bicarbonate exchange: some CFTR mutations (for example, G551S) display near normal chloride N NPlasma membrane ETKF DTRL NBD1 NBD2 PKA phosphorylation SLC26 CFTR STAS PDZ binding protein C C C R N NPlasma membrane ETKF DTRL NBD1 NBD2 SLC26 CFTR STAS PDZ binding protein C R P P Figure 1 Interactions between CFTR and SLC26 transporters. CFTR and SLC26 are envisaged to interact through binding of their respective R and STAS domains, a process that is enhanced by PKA (protein kinase A)-mediated phosphorylation of the CFTR R domain1 (not shown).

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ABCC7 p.Gly551Ser 15057243:82:148

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27 T; G91R; E92K; P205S; G551S; Y563N; and P574H.23,24 Note that there are 36 mild alleles in 34 subjects, because two subjects had both the 3848 þ 10 kb C !

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ABCC7 p.Gly551Ser 15274098:27:22

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116 FE-1 values in subjects with CFTR mutations associated with pancreatic sufficiency11 N Mean (mg/g stool) Median (mg/g stool) Range (mg/g stool) Subjects with at least one PS allele* FE-1 >200 mg/g stool 16 584 582.9 349-773 FE-1 <200 mg/g stool 5 64.4 74.8 0-125 Subjects with at least one PS variable alleley FE-1>200 mg/g stool 29 496.2 493.6 224-798 FE-1 <200 mg/g stool 13 76.1 65.9 0-187 *Pancreatic sufficient dominant CF alleles G551S R117H R347H P574H R334W R352Q T3381 yVariable pancreatic sufficient CF mutations G85E 3849 + 10 kb C fi T R347P 2789 + 5G fi A A455E In summary, FE-1 is an accurate, easily obtained screening test to classify patients with CF as PI or PS.

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ABCC7 p.Gly551Ser 15343184:116:436

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55 Pancreatic Sufficient CF Mutations Dominant Pancreatic-Sufficient Variable Pancreatic-Sufficient G551S G85E P574H R347P R117H 3849 + 10kb C !

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ABCC7 p.Gly551Ser 15758625:55:97

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86 The pancreatic sufficient mutations identified were 18981 5G>T, 278915G>A, A455E, G551S, G85E, I336K, P67L, R117C, R117H, R334W, R347P.

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ABCC7 p.Gly551Ser 16202790:86:82

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244 Highsmith and colleagues (1994) studied 23 patients with pulmonary disease characteristic of CF but with a normal sweat test and identified a point mutation in intron 19 of the CFTR gene, termed 3849+10kb C-T.15 This mutation produces an alternative splicing site and decreased amounts of CFTR mRNA can be detected.16 Thus, according to the classification of the CFTR mutations, this mutation falls into Class V.16,67 Other mutations associated with normal or borderline sweat electrolytes are R117H, D1152H, A455E, G551S and 2789+5G - A.9,24,78 An interesting phenotype, presenting with elevated sweat chloride concentration in the absence of other CF symptoms, has been described in a patient with a nonsense mutation, S1455X.105 This mutation truncates 26 amino acids from the C-terminus of the protein product.

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ABCC7 p.Gly551Ser 16648884:244:516

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56 Carson et al. (1995) confirmed and expanded this observation by showing that PPi also strongly potentiates cystic fibrosis-associated mutations ⌬F508 and G551S.

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ABCC7 p.Gly551Ser 19332621:56:161

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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.

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ABCC7 p.Gly551Ser 20932301:74:743

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152 A small number of more Table 1 Classification of cystic fibrosis gene mutation as severe, mild or indeterminate with respect to pancreatic function Severe Mild Variable (classes 1, I/ or 111) (classes IV or V) (classes IV or V) AF508 R117H G85E 1148T R334W 2789+5G-*A G480C R347P G551D A455E R560T P574H N1303K 3849+1 Okb C-+T G542X G551S W1282X P5748 621 +1 G-T R352Q 1717-1G-T T3381 556delA Adapted from Ref 20 with permission recently described mutations [G85E and 278+5G-÷AI are less clearly determinant with respect to the pancreatic sufficient and pancreatic insufficient phenotypes.

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ABCC7 p.Gly551Ser 9709387:152:333

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223 Thus G55lS is a mutation of a glycine at position 551 to a serine.

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ABCC7 p.Gly551Ser 1381146:223:30

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366 AF508/AF508 G551D/G551D G542X/G458V G542X/G542X R553X/W1316X N369X/unknown R553X/R553X G551S/G551S G368Xlunknown AF508/R117H PI PI PI PI PI PI PI PS PS PS Severe 116 Severe 181 Severe 49 Mild 49 Mild 50 Mild 102 Moderate-Severe 13 Mild 181 Mild 102 Mild 55 Comparison of genotype with phenotype for some CF-associated mutations.

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ABCC7 p.Gly551Ser 1381146:366:87

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ABCC7 p.Gly551Ser 1381146:366:93

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133 These mutants corresponded to CFTR alterations known to be associated with cystic fibrosis (G551D and G551S in CFTR, G756D and G756S in Ycf1p) as well as lesions that either disturb normal function (K464M in CFTR, K669M in Ycf1p) or act to suppress the phenotype of ⌬F508 CFTR (R553Q and R553M in CFTR, K758Q and K758M in CFTR).

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ABCC7 p.Gly551Ser 9379898:133:102

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237 The three mutant Ycf1p derivatives (⌬F713, G756D and G756S) that correspond to known CF-causing alleles of CFTR (⌬F508, G551D and G551S) all produce a Ycf1p mutant that exhibits a defect analogous to its CFTR counterpart.

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ABCC7 p.Gly551Ser 9379898:237:144

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56 (1996)[30] 11ABPA53chronic bronchitis Asthma,pulmonaryinfiltrates,CB, immediateAfskintestpositivity,totalIgE >1000ngml)1 ,positiveAfprecipitins, elevatedAfIgG/IgE,bloodeosinophilia, sweatchloride<40mmoll)1 /(United States) BothgroupssixmutationsF508del, G542X,GS51D,R553X,W1282X andN1303K;ninemoremutations inABPA:R117H,R347P,R347H, R334W,A455E,G551S, 2789+5G>A,D1152H,and 3849+10kbC>T ReverseASOanalysis andDGGEwithDNA sequencing 1patientcarried2CF (F508del;R347H)and5 carried1CF(4F508del; 1R117H).Mutationsseenin 6/11ABPAvs.1/53 controls Aronetal.

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ABCC7 p.Gly551Ser 21999194:56:345

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4 These included the G551D, G178R, S549N, S549R, G551S, G970R, G1244E, S1251N, S1255P and G1349D CFTR gating mutations.

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ABCC7 p.Gly551Ser 22293084:4:47

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23 Other known CFTR gating mutations include G178R, G551S, G970R, G1244E, S1255P, and G1349D [9-11].

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ABCC7 p.Gly551Ser 22293084:23:49

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39 These included G551D-, G178R-, S549N-, S549R-, G551S-, G970R-, G1244E-, S1251N-, S1255P-, and G1349D-CFTR [4,7,9-11].

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ABCC7 p.Gly551Ser 22293084:39:47

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46 This analysis showed that, as expected for known CFTR gating mutations (G551D, G178R, G551S, G970R, G1244E, S1255P, and G1349D) [5,9-11], the amount of CFTR delivered to the cell surface was generally similar between CFTR with gating defects and normal CFTR.

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ABCC7 p.Gly551Ser 22293084:46:86

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48 Interestingly, there was significantly more G551S-CFTR at the cell surface than normal CFTR, although the total amount of G551S-CFTR synthesized and the ratio of mature to total CFTR were similar to normal CFTR.

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ABCC7 p.Gly551Ser 22293084:48:44

status: NEW

X

ABCC7 p.Gly551Ser 22293084:48:122

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50 Ivacaftor increased the channel gating of mutant CFTR with defective channel gating The effect of ivacaftor on CFTR channel gating was monitored by quantifying the channel open probability by patch-clamp electrophysiology using membrane patches excised from FRT cells expressing the known CFTR gating mutations, G551D-, G178R-, G551S-, G970R-, G1244E-, S1255P-, or G1349D-CFTR.

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ABCC7 p.Gly551Ser 22293084:50:328

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52 Under these conditions, the baseline CFTR channel open probability of G551D-, G178R-, G551S-, G970R-, G1244E-, S1255P-, and G1349D-CFTR was ≤5% of normal CFTR (Fig. 2, B; Table 1).

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ABCC7 p.Gly551Ser 22293084:52:86

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53 For most mutant CFTR forms, the single channel current amplitude, a measure of channel conductance, was similar to normal CFTR (between 77% and 122% of normal CFTR), although a small but statistically significant difference in single channel current amplitude was observed for S1255P-CFTR (Table 1).

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ABCC7 p.Gly551Ser 22293084:53:86

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58 Ivacaftor enhanced chloride transport through mutant CFTR with defective channel gating The impact of the increase in CFTR channel gating by ivacaftor on total chloride transport was assessed in Ussing chamber studies using FRT cells expressing the known CFTR gating mutations, G551D-, G178R-, G551S-, G970R-, G1244E-, S1255P-, and G1349D-CFTR.

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ABCC7 p.Gly551Ser 22293084:58:294

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61 Under these conditions, the baseline level of chloride transport in FRT cells expressing G551D-, G178R-, G551S-, G970R-, G1244E-, S1255P-, and G1349D-CFTR was b10% of normal CFTR (Fig. 3; Table 2), which was consistent with the low CFTR channel open probability of these mutant CFTR forms (Table 1).

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ABCC7 p.Gly551Ser 22293084:61:105

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71 Patch-clamp studies confirmed that the channel open probability of S549N-, S549R-, and S1251N-CFTR was b5% of normal CFTR, whereas the single channel current amplitude Normal F508del G551D G178R S549N S549R G551S G970R G1244E S1251N S1255P G1349D 0 50 100 150 200 CFTRmRNA (%NormalCFTR) None F508del G551D G178R S549N S549R G551S G970R G1244E S1251N S1255P G1349D 0.0 0.2 0.4 0.6 0.8 1.0 ** * CFTRMaturation (Mature/Total) None F508del G551D G178R S549N S549R G551S G970R G1244E S1251N S1255P G1349D 0 100 200 300 400 ** * * * CFTR Mutations MatureCFTR (%NormalCFTR) A B D C Mature Immature Fig. 1.

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ABCC7 p.Gly551Ser 22293084:71:207

status: NEW

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ABCC7 p.Gly551Ser 22293084:71:324

status: NEW

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ABCC7 p.Gly551Ser 22293084:71:460

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90 In a panel of FRT cells expressing G551D-, G178R-, G551S-, G970R-, G1244E-, S1255P-, and G1349D-CFTR, we confirmed that all these mutant CFTR forms shared similar in vitro functional characteristics that were consistent with a defect in channel gating.

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ABCC7 p.Gly551Ser 22293084:90:51

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91 In addition, we showed that the 3 additional mutations, S549N, S549R, and S1251N also have characteristics consistent with gating defects.

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ABCC7 p.Gly551Ser 22293084:91:51

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93 Ivacaftor addition caused a N10-fold increase in CFTR-mediated chloride transport in FRT cells expressing G551D-, G178R-, S549N-, S549R-, G551S-, G970R-, G1244E-, S1251N-, S1255P-, and G1349D-CFTR.

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ABCC7 p.Gly551Ser 22293084:93:138

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96 Taken together, these in vitro results provide a rationale for testing the potential benefit of ivacaftor in individuals with CF who have a CFTR gating mutation other than G551D, including the G178R-, S549N-, S549R-, G551S-, G970R-, G1244E-, S1251N-, S1255P, and G1349D CFTR gating mutations.

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ABCC7 p.Gly551Ser 22293084:96:217

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97 Evaluation of CF-associated CFTR mutations that were expected to cause protein alterations in the ATP-binding sites formed by the NBDs indicated that S549N- and S1251N-CFTR also shared similar in vitro functional characteristics with G551D-CFTR and could be classified as CFTR gating mutations.

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ABCC7 p.Gly551Ser 22293084:97:217

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99 The partial reduction in S549R-CFTR maturation was ~27% of A Normal G551D G178R S549N S549R G551S G970R G1244E S1251N S1255P G1349D 0.0 0.2 0.4 0.6 0.8 1.0 0 50 100 150 200 250 Baseline With 10 µM Ivacaftor * * * * * * * * * * * CFTR Mutation ChannelOpenProbability ChannelOpenProbability (%NormalCFTR) B 1pA 3sec + 10 µM Ivacaftor G1349D S1255P G970R G551S G178R G1244E Baseline Normal G551D S1251N S549N S549R Fig. 2.

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ABCC7 p.Gly551Ser 22293084:99:92

status: NEW

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ABCC7 p.Gly551Ser 22293084:99:362

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113 A milder CF clinical phenotype has been associated with the G551S CFTR gating mutation, as demonstrated by a lower sweat chloride concentration (75-94 mmol/L) and lower incidence of pancreatic insufficiency compared to patients with CF who carry the G551D CFTR gating mutation [21].

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ABCC7 p.Gly551Ser 22293084:113:60

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114 In the present study, although the expression and channel open probability of G551S-CFTR were similar to G551D-CFTR, the baseline chloride transport was higher (~9% normal CFTR).

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ABCC7 p.Gly551Ser 22293084:114:60

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ABCC7 p.Gly551Ser 22293084:114:78

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115 This may be due to the increased level of mature G551S-CFTR delivered to the cell surface compared to normal CFTR, as determined by immunoblot studies in FRT cells.

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ABCC7 p.Gly551Ser 22293084:115:49

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ABCC7 p.Gly551Ser 22293084:115:78

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116 The potency (EC50) of ivacaftor for the CFTR gating mutations tested was similar to G551D in vitro, suggesting that a similar dose of ivacaftor as that used in clinical trials of patients with CF who carry the G551D CFTR gating mutation may be appropriate for most other CFTR gating mutations.

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ABCC7 p.Gly551Ser 22293084:116:49

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127 Like G551D, the G551S, G1244E, S1255P, and G1349D CFTR gating mutations, as well as the S549N, S549R, and S1251N CFTR gating mutations identified in the Table 1 Effect of ivacaftor on the channel gating activity of CFTR with gating mutations.

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ABCC7 p.Gly551Ser 22293084:127:16

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128 Single channel current amplitude at 80 mV CFTR channel open probability Baseline With 10 μM ivacaftor Baseline With 10 μM ivacaftor Mutation pA % Normal pA % Normal Po % Normal Po % Normal Normal 0.57±0.03 100 0.63±0.02 111 0.400±0.04 100 0.800±0.04 a 200 G551D 0.46±0.06 81 0.46±0.03 81 0.019±0.01 b 5 0.121±0.035 a 30 G178R 0.59±0.11 103 0.66±0.08 116 0.005±0.001 b 1 0.228±0.022 a 57 S549N 0.55±0.02 97 0.61±0.02 108 0.003±0.010 b 1 0.396±0.119 a 99 S549R 0.45±0.01 b 79 0.55±0.02 a 96 0.004±0.010 b 1 0.143±0.031 a 36 G551S 0.57±0.13 100 0.64±0.02 113 0.010±0.001 b 3 0.337±0.110 a 84 G970R 0.55±0.03 96 0.55±0.03 97 0.001±0.001 b 0 0.245±0.042 a 61 G1244E 0.44±0.11 77 0.54±0.08 94 0.011±0.010 b 3 0.470±0.122 a 118 S1251N 0.54±0.07 95 0.63±0.04 111 0.003±0.010 b 1 0.350±0.03 a 88 S1255P 0.70±0.03 b 122 0.71±0.02 125 0.018±0.016 b 5 0.468±0.168 a 117 G1349D 0.49±0.08 85 0.63±0.06 111 0.019±0.015 b 5 0.315±0.110 a 79 a Significantly different (Pb0.05; paired t-test, n=3-5) compared to baseline levels for each CFTR mutation.

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ABCC7 p.Gly551Ser 22293084:128:16

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ABCC7 p.Gly551Ser 22293084:128:634

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130 0 100 200 300 400 -9 -8 -7 -6 -5 -4 G178R G551D G551S 0 S549N S549R Ivacaftor [Log M] 0 100 200 300 400 0 50 100 150 200 -9 -8 -7 -6 -5 -4 G970R G1244E S1255P G1349D 0 S1251N Ivacaftor [Log M] ChlorideTransport (%NormalCFTR) Normal Forskolin G178R G551S G970R G1244E 50 2 1 min S1255P Normal F508del G551D G178R S549N S549R G551S G970R G1244E S1251N S1255P G1349D 0 100 200 300 400 0 50 100 150 200 * * * * * * * * * * * * * CFTR Mutation ChlorideTransport(µA/cm2)ChlorideTransport(µA/cm2) ChlorideTransport(A/cm2) ChlorideTransport (%NormalCFTR) B G1349D G551D A F508del C S549N S549R S1251N Baseline Baseline present study, cause protein alterations in the ATP binding pockets formed by the two NBDs required for normal CFTR channel gating (Fig. 4) [2].

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ABCC7 p.Gly551Ser 22293084:130:48

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ABCC7 p.Gly551Ser 22293084:130:248

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ABCC7 p.Gly551Ser 22293084:130:324

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131 The G178R and G970R CFTR gating mutations alter the intracellular cytoplasmic loops that are believed to link the ATP-driven conformational changes in the NBDs to the opening of the CFTR channel pore formed by the membrane spanning domains [27].

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ABCC7 p.Gly551Ser 22293084:131:48

status: NEW

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ABCC7 p.Gly551Ser 22293084:131:251

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ABCC7 p.Gly551Ser 22293084:131:327

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144 The in vitro data presented here suggest that ivacaftor has a similar effect on all CFTR forms with gating defects and support the investigation of ivacaftor in patients with CF who have CFTR gating mutations beyond G551D, including G178R, S549N, S549R, G551S, G970R, G1244E, S1251N, S1255P, and G1349D.

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ABCC7 p.Gly551Ser 22293084:144:254

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24 Other known CFTR gating mutations include G178R, G551S, G970R, G1244E, S1255P, and G1349D [9-11].

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ABCC7 p.Gly551Ser 22293084:24:49

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40 These included G551D-, G178R-, S549N-, S549R-, G551S-, G970R-, G1244E-, S1251N-, S1255P-, and G1349D-CFTR [4,7,9-11].

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ABCC7 p.Gly551Ser 22293084:40:47

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47 This analysis showed that, as expected for known CFTR gating mutations (G551D, G178R, G551S, G970R, G1244E, S1255P, and G1349D) [5,9-11], the amount of CFTR delivered to the cell surface was generally similar between CFTR with gating defects and normal CFTR.

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ABCC7 p.Gly551Ser 22293084:47:86

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49 Interestingly, there was significantly more G551S-CFTR at the cell surface than normal CFTR, although the total amount of G551S-CFTR synthesized and the ratio of mature to total CFTR were similar to normal CFTR.

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ABCC7 p.Gly551Ser 22293084:49:44

status: NEW

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ABCC7 p.Gly551Ser 22293084:49:122

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51 Ivacaftor increased the channel gating of mutant CFTR with defective channel gating The effect of ivacaftor on CFTR channel gating was monitored by quantifying the channel open probability by patch-clamp electrophysiology using membrane patches excised from FRT cells expressing the known CFTR gating mutations, G551D-, G178R-, G551S-, G970R-, G1244E-, S1255P-, or G1349D-CFTR.

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ABCC7 p.Gly551Ser 22293084:51:328

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59 Ivacaftor enhanced chloride transport through mutant CFTR with defective channel gating The impact of the increase in CFTR channel gating by ivacaftor on total chloride transport was assessed in Ussing chamber studies using FRT cells expressing the known CFTR gating mutations, G551D-, G178R-, G551S-, G970R-, G1244E-, S1255P-, and G1349D-CFTR.

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ABCC7 p.Gly551Ser 22293084:59:294

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62 Under these conditions, the baseline level of chloride transport in FRT cells expressing G551D-, G178R-, G551S-, G970R-, G1244E-, S1255P-, and G1349D-CFTR was b10% of normal CFTR (Fig. 3; Table 2), which was consistent with the low CFTR channel open probability of these mutant CFTR forms (Table 1).

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ABCC7 p.Gly551Ser 22293084:62:105

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72 Patch-clamp studies confirmed that the channel open probability of S549N-, S549R-, and S1251N-CFTR was b5% of normal CFTR, whereas the single channel current amplitude Normal F508del G551D G178R S549N S549R G551S G970R G1244E S1251N S1255P G1349D 0 50 100 150 200 CFTR mRNA (% Normal CFTR) None F508del G551D G178R S549N S549R G551S G970R G1244E S1251N S1255P G1349D 0.0 0.2 0.4 0.6 0.8 1.0 ** * CFTR Maturation (Mature/Total) None F508del G551D G178R S549N S549R G551S G970R G1244E S1251N S1255P G1349D 0 100 200 300 400 ** * * * CFTR Mutations Mature CFTR (% Normal CFTR) A B D C Mature Immature Fig. 1.

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ABCC7 p.Gly551Ser 22293084:72:207

status: NEW

X

ABCC7 p.Gly551Ser 22293084:72:327

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ABCC7 p.Gly551Ser 22293084:72:464

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94 Ivacaftor addition caused a N10-fold increase in CFTR-mediated chloride transport in FRT cells expressing G551D-, G178R-, S549N-, S549R-, G551S-, G970R-, G1244E-, S1251N-, S1255P-, and G1349D-CFTR.

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ABCC7 p.Gly551Ser 22293084:94:138

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100 The partial reduction in S549R-CFTR maturation was ~27% of A Normal G551D G178R S549N S549R G551S G970R G1244E S1251N S1255P G1349D 0.0 0.2 0.4 0.6 0.8 1.0 0 50 100 150 200 250 Baseline With 10 &#b5;M Ivacaftor * * * * * * * * * * * CFTR Mutation Channel Open Probability Channel Open Probability (% Normal CFTR) B 1pA 3sec + 10 &#b5;M Ivacaftor G1349D S1255P G970R G551S G178R G1244E Baseline Normal G551D S1251N S549N S549R Fig. 2.

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ABCC7 p.Gly551Ser 22293084:100:92

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ABCC7 p.Gly551Ser 22293084:100:366

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129 Single channel current amplitude at 80 mV CFTR channel open probability Baseline With 10 bc;M ivacaftor Baseline With 10 bc;M ivacaftor Mutation pA % Normal pA % Normal Po % Normal Po % Normal Normal 0.57&#b1;0.03 100 0.63&#b1;0.02 111 0.400&#b1;0.04 100 0.800&#b1;0.04 a 200 G551D 0.46&#b1;0.06 81 0.46&#b1;0.03 81 0.019&#b1;0.01 b 5 0.121&#b1;0.035 a 30 G178R 0.59&#b1;0.11 103 0.66&#b1;0.08 116 0.005&#b1;0.001 b 1 0.228&#b1;0.022 a 57 S549N 0.55&#b1;0.02 97 0.61&#b1;0.02 108 0.003&#b1;0.010 b 1 0.396&#b1;0.119 a 99 S549R 0.45&#b1;0.01 b 79 0.55&#b1;0.02 a 96 0.004&#b1;0.010 b 1 0.143&#b1;0.031 a 36 G551S 0.57&#b1;0.13 100 0.64&#b1;0.02 113 0.010&#b1;0.001 b 3 0.337&#b1;0.110 a 84 G970R 0.55&#b1;0.03 96 0.55&#b1;0.03 97 0.001&#b1;0.001 b 0 0.245&#b1;0.042 a 61 G1244E 0.44&#b1;0.11 77 0.54&#b1;0.08 94 0.011&#b1;0.010 b 3 0.470&#b1;0.122 a 118 S1251N 0.54&#b1;0.07 95 0.63&#b1;0.04 111 0.003&#b1;0.010 b 1 0.350&#b1;0.03 a 88 S1255P 0.70&#b1;0.03 b 122 0.71&#b1;0.02 125 0.018&#b1;0.016 b 5 0.468&#b1;0.168 a 117 G1349D 0.49&#b1;0.08 85 0.63&#b1;0.06 111 0.019&#b1;0.015 b 5 0.315&#b1;0.110 a 79 a Significantly different (Pb0.05; paired t-test, n=3-5) compared to baseline levels for each CFTR mutation.

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ABCC7 p.Gly551Ser 22293084:129:612

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145 The in vitro data presented here suggest that ivacaftor has a similar effect on all CFTR forms with gating defects and support the investigation of ivacaftor in patients with CF who have CFTR gating mutations beyond G551D, including G178R, S549N, S549R, G551S, G970R, G1244E, S1251N, S1255P, and G1349D.

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ABCC7 p.Gly551Ser 22293084:145:254

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103 It can be seen that each of these mutants is capable of mediating HCO3 - efflux; in fact, reversal potential measurements indicate PHCO3/PCl values of 0.289±0.038 (n=3) for G178R, 0.264±0.035 (n=3) for G551S, and 0.237±0.033 (n=3) for H620Q, none of which were significantly different from the value of 0.250±0.037 (n=4) estimated from wild type under the same conditions (see Fig. 1B).

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ABCC7 p.Gly551Ser 19019741:103:210

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138 Bicarbonate permeability of CF mutant forms of CFTR Example leak-subtracted macroscopic I-V relationships for G178R, G551S, and H620Q-CFTR under the same ionic conditions used in Fig. 1B.

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ABCC7 p.Gly551Ser 19019741:138:117

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146 Our direct measurements of CFTR HCO3 - currents also showed no change in HCO3 - permeability in three CF-associated CFTR mutants (G178R, G551S, H620Q; Fig. 5) that were previously associated with different effects on cellular HCO3 - transport relative to Cl- transport [10].

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ABCC7 p.Gly551Ser 19019741:146:137

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93 on band C formation was reversible so that when the Class III mutations are defective in regulation of cells were placed back into culture at 37 8C, the chloride conductance through the CFTR at the amount of fully mature protein decreased with a plasma membrane and include the G551D and half-life of approximately 7 h (similar to wild type) G551S mutations.

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ABCC7 p.Gly551Ser 12458151:93:342

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94 Class IV mutations (R117H, and was not replaced with mature protein.

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ABCC7 p.Gly551Ser 12458151:94:342

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223 They include another deletion mutation at amino acid position 507 (⌬I507), several missense mutations (F508C, G551D, G551S, A455E, R553Q, P574H, S549N, A559T), and some nonsense mutations (G542X, R553X, Q493X).

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ABCC7 p.Gly551Ser 9674722:223:124

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238 Some of these mutations, however, such as A455E, P574H and G551S have been associated either with less severe pulmonary disease and/or less compromised Cl- channel function.

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ABCC7 p.Gly551Ser 9674722:238:59

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179 The alanine and aspartic acid substitutions resulted in less dramatic but nevertheless significant decreases in sensitivity comparable to that produced by G551S (Wilkinson et al., 1996), a CF mutation associated with a pancreatic sufficient phenotype (Strong et al., 1991).

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ABCC7 p.Gly551Ser 9512029:179:155

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57 Data on homozygous patients for missense mutations have been obtained for G551S TABLE 1.

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ABCC7 p.Gly551Ser 9375855:57:74

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22 Concerning the relationship between the severity of pulmonary involvement and other mutations than ∆F508, a mild pulmonary disease was described in two sisters homozygous for the G551S mutation [13], and in compound heterozygotes for the missense mutation A455E, a mutation commonly found in The Netherlands [14].

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ABCC7 p.Gly551Ser 8947061:22:185

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112 In the studies by GAN et al. [14], and STRONG et al. [13] patients with the A455E mutation or with the G551S mutation, respectively, who would be classified as Group 3 in the present study, had mild pulmonary disease.

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ABCC7 p.Gly551Ser 8947061:112:103

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148 We found that two NBD1 mutants, K464A and G551S, had a normal or increased response to PPi (Fig. 7C).

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ABCC7 p.Gly551Ser 8702904:148:42

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200 Data are mean Ϯ S.E. of (n) measurements for: wild-type (9), F1052V (3), R1066L (4), A1067T (4), G551S (6), K464A (4), G1349D (5), K1250 M at 5 mM PPi (5), wild-type at 5 mM PPi (16).

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ABCC7 p.Gly551Ser 8702904:200:103

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147 We found that two NBD1 mutants, K464A and G551S, had a normal or increased response to PPi (Fig. 7C).

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ABCC7 p.Gly551Ser 8702904:147:42

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199 Data are mean 6 S.E. of (n) measurements for: wild-type (9), F1052V (3), R1066L (4), A1067T (4), G551S (6), K464A (4), G1349D (5), K1250 M at 5 mM PPi (5), wild-type at 5 mM PPi (16).

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ABCC7 p.Gly551Ser 8702904:199:97

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85 It is still possible that a similar mutation, such as G551S,'5 is present (rather than G55 1 D) on one or both alleles and is producing a false positive result.

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ABCC7 p.Gly551Ser 8863168:85:54

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63 DNA samples from ABPA patients were screened for nine additional mutations associated with pancreatic sufficient and atypical CF: R117H (ASO), R347P (NcoI digest) and R347H (HhaI digest), R334W (MspI digest), A455E (ASO and BamHI digest), G551S (ASO) (Strong et al. 1991), 2789+5G-*A (ASO), D1152H (ASO) (Tsui 1992), and 3849+10kbC-*T (ASO and HphI digest) (Highsmith et al. 1994).

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ABCC7 p.Gly551Ser 8659542:63:239

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88 Other disease-causing CFTR mutants, which are appropriately processed and trafficked to the plasma membrane, show defective ion conduction properties (e.g. R334W, R347H, and R347P; Sheppard et al., 1993; Tabcharani et al., 1993) or defective regulation of channel activity (e.g. G551S, G1244E, S1255P, and G1349D; Anderson and Welsh, 1992).

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ABCC7 p.Gly551Ser 8662892:88:279

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95 Other disease-causing CFTR mutants, which are appropriately processed and trafficked to the plasma membrane, show defective ion conduction properties (e.g. R334W, R347H, and R347P; Sheppard et al., 1993; Tabcharani et al., 1993) or defective regulation of channel activity (e.g. G551S, G1244E, S1255P, and G1349D; Anderson and Welsh, 1992).

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ABCC7 p.Gly551Ser 8662892:95:279

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150 The values listed in Table I show that NBF mutations generally reduced the value of (ko,, + ko~), in some cases by more TABLE I Summary ofActivation and DeactivationDatafor Wild-typeCFFR and Mutants of theInvariant Glycinein NBFI ((;,551)orNBF2 (G1349) CFTR Activation Deactivation klon KA (k,,n+ k,,n) (10 ~miu-1 k,,n kos latency *k,,t~ (raM) n (10-~min l) raM-l) (10-3min 1) (10 ~rain-j) n (min) (10-s min-I) wt 0.65 + 0.08 26 664 _+51 118 _+9 588 +-45 76 + 6 20 6.0 _+0.3 88 -+6 16 G551A 3.0 -+0.5*r 6 104 _+5"r 13 _+0.6*r 65 + 3*z 39 -+2* 5 7.7 +_0.5: 70 -+13: 4 G551S 4.7 +-0.5* 5 82 _+6*r 8 -+0.6*: 42 -+3*: 40 -+3*r 10 3.9 +_0.3*** 88 +-6: 6 G551D 9.3 -+0.01" 6 57 _+9*r 4 -+0.6*: 20 -+3*: 37 -+6"r 5 1.8 _+0.2"~ 84 -+10~ 6 G1349A 1.1 + 0.07*: 5 210 _+24"~ 35 -+4*: 172 -+20*: 38 +-4* 4 1.7 _+0.3"~ 184 + 20*: 5 G1349S 3.5 +-0.3* 4 199 _+46*: 23 -+5*: 117 -+27*r 82 -+19+ 6 2.3 _+0.5*+ 144 -+15": 6 G1349D 9.3 + 0.01" 8 114 _+16*++ 8 -+1": 40 +-6*r 74 -+11~ 5 0.6 -+0.1*++ 286 -+37*: 4 Valuesweredetermined as describedin Methods.The symbols(*) and (~) indicatesignificantdifferencesfrom wild-typeCFFRand the analogousmu- tant, respectively(P< 0.05).

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ABCC7 p.Gly551Ser 8741733:150:568

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176 In NBF1, substitution to alanine (G551A), the most conservative change possible, reduced the relaxation rate by more than sixfold, and the less conservative substitutions to serine (G551S) and aspartic acid (G551D) progressively reduced the relaxation rate.

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ABCC7 p.Gly551Ser 8741733:176:182

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178 Substitutions to serine (G1349S) and aspartic acid (G1349D) produced progressive reductions such that the relaxation rate for the least conservative mutation, G1349D, was about twice that for the comparable mutation in NBF1.

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ABCC7 p.Gly551Ser 8741733:178:182

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194 ""'"~"NBF1 NBF2 ,~j:~ ,pit'-" 9 G551S o G1349S 20 jl~ 9 G551 D o G1349D o i, ,,,i,0, ,i,,,,i,,, ,i,, ,,i , ~ ,, B o lO 20 30 40 50 60 ,~ 100 80 E 60 or 40 2o ~ 0 c I0o- 80 " 6o - 40 .z- 20 - o- ictOOO'~ .D-O*'Q / ;~ / Eof 9 .

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ABCC7 p.Gly551Ser 8741733:194:32

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222 The less conservative substitutions (G551S, G551D) progressively decreased the latency, but the reductions were always less than those induced by the corresponding mutations (G1349S, G1349D) in NBF2.

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ABCC7 p.Gly551Ser 8741733:222:37

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223 The progressive destabilization of the active state suggested by the decreased latency seen with the G551S and G551D substitutions was not evident, however, in the subsequent phase of exponential decline.

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ABCC7 p.Gly551Ser 8741733:223:101

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270 Here, however, mutations in the binding pocket clearly hastened deactivation, evidenced by decreases in the latency and increases in *kom while the mutations of glycine 551 moderately decreased *kom The latency was also decreased progressively by the less conservative mutations, G551S and G551D.

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ABCC7 p.Gly551Ser 8741733:270:280

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275 For mutants of the NBF1 glycine (G551S and G551D), the values of *kon.

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ABCC7 p.Gly551Ser 8741733:275:33

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277 Similarly, although the K1250R and D1370N mutants exhibited an increased latency, the values of *ko~ were not significantly different from that of wild type CFTR.

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ABCC7 p.Gly551Ser 8741733:277:33

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340 Role of the Invariant Glycine The functional importance of the invariant glycine in NBF1 (G551) or NBF2 (G1349) is evident from the existence of mutations (G551S, G551D, and G1349D) that are associated with cystic fibrosis in humans (Cutting et al., 1990; Kerem et al., 1990; Strong et al., 1991).

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ABCC7 p.Gly551Ser 8741733:340:156

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346 On the other hand, the results of Anderson and Welsh (1992) suggested that the mutations G551S and G1349D reduced the open probability of CFTR C1- channels without changing the K~/2 for the effect of ATP concentration on open probability.

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ABCC7 p.Gly551Ser 8741733:346:89

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406 The conserved glycines in NBF1 (G551) and NBF2 (G1349) are both sites of mutations that cause either mild (G551S) or severe (G551D, G1349D) cystic fibrosis (Smitet al., 1993) but have not been associated with protein processing defects such as those that characterize the AF508 mutation.

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ABCC7 p.Gly551Ser 8741733:406:107

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152 The values listed in Table I show that NBF mutations generally reduced the value of (ko,, + ko~), in some cases by more TABLE I Summary ofActivation and DeactivationDatafor Wild-typeCFFR and Mutants of theInvariant Glycinein NBFI ((;,551)orNBF2 (G1349) CFTR Activation Deactivation klon KA (k,,n+ k,,n) (10 ~miu-1 k,,n kos latency *k,,t~ (raM) n (10-~min l) raM-l) (10-3min 1) (10 ~rain-j) n (min) (10-s min-I) wt 0.65 + 0.08 26 664 _+51 118 _+9 588 +-45 76 + 6 20 6.0 _+0.3 88 -+6 16 G551A 3.0 -+0.5*r 6 104 _+5"r 13 _+0.6*r 65 + 3*z 39 -+2* 5 7.7 +_0.5: 70 -+13: 4 G551S 4.7 +-0.5* 5 82 _+6*r 8 -+0.6*: 42 -+3*: 40 -+3*r 10 3.9 +_0.3*** 88 +-6: 6 G551D 9.3 -+0.01" 6 57 _+9*r 4 -+0.6*: 20 -+3*: 37 -+6"r 5 1.8 _+0.2"~ 84 -+10~ 6 G1349A 1.1 + 0.07*: 5 210 _+24"~ 35 -+4*: 172 -+20*: 38 +-4* 4 1.7 _+0.3"~ 184 + 20*: 5 G1349S 3.5 +-0.3* 4 199 _+46*: 23 -+5*: 117 -+27*r 82 -+19+ 6 2.3 _+0.5*+ 144 -+15": 6 G1349D 9.3 + 0.01" 8 114 _+16* + + 8 -+1": 40 +-6*r 74 -+11~ 5 0.6 -+0.1* + + 286 -+37*: 4 Valuesweredetermined as describedin Methods.The symbols(*) and (~) indicatesignificantdifferencesfrom wild-typeCFFRand the analogousmu- tant, respectively(P< 0.05).

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ABCC7 p.Gly551Ser 8741733:152:568

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197 ""'"~" NBF1 NBF2 ,~j:~ ,pit'-" 9 G551S o G1349S 20 jl~ 9 G551 D o G1349D o i, ,,,i,0, ,i,,,,i,,, ,i,, ,,i , ~ ,, B o lO 20 30 40 50 60 ,~ 100 80 E 60 o r 40 2o ~ 0 c I0o- 80 " 6o - 40 .z20 - o- ictOOO'~ .D-O*'Q / ;~ / Eof 9 .

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ABCC7 p.Gly551Ser 8741733:197:33

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224 The less conservative substitutions (G551S, G551D) progressively decreased the latency, but the reductions were always less than those induced by the corresponding mutations (G1349S, G1349D) in NBF2.

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ABCC7 p.Gly551Ser 8741733:224:37

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225 The progressive destabilization of the active state suggested by the decreased latency seen with the G551S and G551D substitutions was not evident, however, in the subsequent phase of exponential decline.

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ABCC7 p.Gly551Ser 8741733:225:101

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272 Here, however, mutations in the binding pocket clearly hastened deactivation, evidenced by decreases in the latency and increases in *kom while the mutations of glycine 551 moderately decreased *kom The latency was also decreased progressively by the less conservative mutations, G551S and G551D.

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ABCC7 p.Gly551Ser 8741733:272:280

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342 Role of the Invariant Glycine The functional importance of the invariant glycine in NBF1 (G551) or NBF2 (G1349) is evident from the existence of mutations (G551S, G551D, and G1349D) that are associated with cystic fibrosis in humans (Cutting et al., 1990; Kerem et al., 1990; Strong et al., 1991).

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ABCC7 p.Gly551Ser 8741733:342:156

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348 On the other hand, the results of Anderson and Welsh (1992) suggested that the mutations G551S and G1349D reduced the open probability of CFTR C1-channels without changing the K~/2 for the effect of ATP concentration on open probability.

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ABCC7 p.Gly551Ser 8741733:348:89

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408 The conserved glycines in NBF1 (G551) and NBF2 (G1349) are both sites of mutations that cause either mild (G551S) or severe (G551D, G1349D) cystic fibrosis (Smitet al., 1993) but have not been associated with protein processing defects such as those that characterize the AF508 mutation.

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ABCC7 p.Gly551Ser 8741733:408:107

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78 Of the 13 Young syndrome patients, we identified one (Patient 5) who was het- CBAVD Dl152H D1270N G576A* R75Q* P67L Rl17H 3849 + 10 KB C > T G551S Rl17H Pancreatic Sufficient, Moderate Pulmonary Symptoms, Normal Sweat Chloride Concentrations Pancreatic Sufficient, Moderate Pulmonary Symptoms R347P 2789 + 5 G > A R334W G85E R347H R347L Rl17H G91R A455E S945L Y563N Q1291H R297Q R352Q L1065P 3850-3 T > G F1286S 3849 + 10 KB C > T TABLE 1 CFTR MUTATION SCREENING PANEL Severe M508 G551D R553X N1303K W1282X G542X 1717-1 G > A ~1507 R560T 3659deiC 621 + 1 G > T S549N TABLE 2 CLINICAL FEATURES OF YOUNG SYNDROME PATIENTS Patient Age Sweat CI- FEV, Paranasal Sputum No.

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ABCC7 p.Gly551Ser 7551394:78:141

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126 For example, G551S, G1244E, S1255P and G1349D had a markedly reduced PO at all concentrations of MgATP tested, and S1255P was less potently stimulated by MgATP (Anderson and Welsh, 1992; Smit et al., 1993).

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ABCC7 p.Gly551Ser 7534226:126:13

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127 Therefore, we tested the hypothesis that ATP-dependent regulation of A455E and P574H was altered.

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ABCC7 p.Gly551Ser 7534226:127:13

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631 The range of effects of dysregulation of the channel includes those with a severe lack of function (such as that for G551D), reduced response to ATP stimulation (S1255P), and slight reduction of absolute activity (G551S, G1244E, and G1349D) (7, 63).

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ABCC7 p.Gly551Ser 8825494:631:214

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44 CorrelatIon of phenotype and genotype of CFTR mutations Key phenotypic Lung disease SweatC1 Exocnne pancreas function Vasdeferens Associated CFTR mutations Pancreatic InsuffIcIent Pancreatic sufficient Normalsweat C1 Severe Less severe Relatively mild Elevated Elevated Normal Insufficient Sufficient Sufficient Absent Absent Absent SF508, G542X, R553X, G5510, Ni 303K, Wi 282X, RI 17H, and others 2789 + 5G>A, R117H, R334W, R347P, A455E, P574H, S945L, G85E, and others G551S, R117H, 3849 + 10kb C>T, and others Congenitalabsence of the vas deferens None Normal or elevated Sufficient Absent F508C, Ri 17H, Di D1152H, and others FIg. 2.

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ABCC7 p.Gly551Ser 7522998:44:470

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21 Among the 104 other CFTR mutations tested on the 373 non-AF508 CF chromosomes, none of the following 58 mutations were found: G91R, 435 insA, 444delA, D11OH, 556delA, 557delT, R297Q, 1154insTC, R347L, R352Q, Q359K/T360K, 1221delCT, G480C, Q493R, V520F, C524X, 1706dell7, S549R (A-C), S549N, S549I, G551S, 1784delG, Q552X, L558S, A559T, R560T, R560K, Y563N, P574H, 2307insA, 2522insC, 2556insAT, E827X, Q890X, Y913C, 2991de132 (Dork et al, personal communication), L967S, 3320ins5, 3359delCT, H1085R, R1158X, 3662delA, 3667del4, 3667ins4, 3732delA, 3737delA, W1204X, 3750delAG, I 1234V, Q1238X, 3850- 3T-+G, 3860ins31, S1255X, 3898insC, D1270N, R1283M, F1286S, 4005 + I G-A. Forty-six other mutations were found on at Distribution of CFTR mutations found in our sample ofpopulation (1200 CF chromosomes) Mutations tested No of CF chromosomes Haplotypes Method with the mutation XV2C-KM19 (% of total CF alleles) Exon 3: G85E 4 (033) 3C HinfI/ASO394delTT 2 2B PAGEExon 4: R117H 1 B ASOY122X 2 2C MseI/sequenceI148T 1 B ASO621+IG-J* 1 B MseIIASOExon 5: 711+1G--T 8(07) 8A ASOExon 7: AF311 1 C PAGE/sequencelO78delT 5 (0-42) 5C PAGE/ASOR334W 5 (0-42) 2A,2C,ID MspIlASOR347P 5 (042) 5A CfoI/NcoIR347H 1 Cfol/sequenceExon 9: A455E 1 B ASOExon 10: S492F I C DdeI/sequenceQ493X 1 D ASOl609deICA 1 C PAGE/Ddel/sequenceA1507 3 (025) 3D PAGE/ASOAF508 827 (69) 794B,30D,2C,IA PAGEl677delTA 1 A PAGE/sequenceExon I11: 1717-IG--.A 16(1-3) 14B Modified primers + AvaIIG542X 40 (3-3) 29B,5D,2A Modified primers + BstNiS549R(T--*G) 2 2B ASOG551D 3 (025) 3B HincII/Sau3AR553X 10(0-8) 6A,1B,2C,ID Hincll/sequenceExon 12: 1898+IG--A 1 C ASO1898+ IG-C 2 IC ASOExon 13: l9l8deIGC 1 A PAGE/sequence1949de184 I C PAGE/sequenceG628R(G-+A) 2 2A Sequence2118de14 I c PAGE/sequence2143de1T 1 B PAGE/modified primers2184de1A+2183A--*G 11 (0-9) lIB PAGE/ASO2184de1A 1 ASOK710X 3 (025) IC XmnI2372de18 1 B PAGE/sequenceExon 15: S945L 1 C TaqlExon 17b:L1065P I MnlIL1077P 1 A ASOY1092X 3 (025) 2C,IA Rsal/ASOExon 19: RI1162X 6 (0-5) 5C,IA DdeI/ASO3659delC 3 (025) 3C ASOExon 20: G1244E 2 2A MboIIS1251N 2 2C RsaI3905insT 4 (0-33) 4C PAGE/ASOW1282X 18 (105) 15B,1D MnlI/ASOR1283K 1 C Mnll/sequenceExon 21: N1303K 22 (1-8) 18B,lA,ID Modified primers+BstNI 47 mutations 1031 (85 9) least one CF chromosome (table): 21 of them are very rare as they were found on only one CF chromosome in our population.

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ABCC7 p.Gly551Ser 7525963:21:298

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66 As previously reported (18), G551S, a mutation associated with mild disease (34), exhibited a moderate reduction in sensitivity (K1l2 = 1.1 mM IBMX) compared to wild-type (Kl2 = 0.3 mM).

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ABCC7 p.Gly551Ser 7694298:66:29

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68 G551D, associated with severe CF (35, 36), and G1349D, also a CF mutation (37), both exhibited a dramatic reduction in sensitivity (K1l2 = 2.5 0 0 wt (12) 100 E .E CO) NBF1 A A G551A c O G551S V v G551 D NBF2 (8) A-A G1349A (9) * * G1349S (6) '-V G1349D (4) (6) (8) 0.2 0.5 1 IBMX, mM FIG. 2.

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ABCC7 p.Gly551Ser 7694298:68:187

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77 To explore further the relative contributions of the two domains, we measured the activation of Cl- currents in oocytes expressing the double mutants G551S/G1349S and G551D/G1349D.

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ABCC7 p.Gly551Ser 7694298:77:150

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86 In NBF1 the substitution resulted in a moderate reduction in the sensitivity of CFTR to activation (K1l2 = 0.8 mM), roughly equivalent to that seen with G551S.

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ABCC7 p.Gly551Ser 7694298:86:153

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92 The dose- 100- g 80-E C3) ° 60- V ai) X 40- E co 20 NBF1 O O G551S (9) v-v G551D (6) 0 Owt (12) T 6o NBF1 + NBF2 O--O G551S + G1349S (7) *--* G551 D + G 1 349D (5) Oz0 6 0 / T/ * , * /1 ° T 0 r / / / 3 _ -- ........ 0.02 0.05 0.2 0.5 1 2 IBMX, mM O-O wt (12) V-V K464Q ( 4) 1OOT 9 80E 0I-) I00160- -0 .

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ABCC7 p.Gly551Ser 7694298:92:66

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ABCC7 p.Gly551Ser 7694298:92:123

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107 Both glycines were replaced by serines (G551S + G1349S) or aspartates (G551D + G1349D), and the dose-response relationships were constructed as in Fig. 2.

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ABCC7 p.Gly551Ser 7694298:107:40

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119 Anderson and Welsh (28) found that in detached patches from transfected cells, mutation of the conserved glycine (G551S or G1349D) dramatically reduced the value ofthe open probability (PO) in the presence ofPKA and MgATP.

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ABCC7 p.Gly551Ser 7694298:119:114

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17 Classes of CFTR Mutations That Cause CF Class Defect Examples Do- Fre- Clin- main quency ical Protein production Nonsense mutations Frameshift Splice Processing Conduction 6542X NBDI 3.4 3905 insT NBD2 2.1 621 + G-T MSDl 1.3 Al507 NBDl AF506 NBDl s5491 NBDl S549R NED1 A559T NED1 N1303K NBDP G551 D NBDl G551S NBDl G1244E NBDP S1255P NBDP G1349D NBDP RI 17H MSDI R334W MSDl R347P MSDl 0.5 67.2 Rare 0.3 Rare 1.a 2.4 Rare Rare Rare Rare 0.6 0.4 0.5 PI PI PI PI PI PI PI PI PS PI PI PI PS PS PS NED, nucleotide-binding domain; MSD, membrane-spanning domain; PI, pancreatic insufficiency; PS, pancreatic sufficiency.

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ABCC7 p.Gly551Ser 7686820:17:304

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56 Some nucleotide-binding domain mutants (such as G551D) have very little function, in some (such as S1255P) ATP is less potent at stimulating activity, and the absolute activity of others (such as G551S, G1244E, and G1349D) is reduced (Anderson and Welsh, 1992; Drumm et al., 1991).

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ABCC7 p.Gly551Ser 7686820:56:196

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99 Some individuals with class Ill mutants (e.g., G551S) are also pancreatic sufficient (Strong et al., 1991), whereas most others (e.g., G551D) are pancreatic insufficient (Cutting et al., 1990).

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ABCC7 p.Gly551Ser 7686820:99:47

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71 The NBF gene mutations in the study population were all severe disease alleles with respect to pancreatic function, and none of the rare PS alleles G551S, Y563N, P574H was detected.4,25 Hence, our findings do not necessarily imply that a NBF mutation should a priori be considered a "high risk" allele but rather that the more common "severe" disease alleles cluster in the NBF.

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ABCC7 p.Gly551Ser 7678316:71:148

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123 8 NO. 11 m []~EVIEWS G551D R553Q G551S I L558S aI~7 S5491 I I 1&559T A455F E5040 I&F508 V520F SS49NII IIR560T PS74H I G458V G480C $492F /" • ss,9 II III* oa. / III / NBF1 ~t ~t NBF2 I I I I I III I I I 11234V G1244E IS1255P D1270N II I Q1291H N1303K G1349D S1251N W1282R] F1286S N1303H Q1283M, FIG[] Cystic fibrosis (missense) mutations located within the two presumptive ATP-binding domains (NBF1 and NBF2) of CFTR.

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ABCC7 p.Gly551Ser 1279852:123:34

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114 In one case two siblings with mild pulmonary disease and normal sweat electrolyte concentrations were found to be homozygous for a glycine to serine substitution at amino acid 551 in the first NBF of CFTR.31 Other patients with this phenotype were found to carry a 750 CYSTIC FIBROSIS GENE mutation in intron 19 that caused the insertion of 83bp into the CFTR mRNA32 or to be compound heterozygotes for other denned mutations in CFTR.™ Another interesting phenotype that may be associated with mutations in CFTR is that of congenital absence of the vas deferens.

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ABCC7 p.Gly551Ser 1281033:114:131

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173 Furthermore, CFTR mutants (AF508, G551D, and G551S) expressed in Xenopus oocytes demonstrate partial function after stimulation of cAMP levels with high concentrations of the phosphodiesterase inhibitor, IBMX (60).

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ABCC7 p.Gly551Ser 1378801:173:45

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52 Ion transport (% WT) 42 41 69 75 >100 >100 98 + 103 100 + + 120 Pancreatic sufficient Pancreatic insufficient Bicarbonate Chloride - intermediate Chloride - high Unknown WT D648V R117H R1070Q H949Y G551S H620Q I148T A1067T G178R G970R S1255P G1244E G551D G1349D 0 0.5 1 1.5 2 2.5 Current Biology ࢞F508 Dispatch R absence of the vas deferens [16].

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ABCC7 p.Gly551Ser 11448786:52:198

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57 The clinical status and cystic-fibrosis-related physiology of a woman homozygous for the mutation G551S has been described in detail [17].

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ABCC7 p.Gly551Ser 11448786:57:98

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63 That relationship cannot be understood by their model, nor can the evidence for low chloride permeability in the nasal epithelium of the subject homozygous for the G551S mutation.

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ABCC7 p.Gly551Ser 11448786:63:164

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77 Published values were found for H949Y [22] and G551S [17] and I148T [13].

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ABCC7 p.Gly551Ser 11448786:77:47

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60 Type Genotype Phenotypea Defect Potential therapeutics Class I G542X PI No CFTR synthesis, aminoglycosides 621 + 1 G ࢐T No cell surface Cl- 3905insT transport W1282X R553X 1717-1 G ࢐ A Class II F508b PI Defective CFTR 4-PBA, flavonoids, N1303K trafficking and chemical chaperones, P574Hb processing xanthines A455Eb Class III G551D PI Defective channel flavonoids, milrinone G551S regulation, reduced or absent Cl-transport Class IV R117H PS Reduced Cl-transport 4-PBA, xanthines, R334W flavonoids G314E R347P F508b P574Hb ClassV 3849 + 10 kb C࢐T PS Reduced number of flavonoids, milrinone, 2789 + 5 G ࢐A normal CFTR proteins 4-PBA 3272 - 26 A ࢐ G Reduced Cl-transport A455Eb 3120+1 G࢐A 1811 + 1.6 kb A ࢐ G a PI indicates pancreatic insufficiency; PS indicates pancreatic sufficiency.

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ABCC7 p.Gly551Ser 12531063:60:387

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135 However, it is now clear that some CF mutations are associated with normal sweat chloride values, as described for the 3849q10kbCࡊT w22x and G551S mutations w23x.

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ABCC7 p.Gly551Ser 15463882:135:147

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42 Some have concentrated in the search of specific mutations that are Table 1 Mutations found in the Latin American CF patients Exon 1 p.L6VÌe; Exon 3 p.W57X, p.R75X, p.G85E Exon 4 p.R117H Exon 6a p.H199Y, p.V201M, p.L206W, p.Q220X, p.V232D, c.846delTÌe; Exon 6b p.Y275XÌe;, c.935delA Exon 7 p.R334W, p.R347P, p.Y362XÌe;, c.1078delT, c.1215delG Exon 8 c.1323_1324insAÌe; Exon 9 c.1460_1461delATÌe;, c.1353_1354insTÌe;,# Exon 10 p.I506T, p.I507del, p.F508del Exon 11 p.G542X, p.S549N, p.S549R, p.G551D, p.G551S, p.R553X, p.L558S, p.A559T, c.1782delA Exon 12 p.S589I Exon 13 p.H609RÌe;, p.P750L, p.V754M, c.1924_1930del, c.2055_2063del, c.2183AA NG;c.2184delA, c.2184delA, c.2185_2186insC, c.2347delG, c.2566_2567insTÌe;, c.2594_2595delGTÌe; Exon 14a p.R851L, c.2686_2687insTÌe; Exon 15 c.2869_2870insG Exon 16 c.3120+1GNA Exon 17a p.I1027T, c.3171delC, c.3199_3204del Exon 17b p.G1061R, p.R1066C, p.W1069X#, p.W1089X, p.Y1092X, p.W1098CÌe; Exon 19 p.R1162X, p.W1204X, p.Q1238X, c.3617_3618delGAÌe;#, c.3659delC Exon 20 p.W1282X, p.R1283M Exon 21 p.N1303K, c.4016_4017insT Exon 22 c.4160_4161insGGGGÌe; 5' flanking c.-834GNT Intron 2 c.297-1GNAÌe;, c.297-2ANG Intron 3 c.406-1GNA Intron 4 c.621+1GNT Intron 5 c.711+1GNT Intron 8 c.IVS8-5T Intron 10 c.1716GNA, c.1717-1GNA Intron 11 c.1811+1.6KbANG, c.1812-1GNA Intron 12 c.1898+1GNA, c.1898+3ANG Intron 14 c.2789+2_2789+3insA, c.2789+5GNA Intron 17a c.3272-26ANG Intron 17b c.3500-2ANGÌe; Intron 19 c.3849+1GNA, c.3849+10KbCNT Intron 20 c.4005+1GNA, c.4005-1GNA# Mutations are listed according to their position in the gene.

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ABCC7 p.Gly551Ser 16963320:42:530

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51 Table 2 p.I507del p.S549N p.S549R p.G551D p.G551S p.R553X p.L558S p.A559T p.S589I p.H609RÌe; p.P750L p.V754M p.R851L p.I1027T p.G1061R p.R1066C p.W1069X# p.W1089X p.Y1092X p.W1098CÌe; p.W1204X 3 0 1 0 1 1 1 1 1 0 4 1 2 3 1 3 0.24 1 0.08 1 0.08 6 0.48 2 0.16 1 0.08 1 0.08 4 0.32 1 0.08 1 4 1 2 1 1 0 0 0 1 0 0 0 1 1 0 1 0 2 0 1 3 0 0 0 0 0 0 1 0.05 1 0.05 1 0.05 10 0.54 1 0.05 2 0.11 3 0.16 3 0 0 0 1 0 1 1 2 0.79 4 1.58 4 1 1 1 1 4 1.83 1 0.46 1 0.46 1 0.46 1 0.46 0 0 0 0 0 0 0 5 5 1 1 1 1 1 1 1 1 1 1 1 5 1.82 6 2.19 1 0.36 1 0.36 1 0.36 1 0.36 1 0.36 1 0.36 1 0.36 1 0.36 1 0.36 1 0.36 1 1.31 1 1.31 1 1.31 10 6 6 6 1 22 1 1 2 1 1 1 1 1 1 6 1 3 5 1 1 0.23 0.14 0.14 0.14 0.02 0.51 0.02 0.02 0.05 0.02 0.02 0.02 0.02 0.02 0.02 0.14 0.02 0.07 0.11 0.02 0.02 (continued on next page) Table 2 Mutation frequencies in Latin American CF patients Country p.Q1238X p.R1283M c.-834GNT c.297-1GNA* c.297-2ANG c.406-1GNA c.621+1GNT c.711+1GNT c.846delT* c.935delA c.1078delT c.1215delG c.1323_1324insA* c.1353_1354insT*# c.1460_1461delAT* Argentina 1 3 1 1 1 1 1 Subtotal and frequency (%) 1 0.08 1 0.08 4 0.32 1 0.08 1 0.08 1 0.08 Brazil 1 1 1 1 0 0 Subtotal and frequency (%) 1 0.05 2 0.11 1 0.05 Chile 0 0 Subtotal and frequency (%) Colombia 1 1 Subtotal and frequency (%) 1 0.46 1 0.46 Costa Rica Frequency (%) 0 Cuba Frequency (%) Ecuador Subtotal and frequency (%) Mexico 1 3 1 2 1 1 Subtotal and frequency (%) 1 0.36 3 1.09 1 0.36 1 0.36 2 0.73 1 0.36 Uruguay Frequency (%) 1 1.31 Venezuela Subtotal and frequency (%) Total 1 1 1 1 1 3 7 2 1 2 1 1 1 1 1 Frequency (%) 0.02 0.02 0.02 0.02 0.02 0.07 0.16 0.05 0.02 0.05 0.02 0.02 0.02 0.02 0.02 (continued ) Table 2 c.1716GNA c.1717-1GNA c.1782delA c.1811+1,6KbANG c.1812-1GNA c.1898+1GNA c.1898+3ANG c.1924_1930del c.2055_2063del c.2183AANG;c.2184delA c.2184delA c.2185_2186insC 5 1 4 1 1 1 0 1 2 2 6 0.48 1 0.08 6 0.48 2 0.16 1 0.08 1 0.08 1 0.08 1 0 6 5 1 3 0 0 0 0 7 0.37 5 0.27 1 0.05 3 0.16 0 0 12 1 12 5.50 1 0.46 0 0 1 1 2 2 1 0.36 1 0.36 2 0.73 2 0.73 1 1.31 1 14 1 18 5 3 1 1 2 6 1 1 0.02 0.32 0.02 0.41 0.11 0.07 0.02 0.02 0.05 0.14 0.02 0.02 (continued on next page) Table 2 Mutation frequencies in Latin American CF patients Country c.2347delG c.2566_2567insT* c.2594_2595delGT* c.2686_2687insT* c.2789+2_2789+3insA c.2789+5GNA c.2869_2870insG c.3120+1GNA c.3171delC c.3199_3204del c.3272-26ANG c.3500-2ANG* Argentina 2 1 2 2 3 3 1 1 2 Subtotal and frequency (%) 2 0.16 1 0.08 2 0.16 2 0.16 6 0.48 1 0.08 1 0.08 2 0.16 Brazil 2 1 1 1 6 0 0 4 0 Subtotal and frequency (%) 2 0.11 1 0.05 1 0.05 10 0.54 1 0.05 Chile Subtotal and frequency (%) Colombia 1 1 1 Subtotal and frequency (%) 1 0.46 1 0.46 1 0.46 Costa Rica Frequency (%) Cuba Frequency (%) Ecuador Subtotal and frequency (%) Mexico 2 Subtotal and frequency (%) 2 0.73 Uruguay Frequency (%) 1 1.31 Venezuela Subtotal and frequency (%) Total 2 2 1 3 2 9 1 12 1 2 2 1 Frequency (%) 0.05 0.05 0.02 0.07 0.05 0.21 0.02 0.28 0.02 0.05 0.05 0.02 (continued ) Table 2 c.3617_3618delGA*,# c.3659delC c.3849+1GNA c.3849+10kbCNT c.4005+1GNA c.4005-1GNA# c.4016_4017insT c.4160_4161insGGGG* c.IVS8-5T Unknown Authors 37 Aulehla-Scholz [17] 2 4 1 2 4 76 Visich [12] 1 78 Iba&#f1;ez [18] 54 Varela 2004 8 Prieto [19] 2 1 1 1 18 Oller-Ramirez 2004 4 0.32 6 0.48 1 0.08 1 0.08 2 0.16 5 0.40 271 21.75 205 Raskin [20] 32 Chiba [21] 1 89 Bernardino [22] 60 Marostica [23] 69 Parizotto [24] 99 Cabello [25,26] 33 Martins [27] 70 Streit [28] 0 5 120 Raskin [15] 0 0 12 Goloni-Bertollo [29] 1 0.05 5 0.27 789 42.46 48 Rios [30] 22 Molina [31] 1 11 Navarro [32] 0 3 34 Repetto [33] 4 1.58 115 45.63 1 67 Keyeux [14] 17 Restrepo [34] 1 0.46 84 38.53 0 25 52.08 Venegas [35] 95 65.97 Collazo [36] 20 Merino [37] 30 Cassiman 2004 15 Paz-y-Mino [38] 65 63.72 1 1 53 Orozco [13] 2 35 Villalobos [39] 3 1.09 1 0.36 88 32.11 11 14.47 Luzardo [40,41] 36 Restrepo [34] 41 Alvarado [42] 77 56.62 1 4 1 18 1 1 2 1 5 1620 0.02 0.09 0.02 0.41 0.02 0.02 0.05 0.02 0.11 37.21 Mutation frequencies in Latin American CF patients most frequently found in Caucasians, by allele specific polymerase chain reaction (AS-PCR), enzymatic digestion, allele specific oligonucleotide hybridization (ASO), or using mainly commercial kits, whereas other studies used a systematic approach to analyse the promoter, coding and exon/ intron boundaries of the CFTR region in the search for any possible mutation.

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ABCC7 p.Gly551Ser 16963320:51:44

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98 As an example, in the case of Argentina and Uruguay, the p.F508del mutation shows the highest frequencies (59% and Table 5 Mutations with frequencies less than 0.1% Panel A Mutation Number of chromosomes % Country p.R75X 3 0.07 Mexico c.W1089X 3 0.07 Argentina, Brazil c.406-1GNA 3 0.07 Mexico c.1898+1GNA 3 0.07 Argentina, Brazil c.2686_2687insTÌe; 3 0.07 Argentina, Brazil p.L206W 2 0.05 Brazil p.I506T 2 0.05 Mexico p.S589I 2 0.05 Argentina c.711+1GNT 2 0.05 Argentina c.935delA 2 0.05 Mexico c.2055_2063del 2 0.05 Mexico c.2347delG 2 0.05 Brazil c.2566_2567insTÌe; 2 0.05 Argentina c.2789+2_2789+3insA 2 0.05 Argentina c.3199_3204del 2 0.05 Mexico c.3272-26ANG 2 0.05 Argentina c.4016_4017insT 2 0.05 Argentina Panel B Mutation N % each Country p.L6VÌe;, p.W57X, p.Q220X, p.Y362XÌe;, p.I1027T, p.G1061R, p.R1283M, c.297-2ANG, c.1353_1354insTÌe;, c.1460_1461delATÌe;, c.1782delA, c.1898+3ANG, c.2184delA, c.2594_2595delGTÌe;, c.2869_2870insG, c.4005Ìe;1GNA, c.4005-1GNA# 17 0.02 Argentina p.R117H, p.H199Y, p.G551S, p.L558S, p.P750L, p.V754M, p.W1069X#, p.W1098CÌe;, p.W1204X, c.297-1GNAÌe;, c.846delTÌe;, c.1078delT, c.1716GNA, c.1924_1930del, c.4160_4161insGGGGÌe; 15 0.02 Mexico p.V201M, p.V232D, p.Y275XÌe;, p.R347P, p.R851L, p.Q1238X, c.3171delC, c.3617_3618delGAÌe;# 8 0.02 Brazil p.A559T, p.H609RÌe;, c.1215delG, c.1323_1324insAÌe;, c.2185_2186insC, c.3500-2ANGÌe;, c.3849+1GNA, 7 0.02 Colombia c.-834GNT 1 0.02 Uruguay The upper part (Panel A) shows the mutations found in more than one patient, whereas the lower part (Panel B) of the table shows all the mutations that are present only once in each country.

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ABCC7 p.Gly551Ser 16963320:98:1044

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178 De re &#b4;centes donne &#b4;es in vitro sugge `rent que cette me &#b4;dication soit e &#b4;galement efficace sur 9 autres mutations de la me c6;me classe (G178R, S549N, S549R, G551S, G970R, G1244E, S1251N, G1349D) [50,51].

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ABCC7 p.Gly551Ser 23199563:178:180

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

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ABCC7 p.Gly551Ser 23523379:42:478

status: NEW

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ABCC7 p.Gly551Ser 23523379:42:496

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28 These include the most common CFTR gating mutation, G551D, as well as the G178R, S549N, S549R, G551S, G970R, G1244E, S1251N, S1255P, and G1349D mutations [12].

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ABCC7 p.Gly551Ser 23891399:28:95

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56 Class Type of defect List of mutations attributed to this class Class I Defective protein production Nonsense mutations Large deletions and insertions 1078delT; 1717-1G࢐A; 3659delC; 621+1G࢐T Class II Defective protein processing G85E, F508del, I507del, R560T, N1303K Class III Defective protein regulation ('gating`) G178R, S549N, S549R, G551D, G551S, G970R, G1244E, S1251N, S1255P, G1349D Class IV Defective protein conductance R117H, R334W, R347P Class V Reduced amount of functioning protein 2789+5G࢐A, 3849+10KbC࢐T, A455E Unclassified All other mutations, including those unknown.

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ABCC7 p.Gly551Ser 24440181:56:357

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37 It is currently licensed for use only in those with the p.Gly551Asp mutation; but a further license has been recently approved in the USA for use in other rarer gating mutations (G178R, G551S, S549N, S549R, G970R, G1244E, S1251N, S1255P, or G1349D).

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ABCC7 p.Gly551Ser 24832698:37:186

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547 Class Type of defect List of mutations attributed to this class Class I Defective protein production Nonsense mutations: G542X, R1162X, RW1282X Deletions and insertions: CFTRdele2,3; 1078delT; 1717-1G ࢐ A; 3659delC; 621+1G N T Class II Defective protein processing G85E, F508del, I507del, R560T, A561E, R1066C, N1303K Class III Defective protein regulation (gating) G178R, S549N, S549R, G551D, G551S, G970R, G1244E, S1251N, S1255P, G1349D Class IV Defective protein conductance R334W, R347P, R117H Class V Reduced amount of functioning protein 2789+5G ࢐ A, 3272-26ANG, 3849+10KbC ࢐ T, A455E Class VI Reduced cell surface stability Rescued F508del, c.120del23 Unclassified All other mutations, including those unknown a F508del-CFTR pocket (at NBD1:ICL4 interface) (Farinha et al., 2013).

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ABCC7 p.Gly551Ser 24932877:547:400

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269 67 SNPs (125GtoC, 1716G.A, 1717-1G.A, 1898+1G.A, 2183AA.G, 2184delA, 2789+5G.A, 3120+1G.A, 3659delC, 3849+10kbC.T, 621+ 1G.T, 711+5G.A, A455E, D110H, D1152H, D1270N, D443Y, D579G, F1052V, F1074L, F508C, F508del, G1069R, G1244E, G1349D, G178R, G542X, G551D, G551S, I1131L/V, I148T, I336K/T, I507del, I807M, IVS8T5, K1180T, L1065P, L967S, L997F, M1V, M470V, M952I, M952T, N1303K, P67L, Q1463Q, R1070Q, R1162X, R117C, R117H, R170H, R258G, R297Q, R31C, R352Q, R553X, R668C, R74W, R75Q, S1235R, S1255P, S485R, S977F, T338I, T854T, V201M, W1282X) were multiplexed into 6 wells; 14 SNPs (S492F, S945L, R74Q, R560T, R1162L, G85E, I1027T, R334W, R347P, G576A, 711+1G.T, 1001+11C.T, P1290P, 3199del6) were ascertained separately via TaqMan Gene Expression Assays, with repeat confirmation of all positive results.

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ABCC7 p.Gly551Ser 25033378:269:257

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36 At 48 weeks, 67% of patients in the ivacaftor group had not had a pulmonary exacerbation compared with 41% in the Table 2 Ivacaftor Clinical Trials Reference Design CFTR Mutation Population Treatment Duration Results Ramsey(2011)30 STRIVE: Randomized, double-blind, placebo-controlled G551D Age 12-53 years N = 161 FEV1 40-90% IVA 150 mg b.i.d. or PBO b.i.d. 48 wks ߦ Percent change in FEV1 from baseline to 24 wks (P < 0.001): IVA, 10.4%; PBO, -0.2% ߦ Percent change in FEV1 from baseline to 48 wks compared with PBO (P < 0.001): IVA, 10.5% ߦ Percent of patients pulmonary exacerbation-free at 48 wks: IVA, 67%; PBO, 41% ߦ Change in body weight from baseline to 48 wks: IVA, 3.1 kg; PBO, 0.4 kg ߦ Sweat chloride change from baseline to 48 wks compared with PBO (P < 0.001): IVA, -48.1 mmol/L ߦ Change in CFQ-R respiratory domain from baseline to 48 wks (P < 0.001): IVA, 5.9 pts; PBO, -2.7 pts Davies (2013)29 ENVISION: Randomized, double-blind, placebo-controlled G551D Age 6-11 years N = 52 FEV1 40-105% IVA 150 mg b.i.d. or PBO b.i.d. 48 wks ߦ Absolute change in FEV1 percentage from baseline at 48 wks compared with PBO (P < 0.001): IVA, 10% ߦ Absolute change in FEV1 percentage from baseline at 24 wks (P < 0.001): IVA, 12.6%; PBO, 0.1% ߦ Mean change in sweat chloride from baseline to 48 wks compared with PBO (P < 0.001): IVA, -54.3 mmol/L ߦ Body weight change from baseline to 48 wks compared with PBO (P < 0.001): IVA, 2.8 kg ߦ Absolute CFQ-R change from baseline to 24 wks compared with PBO (P = 0.109): IVA, 6.1 pts McKone (2013)31 PERSIST: Open-label extension G551D Age ࣙ 6 years Patients had completed 48 wks of either ENVISION or STRIVE IVA 150 mg b.i.d. 96 wks (patients received 96 wks or 144 wks of IVA depending on ENVISION or STRIVE randomization) ߦ Absolute change in percent predicted FEV1: &#b0; &#b0; STRIVE (IVA ࢐ IVA) Study start (48 wks of prior treatment): 9.4 &#b1; 8.3 &#b0; &#b0; STRIVE (IVA ࢐ IVA) 144 wks: 9.4 &#b1; 10.8 &#b0; &#b0; STRIVE (PBO ࢐ IVA) Study start: -1.2 &#b1; 7.8 &#b0; &#b0; STRIVE (PBO ࢐ IVA) 96 wks: 9.5 &#b1; 11.2 &#b0; &#b0; ENVISION (IVA ࢐ IVA) Study start (48 wks of prior treatment): 10.2 &#b1; 15.7 &#b0; &#b0; ENVISION (IVA ࢐ IVA) 144 wks: 10.3 &#b1; 12.4 &#b0; &#b0; ENVISION (PBO ࢐ IVA) Study start: -0.6 &#b1; 10.1 &#b0; &#b0; ENVISION (PBO ࢐ IVA) 96 wks: 10.5 &#b1; 11.5 ߦ Absolute change in weight (kg): &#b0; &#b0; STRIVE (IVA ࢐ IVA) Study start (48 wks of prior treatment): 3.4 &#b1; 4.9 &#b0; &#b0; STRIVE (IVA ࢐ IVA) 144 wks: 4.1 &#b1; 7.1 &#b0; &#b0; STRIVE (PBO ࢐ IVA) Study start: 0.3 &#b1; 2.2 &#b0; &#b0; STRIVE (PBO ࢐ IVA) 96 wks: 3 &#b1; 4.2 &#b0; &#b0; ENVISION (IVA ࢐ IVA) Study start (48 wks of prior treatment): 6.1 &#b1; 2.9 &#b0; &#b0; ENVISION (IVA ࢐ IVA) 144 wks: 14.8 &#b1; 5.7 &#b0; &#b0; ENVISION (PBO ࢐ IVA) Study start: 2.9 &#b1; 1.8 &#b0; &#b0; ENVISION (PBO ࢐ IVA) 96 wks: 10.1 &#b1; 4.1 ߦ Absolute change in CFQ-R respiratory domain: &#b0; &#b0; STRIVE (IVA ࢐ IVA) Study start (48 wks of prior treatment): 6.4 &#b1; 16.8 &#b0; &#b0; STRIVE (IVA ࢐ IVA) 144 wks: 6.8 &#b1; 19.6 &#b0; &#b0; STRIVE (PBO ࢐ IVA) Study start: -3.6 &#b1; 14.1 &#b0; &#b0; STRIVE (PBO ࢐ IVA) 96 wks: 9.8 &#b1; 16.2 &#b0; &#b0; ENVISION (IVA ࢐ IVA) Study start (48 wks of prior treatment): 7.4 &#b1; 17.4 &#b0; &#b0; ENVISION (IVA ࢐ IVA) 144 wks: 10.6 &#b1; 18.9 &#b0; &#b0; ENVISION (PBO ࢐ IVA) Study start: 0.8 &#b1; 18.4 &#b0; &#b0; ENVISION (PBO ࢐ IVA) 96 wks: 10.8 &#b1; 12.8 CFTR Modulators for the Treatment of Cystic Fibrosis Table 2 Ivacaftor Clinical Trials Reference Design CFTR Mutation Population Treatment Duration Results Davies (2013)32 Placebo-controlled, double-blind, crossover study G551D Age > 6 years N = 17 FEV1 > 90% LCI > 7.4 Sequence 1: PBO ࢐ WO ࢐ IVA 150 mg b.i.d. Sequence 2: IVA 150 mg b.i.d. ࢐ WO ࢐ PBO 28-day treatment and WO periods ߦ Average change in LCI from baseline compared with PBO (P < 0.0001): IVA, -2.16 (95% CI, -2.88 to -1.44) ߦ Average change in FEV1 from baseline compared with PBO (P = 0.0103): IVA, 8.67 (95% CI, 2.36 to 14.97) ߦ Average change in FEF25-75 from baseline compared with PBO (P = 0.0237): IVA, 16.56 (95% CI, 2.30 to 27.71) Barry (2013)34 Retrospective review G551D Age 20-31 in IVA group N = 21 FEV1 < 40% IVA 150 mg b.i.d. (n = 21); matched controls (n = 35) Median duration, 237 days ߦ Absolute FEV1 change from baseline (P = 0.0075): IVA, 0.125 L; CON, 0.01 L ߦ Percent predicted FEV1 change from baseline (P = 0.0092): IVA, 12.7%, CON, 2.2% ߦ Median weight increase from baseline: IVA, 1.8 kg; CON, 0.1 kg ߦ Median inpatient days per year decreased from 23 days to 0 days in the IVA group (P = 0.001) ߦ Median total intravenous antibiotic days per year decreased from 74 days to 38 days in the IVA group (P = 0.002) De Boeck (2013)37 KONNECTION: Randomized, double-blind, crossover, placebo-controlled Non-G551D gating mutations G178R, G551S, S549N, S549R, G970R, G1244E, S1251N, S1255P, G1349D Age ࣙ 6 years N = 39 FEV1 ࣙ 40% Treatment sequence 1: IVA 150 mg b.i.d. ࢐ WO ࢐ PBO ࢐ open-label Treatment sequence 2: PBO ࢐ WO ࢐ IVA 150 mg b.i.d. ࢐ open-label 8 wks of IVA or PBO; 4-8 wks WO period; 16 wks open label ߦ Absolute change from baseline percent predicted FEV1 (P < 0.0001): IVA, 7.49%; PBO, -3.19% ߦ Absolute change from baseline BMI (P < 0.0001): IVA, 0.68; PBO, 0.02 ߦ Absolute change from baseline in CFQ-R respiratory domain (P = 0.0004): IVA, 8.94 pts; PBO, -0.67 pts ߦ Absolute change from baseline in sweat chloride (mmol/L): IVA, -52.28; PBO, -3.11 Flume (2011)35 Randomized, double-blind, placebo-controlled, parallel group with open-label extension Homozygous F508del Age ࣙ 12 years Part 1: N = 140 Part 2: N = 33 42 patients were eligible for part 2 if change in FEV1 ࣙ 10% or sweat chloride decreased by at least 15 mmol/L at day 15 and week 8 Part 1: IVA 150 mg b.i.d. or PBO 16 wks Part 2: Open label IVA 150 mg b.i.d.

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ABCC7 p.Gly551Ser 25083129:36:5183

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56 These promising results led to an FDA label expansion to include CF patients with the following eight mutations in addition to G551D: G178R, S549R, S549N, G551S, G1244E, S1251N, S1255P, and G1349D.38 Clinical Considerations Ivacaftor was well tolerated in clinical trials.

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ABCC7 p.Gly551Ser 25083129:56:155

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6 More recently, VX-770 has been approved by the FDA (NDA 203188, www.fda.gov) and recommended by the EMA (EMA/CHMP/365663/2014) for use with an additional eight CF gating (class III) mutations (G178R, S549N, S549R, G551S, G1244E, S1251N, S1255P and G1349D), although, including G551D, these mutations still just occur in ~5% of CF patients worldwide.

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ABCC7 p.Gly551Ser 25088968:6:214

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21 G551E, but not G551K or G551S, exhibits a similar phenotype, indicating that electrostatic repulsion between the negatively charged side chain of aspartate and the &#e067;-phosphate of ATP accounts for the observed mutational effects.

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ABCC7 p.Gly551Ser 25225552:21:24

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32 Because this inhibitory effect is observed also in G551E, but not in G551K or G551S, a basic chemical mechanism of an electrostatic repulsion between the negatively charged side chain of 551D/E and the &#e067;-phosphate of ATP in shaping the observed mutational effects is proposed.

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ABCC7 p.Gly551Ser 25225552:32:78

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162 With a neutral (G551S) or cationic (G551K) side chain at residue 551, the channels respond to ATP in a manner similar to that of WT-CFTR.

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ABCC7 p.Gly551Ser 25225552:162:16

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191 (A-C) Responses to ATP withdrawal in different G551 mutants: G551S (A), G551K (B), and G551E (C).

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ABCC7 p.Gly551Ser 25225552:191:61

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359 Third, at the level of the NBD1:NBD2 heterodimer, CF-causing mutations are concentrated within the canonical ATP-binding site (S549N, S549R, G551D/G551S, G1244E, S1251N, and S1255P) (Fig. 7d).

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ABCC7 p.Gly551Ser 25287046:359:147

status: NEW

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30 While the correctors VX-809 and VX-661 (are not yet approved for use in patients, the potentiator Kalydeco (ivacaftor; VX-770) is being used at 150 mg every 12 hr in CF patients >6 years with at least one G551D-CFTR mutation, and more recently for patients with one of G178R, S549N, S549R, G551S, G1244E, S1251N, S1255P and G1349D.

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ABCC7 p.Gly551Ser 25867140:30:290

status: NEW

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155 Furthermore, Kalydeco has been tested in patients carrying other class III mutations, or targeted class IVand V mutations (sharing functional similarities with the class III).58 The new trials led to an extension of the FDA and European Medical Agency approval to 8 additional gating mutations: p.Gly178Arg (p.G178R), p.Ser549Asn (p.S549N), p.Ser549Arg (p.S549R), p.Gly551Ser (p.G551S), p.Gly1244Glu (p.G1244E), p.Ser1251Asn (p.S1251N), p.Ser1255Pro (pS1255P), and p.Gly1349Asp (p.G1349D).59 Recently, ivacaftor has also been shown to benefit patients carrying the c.350G .

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ABCC7 p.Gly551Ser 25940043:155:366

status: NEW

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ABCC7 p.Gly551Ser 25940043:155:379

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135 Compte tenu de l`efficacite &#b4; de KalydecoW chez ces patients, le laboratoire VertexW a ensuite teste &#b4;, puis de &#b4;montre &#b4; son efficacite &#b4; chez des patients porteurs d`autres mutations de classe III, ce qui a permis cette anne &#b4;e une extension d`autorisation de mise sur le marche &#b4; (AMM) pour 8 mutations supple &#b4;mentaires : G1244E, G1349D, G178R, G551S, S1251N, S1255P, S549N et S549R [37].

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ABCC7 p.Gly551Ser 26021452:135:381

status: NEW

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604 When tested in clinical trials, the potentiator ivacaftor (also known as VX-770) showed a marked clinical benefit, with substantial improvement of lung function, reduction of pulmonary exacerbations, and increase in body weight in CF patients with G551D and 8 additional Class III mutations (G178R, S549N, S549R, G551S, G1244E, S1251N, S1255P and G1349D) [32-35].

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ABCC7 p.Gly551Ser 26115565:604:313

status: NEW

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656 The FDA approval of Ivacaftor for multiple G551D like phenotypic variants including G178R, S549N, S549R, G551S, G1244E, S1251N, S1255P and G1349D [159,160] found at the cell surface with gating defects [161,162], and the FDA-approval of a combination of Lumacaftor and Ivacaftor for treatment of F508del [156] are examples of successful application of these technologies.

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ABCC7 p.Gly551Ser 26526359:656:105

status: NEW

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