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1. A Phase 3 open-label study of ELX/TEZ/IVA in children 6 through 11 years of age with CF and at least one F508del allele

Author

Zemanick, ET, Taylor-Cousar, JL, Davies, J, Gibson, RL, Mall, MA, McKone, EF, McNally, P, Ramsey, BW, Rayment, JH, Rowe, SM, Tullis, E, Ahluwalia, N, Chu, C, Ho, T, Moskowitz, SM, Noel, S, Tian, S, Waltz, D, Weinstock, TG, Xuan, F, Wainwright, CE, McColley, SA, and VX18-445-106 Study Group

Subjects
cystic fibrosis, child, elexacaftor, tezacaftor, Respiratory System, ivacaftor, 11 Medical and Health Sciences
Abstract

RATIONALE: Elexacaftor/tezacaftor/ivacaftor (ELX/TEZ/IVA) was shown to be efficacious and safe in patients aged 12 years and older with cystic fibrosis and at least one F508del-CFTR allele, but has not been evaluated in children

Published
2021

5. Potential role of high-mobility group box 1 in cystic fibrosis airway disease.

Author

Rowe SM, Jackson PL, Liu G, Hardison M, Livraghi A, Solomon GM, McQuaid DB, Noerager BD, Gaggar A, Clancy JP, O'Neal W, Sorscher EJ, Abraham E, Blalock JE, Rowe, Steven M, Jackson, Patricia L, Liu, Gang, Hardison, Mathew, Livraghi, Alessandra, and Solomon, G Martin

Abstract

Rationale: High-mobility group box 1 (HMGB1) is a potent inflammatory mediator elevated in sepsis and rheumatoid arthritis, although its role in cystic fibrosis (CF) lung disease is unknown.Objectives: To determine whether HMGB1 contributes to CF lung inflammation, including neutrophil chemotaxis and lung matrix degradation.Methods: We used sputum and serum from subjects with CF and a Scnn1b-transgenic (Scnn1b-Tg) mouse model that overexpresses beta-epithelial Na(+) channel in airways and mimics the CF phenotype, including lung inflammation. Human secretions and murine bronchoalveolar lavage fluid (BALF) was assayed for HMGB1 by Western blot and ELISA. Neutrophil chemotaxis was measured in vitro after incubation with human neutrophils. The collagen fragment proline-glycine-proline (PGP) was measured by tandem mass spectroscopy.Measurements and Main Results: HMGB1 was detected in CF sputum at higher levels than secretions from normal individuals. Scnn1b-Tg mice had elevated levels of HMGB1 by Western blot and ELISA. We demonstrated that dose-dependent chemotaxis of human neutrophils stimulated by purified HMGB1 was partially dependent on CXC chemokine receptors and that this could be duplicated in CF sputum and BALF from Scnn1b-Tg mice. Neutralization by anti-HMGB1 antibody, in both the sputum and BALF-reduced chemotaxis, which suggested that HMGB1 contributed to the chemotactic properties of these samples. Intratracheal administration of purified HMGB1 induced neutrophil influx into the airways of mice and promoted the release of PGP. PGP was also elevated in Scnn1b-Tg mice and CF serum.Conclusions: HMGB1 expression contributes to pulmonary inflammation and lung matrix degradation in CF airway disease and deserves further investigation as a biomarker and potential therapeutic target. [ABSTRACT FROM AUTHOR]

Published
2008
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7. Ivacaftor for Chronic Obstructive Pulmonary Disease - Results from a Phase 2, Randomized Controlled Trial.

Author

Vijaykumar K, Solomon GM, Guimbellot J, Acosta EP, Bhambhavni PG, White S, Kim H, Raju SV, Rasmussen LW, Harris N, Liu B, Hathorne H, Rowe SM, and Dransfield MT

Abstract

Rationale: Patients with chronic obstructive pulmonary disease (COPD) exhibit acquired cystic fibrosis transmembrane conductance regulator (CFTR) dysfunction. CFTR modulators may improve outcomes in patients with COPD, although recent data regarding magnitude of benefit have been inconclusive and effects on mucociliary clearance are unknown. We conducted a phase 2, randomized, double blind placebo control trial to determine safety and tolerability, and explore the potential mechanism of ivacaftor for the treatment of COPD., Methods: We randomized 40 patients with moderate to severe COPD and symptoms of chronic bronchitis to ivacaftor (N=30) or placebo (N=10) 150mg BID for 12 weeks. Primary endpoints included evaluation of safety of ivacaftor and pharmacokinetics (PK). Secondary endpoints included measures of CFTR activity and clinical outcomes., Results: Ivacaftor was safe and tolerable with similar rates of adverse events rates between groups. Most common adverse event was diarrhea in the ivacaftor group and acute COPD exacerbation in the placebo group. PK analysis found the mean area under the curve over 12 hours (AUC 12 ) to be 72% of the previously reported AUC 12 in cystic fibrosis (CF). Treatment with ivacaftor did not improve sweat chloride, whole lung mucociliary clearance, lung function or respiratory symptoms., Conclusion: Ivacaftor was safe and well tolerated, but did not improve measures of CFTR activity or mucus clearance. As serum concentrations achieved were lower than observed in CF at the same dose, and modulation of wild type CFTR differs from G551D, further dose determination studies are needed to better understand treatment efficacy of CFTR potentiators in COPD. Clinical trial registration available at www., Clinicaltrials: gov, ID: NCT03085485.

Published
2024
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8. Pulmonary Fibrosis Stakeholder Summit: A Joint NHLBI, Three Lakes Foundation, and Pulmonary Fibrosis Foundation Workshop Report.

Author

Montesi SB, Gomez CR, Beers M, Brown R, Chattopadhyay I, Flaherty KR, Garcia CK, Gomperts B, Hariri LP, Hogaboam CM, Jenkins RG, Kaminski N, Kim GHJ, Königshoff M, Kolb M, Kotton DN, Kropski JA, Lasky J, Magin CM, Maher TM, McCormick M, Moore BB, Nickerson-Nutter C, Oldham J, Podolanczuk AJ, Raghu G, Rosas I, Rowe SM, Schmidt WT, Schwartz D, Shore JE, Spino C, Craig JM, and Martinez FJ

Subjects
United States, Humans, National Heart, Lung, and Blood Institute (U.S.), Lakes, Risk Factors, Idiopathic Pulmonary Fibrosis diagnosis, Idiopathic Pulmonary Fibrosis therapy, Biomedical Research
Abstract

Despite progress in elucidation of disease mechanisms, identification of risk factors, biomarker discovery, and the approval of two medications to slow lung function decline in idiopathic pulmonary fibrosis and one medication to slow lung function decline in progressive pulmonary fibrosis, pulmonary fibrosis remains a disease with a high morbidity and mortality. In recognition of the need to catalyze ongoing advances and collaboration in the field of pulmonary fibrosis, the NHLBI, the Three Lakes Foundation, and the Pulmonary Fibrosis Foundation hosted the Pulmonary Fibrosis Stakeholder Summit on November 8-9, 2022. This workshop was held virtually and was organized into three topic areas: 1 ) novel models and research tools to better study pulmonary fibrosis and uncover new therapies, 2 ) early disease risk factors and methods to improve diagnosis, and 3 ) innovative approaches toward clinical trial design for pulmonary fibrosis. In this workshop report, we summarize the content of the presentations and discussions, enumerating research opportunities for advancing our understanding of the pathogenesis, treatment, and outcomes of pulmonary fibrosis.

Published
2024
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12. Clinical Effectiveness of Elexacaftor/Tezacaftor/Ivacaftor in People with Cystic Fibrosis: A Clinical Trial.

Author

Nichols DP, Paynter AC, Heltshe SL, Donaldson SH, Frederick CA, Freedman SD, Gelfond D, Hoffman LR, Kelly A, Narkewicz MR, Pittman JE, Ratjen F, Rosenfeld M, Sagel SD, Schwarzenberg SJ, Singh PK, Solomon GM, Stalvey MS, Clancy JP, Kirby S, Van Dalfsen JM, Kloster MH, and Rowe SM

Subjects
Adult, Aminophenols therapeutic use, Benzodioxoles therapeutic use, Child, Chloride Channel Agonists therapeutic use, Chlorides analysis, Cystic Fibrosis Transmembrane Conductance Regulator, Drug Combinations, Humans, Indoles, Mutation, Prospective Studies, Pyrazoles, Pyridines, Pyrrolidines, Quinolones, Treatment Outcome, Cystic Fibrosis drug therapy, Cystic Fibrosis genetics
Abstract

Rationale: The cystic fibrosis (CF) modulator drug, elexacaftor/tezacaftor/ivacaftor (ETI), proved highly effective in controlled clinical trials for individuals with at least one F508del allele, which occurs in at least 85% of people with CF. Objectives: PROMISE is a postapproval study to understand the broad effects of ETI through 30 months' clinical use in a more diverse U.S. patient population with planned analyses after 6 months. Methods: Prospective, observational study in 487 people with CF age 12 years or older with at least one F508del allele starting ETI for the first time. Assessments occurred before and 1, 3, and 6 months into ETI therapy. Outcomes included change in percent predicted FEV 1 (ppFEV 1 ), sweat chloride concentration, body mass index (BMI), and self-reported respiratory symptoms. Measurements and Main Results: Average age was 25.1 years, and 44.1% entered the study using tezacaftor/ivacaftor or lumacaftor/ivacaftor, whereas 6.7% were using ivacaftor, consistent with F508del homozygosity and G551D allele, respectively. At 6 months into ETI therapy, ppFEV 1 improved 9.76 percentage points (95% confidence interval [CI], 8.76 to 10.76) from baseline, cystic fibrosis questionnaire-revised respiratory domain score improved 20.4 points (95% CI, 18.3 to 22.5), and sweat chloride decreased -41.7 mmol/L (95% CI, -43.8 to -39.6). BMI also significantly increased. Changes were larger in those naive to modulators but substantial in all groups, including those treated with ivacaftor at baseline. Conclusions: ETI by clinical prescription provided large improvements in lung function, respiratory symptoms, and BMI in a diverse population naive to modulator drug therapy, using existing two-drug combinations, or using ivacaftor alone. Each group also experienced significant reductions in sweat chloride concentration, which correlated with improved ppFEV 1 in the overall study population. Clinical trial registered with www.clinicaltrials.gov (NCT NCT04038047).

Published
2022
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13. A Phase 3 Open-Label Study of Elexacaftor/Tezacaftor/Ivacaftor in Children 6 through 11 Years of Age with Cystic Fibrosis and at Least One F508del Allele.

Author

Zemanick ET, Taylor-Cousar JL, Davies J, Gibson RL, Mall MA, McKone EF, McNally P, Ramsey BW, Rayment JH, Rowe SM, Tullis E, Ahluwalia N, Chu C, Ho T, Moskowitz SM, Noel S, Tian S, Waltz D, Weinstock TG, Xuan F, Wainwright CE, and McColley SA

Subjects
Alleles, Child, Chloride Channel Agonists pharmacokinetics, Drug Combinations, Female, Genetic Variation, Genotype, Humans, Indoles pharmacokinetics, Male, Pyrazoles pharmacokinetics, Quinolones pharmacokinetics, Chloride Channel Agonists therapeutic use, Cystic Fibrosis drug therapy, Cystic Fibrosis genetics, Cystic Fibrosis Transmembrane Conductance Regulator drug effects, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Indoles therapeutic use, Pyrazoles therapeutic use, Quinolones therapeutic use
Abstract

Rationale: Elexacaftor/tezacaftor/ivacaftor (ELX/TEZ/IVA) was shown to be efficacious and safe in patients ≥12 years of age with cystic fibrosis and at least one F508del-CFTR (cystic fibrosis transmembrane conductance regulator) allele, but it has not been evaluated in children <12 years of age. Objectives: To assess the safety, pharmacokinetics, and efficacy of ELX/TEZ/IVA in children 6 through 11 years of age with F508del -minimal function or F508del - F508del genotypes. Methods: In this 24-week open-label phase 3 study, children ( N  = 66) weighing <30 kg received 50% of the ELX/TEZ/IVA adult daily dose (ELX 100 mg once daily, TEZ 50 mg once daily, and IVA 75 mg every 12 h) whereas children weighing ⩾30 kg received the full adult daily dose (ELX 200 mg once daily, TEZ 100 mg once daily, and IVA 150 mg every 12 h). Measurements and Main Results: The primary endpoint was safety and tolerability. The safety and pharmacokinetic profiles of ELX/TEZ/IVA were generally consistent with those observed in older patients. The most commonly reported adverse events included cough, headache, and pyrexia; in most of the children who had adverse events, these were mild or moderate in severity. Through Week 24, ELX/TEZ/IVA treatment improved the percentage of predicted FEV 1 (10.2 percentage points; 95% confidence interval [CI], 7.9 to 12.6), Cystic Fibrosis Questionnaire-Revised respiratory domain score (7.0 points; 95% CI, 4.7 to 9.2), lung clearance index 2.5 (-1.71 units; 95% CI, -2.11 to -1.30), and sweat chloride (-60.9 mmol/L; 95% CI, -63.7 to -58.2); body mass index-for-age z -score increased over the 24-week treatment period when compared with the pretreatment baseline. Conclusions: Our results show ELX/TEZ/IVA is safe and efficacious in children 6 through 11 years of age with at least one F508del-CFTR allele, supporting its use in this patient population. Clinical trial registered with www.clinicaltrials.gov (NCT03691779).

Published
2021
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14. Novel Correctors and Potentiators Enhance Translational Readthrough in CFTR Nonsense Mutations.

Author

Mutyam V, Sharma J, Li Y, Peng N, Chen J, Tang LP, Falk Libby E, Singh AK, Conrath K, and Rowe SM

Subjects
Aminophenols pharmacology, Aminopyridines pharmacology, Animals, Benzodioxoles pharmacology, Cell Line, Chlorides metabolism, Codon, Nonsense, Cystic Fibrosis drug therapy, Cystic Fibrosis metabolism, Cystic Fibrosis pathology, Cystic Fibrosis Transmembrane Conductance Regulator agonists, Cystic Fibrosis Transmembrane Conductance Regulator deficiency, Epithelial Cells metabolism, Humans, Ion Transport drug effects, Quinolones pharmacology, Rats, Recovery of Function, Thyroid Epithelial Cells drug effects, Thyroid Epithelial Cells metabolism, Benzoates pharmacology, Benzopyrans pharmacology, Cystic Fibrosis genetics, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Epithelial Cells drug effects, Protein Biosynthesis drug effects, Pyrans pharmacology, Pyrazoles pharmacology
Abstract

Premature-termination codons (PTCs) in CFTR (cystic fibrosis [CF] transmembrane conductance regulator) result in nonfunctional CFTR protein and are the proximate cause of ∼11% of CF-causing alleles, for which no treatments exist. The CFTR corrector lumacaftor and the potentiator ivacaftor improve CFTR function with terminal PTC mutations and enhance the effect of readthrough agents. Novel correctors GLPG2222 (corrector 1 [C1]), GLPG3221 (corrector 2 [C2]), and potentiator GLPG1837 compare favorably with lumacaftor and ivacaftor in vitro . Here, we evaluated the effect of correctors C1a and C2a (derivatives of C1 and C2) and GLPG1837 alone or in combination with the readthrough compound G418 on CFTR function using heterologous Fischer rat thyroid (FRT) cells, the genetically engineered human bronchial epithelial (HBE) 16HBE14o - cell lines, and primary human cells with PTC mutations. In FRT lines pretreated with G418, GLPG1837 elicited dose-dependent increases in CFTR activity that exceeded those from ivacaftor in FRT-W1282X and FRT-R1162X cells. A three-mechanism strategy consisting of G418, GLPG1837, and two correctors (C1a + C2a) yielded the greatest functional improvements in FRT and 16HBE14o - PTC variants, noting that correction and potentiation without readthrough was sufficient to stimulate CFTR activity for W1282X cells. GLPG1837 + C1a + C2a restored substantial function in G542X/F508del HBE cells and restored even more function for W1282X/F508del cells, largely because of the corrector/potentiator effect, with no additional benefit from G418. In G542X/R553X or R1162X/R1162X organoids, enhanced forskolin-induced swelling was observed with G418 + GLPG1837 + C1a + C2a, although GLPG1837 + C1a + C2a alone was sufficient to improve forskolin-induced swelling in W1282X/W1282X organoids. Combination of CFTR correctors, potentiators, and readthrough compounds augments the functional repair of CFTR nonsense mutations, indicating the potential for novel correctors and potentiators to restore function to truncated W1282X CFTR.

Published
2021
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15. Clinical Effectiveness of Lumacaftor/Ivacaftor in Patients with Cystic Fibrosis Homozygous for F508del-CFTR. A Clinical Trial.

Author

Sagel SD, Khan U, Heltshe SL, Clancy JP, Borowitz D, Gelfond D, Donaldson SH, Moran A, Ratjen F, VanDalfsen JM, and Rowe SM

Subjects
Adolescent, Adult, Child, Cohort Studies, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Female, Forced Expiratory Volume, Humans, Longitudinal Studies, Male, Mutation, Young Adult, Aminophenols, Aminopyridines, Benzodioxoles, Cystic Fibrosis drug therapy, Cystic Fibrosis genetics, Quinolones
Abstract

Rationale: The combination of lumacaftor (LUM) and ivacaftor (IVA) is an approved CFTR (cystic fibrosis [CF] transmembrane conductance regulator) modulator treatment for homozygous F508del patients with CF. Objectives: To evaluate the effectiveness of LUM/IVA in children (6 yr or more) and adults (more than 18 yr) in a postapproval setting. Methods: This longitudinal cohort study, performed at 38 centers in the U.S. CF Therapeutics Development Network, enrolled homozygous F508del patients with CF ages 6 years old and older with no prior exposure to LUM/IVA. Study assessments were performed at baseline and at 1, 3, 6, and 12 months after LUM/IVA initiation. Results: A total of 193 patients initiated LUM/IVA, and 85% completed the study through 1 year. Baseline mean percent-predicted forced expiratory volume in 1 second (ppFEV 1 ) was 85 (standard deviation, 22.4) in this cohort. No statistically significant change in ppFEV 1 was observed from baseline to any of the follow-up time points, with a mean absolute change at 12 months of -0.3 (95% confidence interval [CI], -1.8 to 1.2). Body mass index improved from baseline to 12 months (mean change, 0.8 kg/m 2 ; P  < 0.001). Sweat chloride decreased from baseline to 1 month (mean change, -18.5 mmol/L; 95% CI, -20.7 to -16.3; P  < 0.001), and these reductions were sustained through the study period. There were no significant changes in hospitalization rate for pulmonary exacerbations and Pseudomonas aeruginosa infection status with treatment. Conclusions: In this real-world multicenter cohort of children and adults, LUM/IVA treatment was associated with significant improvements in growth and reductions in sweat chloride without statistically significant or clinically meaningful changes in lung function, hospitalization rates, or P. aeruginosa infection.Clinical trial registered with www.clinicaltrials.gov (NCT02477319).

Published
2021
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16. Ivacaftor Reverses Airway Mucus Abnormalities in a Rat Model Harboring a Humanized G551D-CFTR.

Author

Birket SE, Davis JM, Fernandez-Petty CM, Henderson AG, Oden AM, Tang L, Wen H, Hong J, Fu L, Chambers A, Fields A, Zhao G, Tearney GJ, Sorscher EJ, and Rowe SM

Subjects
Animals, Humans, Models, Animal, Rats, Aminophenols therapeutic use, Chloride Channel Agonists therapeutic use, Cystic Fibrosis drug therapy, Cystic Fibrosis genetics, Cystic Fibrosis Transmembrane Conductance Regulator drug effects, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Mucus drug effects, Quinolones therapeutic use
Abstract

Rationale: Animal models have been highly informative for understanding the characteristics, onset, and progression of cystic fibrosis (CF) lung disease. In particular, the CFTR -/- rat has revealed insights into the airway mucus defect characteristic of CF but does not replicate a human-relevant CFTR (cystic fibrosis transmembrane conductance regulator) variant. Objectives: We hypothesized that a rat expressing a humanized version of CFTR and harboring the ivacaftor-sensitive variant G551D could be used to test the impact of CFTR modulators on pathophysiologic development and correction. Methods: In this study, we describe a humanized-CFTR rat expressing the G551D variant obtained by zinc finger nuclease editing of a human complementary DNA superexon, spanning exon 2-27, with a 5' insertion site into the rat gene just beyond intron 1. This targeted insertion takes advantage of the endogenous rat promoter, resulting in appropriate expression compared with wild-type animals. Measurements and Main Results: The bioelectric phenotype of the epithelia recapitulates the expected absence of CFTR activity, which was restored with ivacaftor. Large airway defects, including depleted airway surface liquid and periciliary layers, delayed mucus transport rates, and increased mucus viscosity, were normalized after the administration of ivacaftor. Conclusions: This model is useful to understand the mechanisms of disease and the extent of pathology reversal with CFTR modulators.

Published
2020
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17. Novel Therapy of Bicarbonate, Glutathione, and Ascorbic Acid Improves Cystic Fibrosis Mucus Transport.

Author

Adewale AT, Falk Libby E, Fu L, Lenzie A, Boitet ER, Birket SE, Petty CF, Johns JD, Mazur M, Tearney GJ, Copeland D, Durham C, and Rowe SM

Subjects
Cells, Cultured, Epithelial Cells drug effects, Humans, Ascorbic Acid pharmacology, Bicarbonates pharmacology, Cystic Fibrosis drug therapy, Glutathione pharmacology, Ion Transport drug effects, Mucociliary Clearance drug effects
Abstract

Defective airway mucus clearance is a defining characteristic of cystic fibrosis lung disease, and improvements to current mucolytic strategies are needed. Novel approaches targeting a range of contributing mechanisms are in various stages of preclinical and clinical development. ARINA-1 is a new nebulized product comprised of ascorbic acid, glutathione, and bicarbonate. Using microoptical coherence tomography, we tested the effect of ARINA-1 on central features of mucociliary clearance in F508del/F508del primary human bronchial epithelial cells to assess its potential as a mucoactive therapy in cystic fibrosis. We found that ARINA-1 significantly augmented mucociliary transport rates, both alone and with CFTR (cystic fibrosis transmembrane conductance regulator) modulator therapy, whereas airway hydration and ciliary beating were largely unchanged compared with PBS vehicle control. Analysis of mucus reflectivity and particle-tracking microrheology indicated that ARINA-1 restores mucus clearance by principally reducing mucus layer viscosity. The combination of bicarbonate and glutathione elicited increases in mucociliary transport rate comparable to those seen with ARINA-1, indicating the importance of this interaction to the impact of ARINA-1 on mucus transport; this effect was not recapitulated with bicarbonate alone or bicarbonate combined with ascorbic acid. Assessment of CFTR chloride transport revealed an increase in CFTR-mediated chloride secretion in response to ARINA-1 in CFBE41o - cells expressing wild-type CFTR, driven by CFTR activity stimulation by ascorbate. This response was absent in CFBE41o - F508del cells treated with VX-809 and primary human bronchial epithelial cells, implicating CFTR-independent mechanisms for the effect of ARINA-1 on cystic fibrosis mucus. Together, these studies indicate that ARINA-1 is a novel potential therapy for the treatment of impaired mucus clearance in cystic fibrosis.

Published
2020
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18. Cystic Fibrosis: Emergence of Highly Effective Targeted Therapeutics and Potential Clinical Implications.

Author

Mall MA, Mayer-Hamblett N, and Rowe SM

Subjects
Aminophenols therapeutic use, Aminopyridines therapeutic use, Benzodioxoles therapeutic use, Cystic Fibrosis genetics, Cystic Fibrosis metabolism, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Humans, Indoles therapeutic use, Molecular Targeted Therapy, Mucociliary Clearance, Mutation, Pyrazoles therapeutic use, Pyridines therapeutic use, Pyrrolidines therapeutic use, Quinolones therapeutic use, Chloride Channel Agonists therapeutic use, Cystic Fibrosis drug therapy, Epithelial Sodium Channel Blockers therapeutic use, Precision Medicine
Abstract

Cystic fibrosis (CF) remains the most common life-shortening hereditary disease in white populations, with high morbidity and mortality related to chronic airway mucus obstruction, inflammation, infection, and progressive lung damage. In 1989, the discovery that CF is caused by mutations in the CFTR (cystic fibrosis transmembrane conductance regulator) gene that encodes a cAMP-dependent anion channel vital for proper Cl - and HCO 3 - transport across epithelial surfaces provided a solid foundation for unraveling underlying disease mechanisms and the development of therapeutics targeting the basic defect in people with CF. In this review, we focus on recent advances in our understanding of the molecular defects caused by different classes of CFTR mutations, implications for pharmacological rescue of mutant CFTR, and insights into how CFTR dysfunction impairs key host defense mechanisms, such as mucociliary clearance and bacterial killing in CF airways. Furthermore, we review the path that led to the recent breakthrough in the development of highly effective CFTR-directed therapeutics, now applicable for up to 90% of people with CF who carry responsive CFTR mutations, including those with just a single copy of the most common F508del mutation. Finally, we discuss the remaining challenges and strategies to develop highly effective targeted therapies for all patients and the unprecedented potential of these novel therapies to transform CF from a fatal to a treatable chronic condition.

Published
2020
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19. Females with Cystic Fibrosis Demonstrate a Differential Response Profile to Ivacaftor Compared with Males.

Author

Secunda KE, Guimbellot JS, Jovanovic B, Heltshe SL, Sagel SD, Rowe SM, and Jain M

Subjects
Adolescent, Adult, Age Factors, Body Mass Index, Child, Cystic Fibrosis physiopathology, Disease Progression, Female, Forced Expiratory Volume, Humans, Male, Sex Factors, Young Adult, Aminophenols therapeutic use, Body Weight, Chloride Channel Agonists therapeutic use, Chlorides analysis, Cystic Fibrosis drug therapy, Quinolones therapeutic use, Sweat chemistry
Published
2020
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20. Changes in Airway Microbiome and Inflammation with Ivacaftor Treatment in Patients with Cystic Fibrosis and the G551D Mutation.

Author

Harris JK, Wagner BD, Zemanick ET, Robertson CE, Stevens MJ, Heltshe SL, Rowe SM, and Sagel SD

Subjects
Adolescent, Adult, Aminophenols therapeutic use, Biomarkers metabolism, Cystic Fibrosis genetics, Cystic Fibrosis microbiology, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Female, Forced Expiratory Volume drug effects, Humans, Longitudinal Studies, Lung metabolism, Lung microbiology, Lung physiopathology, Male, Microbiota drug effects, Mutation, Pseudomonas Infections complications, Pseudomonas Infections diagnosis, Pseudomonas Infections prevention & control, Pseudomonas aeruginosa isolation & purification, Quinolones therapeutic use, Respiratory System Agents therapeutic use, Sputum metabolism, Sputum microbiology, Sweat metabolism, Sweat microbiology, Treatment Outcome, Young Adult, Aminophenols pharmacology, Cystic Fibrosis drug therapy, Lung drug effects, Quinolones pharmacology, Respiratory System Agents pharmacology
Abstract

Rationale: Modulation of the cystic fibrosis (CF) transmembrane conductance regulator (CFTR) protein improves clinical outcomes in patients with CF and specific CFTR genetic mutations. It remains unclear how improving CFTR function modifies existing airway infection and inflammation. Objectives: To compare sputum microbiome and markers of inflammation before and after 6 months of ivacaftor treatment. Methods: The study included 31 people with CF, ages 10 years and older, with at least one G551D CFTR allele and an forced expiratory volume in 1 second (FEV 1 ) of 40% predicted or greater who were enrolled in the GOAL (G551D Observational) study. Sputum samples were collected either by induction ( n  = 14) or by spontaneous expectoration ( n  = 17) before and 6 months after initiation of ivacaftor. Changes in bacterial community indices by sequencing of 16S rRNA amplicons, total and specific bacterial load, and a panel of proteases, antiproteases, and inflammatory cytokines were determined. Results: The cohort that spontaneously expectorated sputum had a lower FEV 1 , a higher proportion with Pseudomonas aeruginosa infection, and higher concentrations of sputum inflammatory markers compared with the cohort that provided sputum by induction. Although the overall cohort experienced significant improvements in FEV 1 and reductions in sweat chloride, no significant changes in bacterial diversity, specific bacterial pathogens, or markers of inflammation were observed in these subjects. Neither total bacterial load nor presence of Pseudomonas changed significantly between paired samples with ivacaftor treatment. Younger patients experienced more shifts in their microbial communities than older patients. Conclusions: In this multicenter cohort, 6 months of ivacaftor treatment were not associated with significant changes in airway microbial communities or measures of inflammation. These data suggest that concomitant antimicrobial and antiinflammatory treatments will still be needed to manage airway disease in patients with CF treated with highly effective CFTR modulator therapy, especially in older patients with more advanced disease.

Published
2020
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21. Vaporized E-Cigarette Liquids Induce Ion Transport Dysfunction in Airway Epithelia.

Author

Lin VY, Fain MD, Jackson PL, Berryhill TF, Wilson LS, Mazur M, Barnes SJ, Blalock JE, Raju SV, and Rowe SM

Subjects
Acrolein chemistry, Adenosine Triphosphate metabolism, Bronchi metabolism, Bronchitis, Chronic physiopathology, Cell Survival, Cigarette Smoking, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Disease Progression, Electrophysiology, Epithelial Cells metabolism, Glycerol metabolism, Humans, Mass Spectrometry, Mucus metabolism, Nebulizers and Vaporizers, Pulmonary Disease, Chronic Obstructive physiopathology, Respiratory System drug effects, Time Factors, Electronic Nicotine Delivery Systems, Epithelial Cells drug effects, Glycerol adverse effects, Ion Transport, Smoke adverse effects, Smoking adverse effects
Abstract

Cigarette smoking is associated with chronic obstructive pulmonary disease and chronic bronchitis. Acquired ion transport abnormalities, including cystic fibrosis transmembrane conductance regulator (CFTR) dysfunction, caused by cigarette smoking have been proposed as potential mechanisms for mucus obstruction in chronic bronchitis. Although e-cigarette use is popular and perceived to be safe, whether it harms the airways via mechanisms altering ion transport remains unclear. In the present study, we sought to determine if e-cigarette vapor, like cigarette smoke, has the potential to induce acquired CFTR dysfunction, and to what degree. Electrophysiological methods demonstrated reduced chloride transport caused by vaporized e-cigarette liquid or vegetable glycerin at various exposures (30 min, 57.2% and 14.4% respectively, vs. control; P  < 0.0001), but not by unvaporized liquid (60 min, 17.6% vs. untreated), indicating that thermal degradation of these products is required to induce the observed defects. We also observed reduced ATP-dependent responses (-10.8 ± 3.0 vs. -18.8 ± 5.1 μA/cm 2 control) and epithelial sodium channel activity (95.8% reduction) in primary human bronchial epithelial cells after 5 minutes, suggesting that exposures dramatically inhibit epithelial ion transport beyond CFTR, even without diminished transepithelial resistance or cytotoxicity. Vaporizing e-cigarette liquid produced reactive aldehydes, including acrolein (shown to induce acquired CFTR dysfunction), as quantified by mass spectrometry, demonstrating that respiratory toxicants in cigarette smoke can also be found in e-cigarette vapor (30 min air, 224.5 ± 15.99; unvaporized liquid, 284.8 ± 35.03; vapor, 54,468 ± 3,908 ng/ml; P  < 0.0001). E-cigarettes can induce ion channel dysfunction in airway epithelial cells, partly through acrolein production. These findings indicate a heretofore unknown toxicity of e-cigarette use known to be associated with chronic bronchitis onset and progression, as well as with chronic obstructive pulmonary disease severity.

Published
2019
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22. Acquired Cystic Fibrosis Transmembrane Conductance Regulator Dysfunction and Radiographic Bronchiectasis in Current and Former Smokers: A Cross-Sectional Study.

Author

Teerapuncharoen K, Wells JM, Raju SV, Raraigh KS, Atalar Aksit M, Cutting GR, Rasmussen L, Nath PH, Bhatt SP, Solomon GM, Dransfield MT, and Rowe SM

Subjects
Aged, Bronchiectasis diagnostic imaging, Bronchiectasis physiopathology, Cross-Sectional Studies, Cystic Fibrosis genetics, Female, Humans, Male, Middle Aged, Pulmonary Disease, Chronic Obstructive genetics, Tomography, X-Ray Computed, Bronchiectasis genetics, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Smoking adverse effects
Published
2019
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23. Functional Anatomic Imaging of the Airway Surface.

Author

Shei RJ, Peabody JE, and Rowe SM

Subjects
Animals, Epithelial Cells ultrastructure, Humans, Lung Diseases etiology, Lung Diseases pathology, Mucociliary Clearance physiology, Tomography, Optical Coherence, Lung Diseases diagnostic imaging, Respiratory Mucosa diagnostic imaging, Respiratory Mucosa ultrastructure
Abstract

The airway surface functional microanatomy, including the ciliated airway epithelium and overlying mucus layer, is a critical component of the mucociliary escalator apparatus, an innate immune defense that helps to maintain a clean environment in the respiratory tract. Many genetic and acquired respiratory diseases have underlying pathophysiological mechanisms in which constituents of the airway surface functional microanatomy are defective. For example, in cystic fibrosis, mutations in the cystic fibrosis transmembrane conductance regulator gene, which normally produces a secretory anion channel protein, result in defective anion secretion and consequent dehydrated and acidic mucosal layer overlying the airway epithelium. This thick, viscous mucus results in depressed ciliary beating and delayed mucociliary transport, trapping bacteria and other pathogens, compromising host defenses and ultimately propagating disease progression. Thus, developing tools capable of studying the airway surface microanatomy has been critical to better understanding key pathophysiological mechanisms, and may become useful tools to monitor treatment outcomes. Here, we discuss functional imaging tools to study the airway surface functional microanatomy, and how their application has contributed to an improved understanding of airway disease pathophysiology.

Published
2018
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25. Maternal Smoking Induces Acquired CFTR Dysfunction in Neonatal Rats.

Author

McCormick LL, Phillips SE, Kaza N, Tang LP, Rasmussen L, Byzek SA, Raju SV, and Rowe SM

Subjects
Animals, Animals, Newborn, Cells, Cultured, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Disease Models, Animal, Female, Mothers, Pregnancy, Prenatal Exposure Delayed Effects genetics, Rats, Rats, Sprague-Dawley, Trachea metabolism, Trachea physiopathology, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Prenatal Exposure Delayed Effects metabolism, Prenatal Exposure Delayed Effects physiopathology, Smoking adverse effects
Published
2018
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26. Changes in Lung Clearance Index in Preschool-aged Patients with Cystic Fibrosis Treated with Ivacaftor (GOAL): A Clinical Trial.

Author

Ratjen F, Klingel M, Black P, Powers MR, Grasemann H, Solomon M, Sagel SD, Donaldson SH, Rowe SM, and Rosenfeld M

Subjects
Child, Preschool, Female, Humans, Male, Treatment Outcome, Aminophenols therapeutic use, Chloride Channel Agonists therapeutic use, Cystic Fibrosis drug therapy, Lung drug effects, Lung physiopathology, Quinolones therapeutic use
Published
2018
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27. Ivacaftor-treated Patients with Cystic Fibrosis Derive Long-Term Benefit Despite No Short-Term Clinical Improvement.

Author

Heltshe SL, Rowe SM, Skalland M, Baines A, and Jain M

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Child, Female, Follow-Up Studies, Humans, Male, Middle Aged, Time Factors, Treatment Outcome, Young Adult, Aminophenols therapeutic use, Chloride Channel Agonists therapeutic use, Cystic Fibrosis drug therapy, Cystic Fibrosis Transmembrane Conductance Regulator therapeutic use, Quinolones therapeutic use
Published
2018
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28. MicroRNA-145 Antagonism Reverses TGF-β Inhibition of F508del CFTR Correction in Airway Epithelia.

Author

Lutful Kabir F, Ambalavanan N, Liu G, Li P, Solomon GM, Lal CV, Mazur M, Halloran B, Szul T, Gerthoffer WT, Rowe SM, and Harris WT

Subjects
Cystic Fibrosis genetics, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Humans, MicroRNAs genetics, Transforming Growth Factor beta genetics, Cystic Fibrosis metabolism, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Epithelium metabolism, MicroRNAs metabolism, Transforming Growth Factor beta metabolism
Abstract

Rationale: MicroRNAs (miRNAs) destabilize mRNA transcripts and inhibit protein translation. miR-145 is of particular interest in cystic fibrosis (CF) as it has a direct binding site in the 3'-untranslated region of CFTR (cystic fibrosis transmembrane conductance regulator) and is upregulated by the CF genetic modifier TGF (transforming growth factor)-β., Objectives: To demonstrate that miR-145 mediates TGF-β inhibition of CFTR synthesis and function in airway epithelia., Methods: Primary human CF (F508del homozygous) and non-CF airway epithelial cells were grown to terminal differentiation at the air-liquid interface on permeable supports. TGF-β (5 ng/ml), a miR-145 mimic (20 nM), and a miR-145 antagonist (20 nM) were used to manipulate CFTR function. In CF cells, lumacaftor (3 μM) and ivacaftor (10 μM) corrected mutant F508del CFTR. Quantification of CFTR mRNA, protein, and function was done by standard techniques., Measurements and Main Results: miR-145 is increased fourfold in CF BAL fluid compared with non-CF (P < 0.01) and increased 10-fold in CF primary airway epithelial cells (P < 0.01). Exogenous TGF-β doubles miR-145 expression (P < 0.05), halves wild-type CFTR mRNA and protein levels (P < 0.01), and nullifies lumacaftor/ivacaftor F508del CFTR correction. miR-145 overexpression similarly decreases wild-type CFTR protein synthesis (P < 0.01) and function (P < 0.05), and eliminates F508del corrector benefit. miR-145 antagonism blocks TGF-β suppression of CFTR and enhances lumacaftor correction of F508del CFTR., Conclusions: miR-145 mediates TGF-β inhibition of CFTR synthesis and function in airway epithelia. Specific antagonists to miR-145 interrupt TGF-β signaling to restore F508del CFTR modulation. miR-145 antagonism may offer a novel therapeutic opportunity to enhance therapeutic benefit of F508del CFTR correction in CF epithelia.

Published
2018
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29. Lumacaftor/Ivacaftor Treatment of Patients with Cystic Fibrosis Heterozygous for F508del-CFTR.

Author

Rowe SM, McColley SA, Rietschel E, Li X, Bell SC, Konstan MW, Marigowda G, Waltz D, and Boyle MP

Subjects
Adolescent, Adult, Aminophenols adverse effects, Aminopyridines adverse effects, Australia, Benzodioxoles adverse effects, Body Mass Index, Cystic Fibrosis genetics, Cystic Fibrosis physiopathology, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Dose-Response Relationship, Drug, Double-Blind Method, Europe, Female, Forced Expiratory Volume drug effects, Humans, Male, Middle Aged, Mutation, Quinolones adverse effects, Treatment Outcome, United States, Young Adult, Aminophenols therapeutic use, Aminopyridines therapeutic use, Benzodioxoles therapeutic use, Chlorides analysis, Cystic Fibrosis drug therapy, Quinolones therapeutic use, Sweat chemistry
Abstract

Rationale: In a prior study, lumacaftor/ivacaftor treatment (≤28 d) in patients with cystic fibrosis (CF) heterozygous for F508del-CFTR did not improve lung function., Objectives: To evaluate an optimized lumacaftor/ivacaftor dosing regimen with a longer duration in a cohort of patients heterozygous for F508del-CFTR., Methods: Patients aged 18 years or older with a confirmed CF diagnosis and percent predicted FEV 1 (ppFEV 1 ) of 40 to 90 were randomized to lumacaftor/ivacaftor (400 mg/250 mg every 12 h) or placebo daily for 56 days. Primary outcomes were change in ppFEV 1 at Day 56 and safety. Other disease markers were evaluated., Measurements and Main Results: Of 126 patients, 119 (94.4%) completed the study. Lumacaftor/ivacaftor was well tolerated, although chest tightness and dyspnea occurred more frequently with active treatment than with placebo (27.4% vs. 14.3% and 14.5% vs. 6.3%, respectively). Mean (SD) ppFEV 1 values at baseline were 62.9 (14.3) in the active treatment group and 60.1 (14.0) in the placebo group. Absolute changes in ppFEV 1 (least squares mean [SE]) at Day 56 were -0.6 (0.8) percentage points in the active treatment group and -1.2 (0.8) percentage points in the placebo group (P = 0.60). CF respiratory symptom scores in the active treatment group improved by a mean of 5.7 points versus a decrease of -0.8 in the placebo group (P < 0.01). No changes in body mass index occurred. Changes from baseline in sweat chloride (least squares mean [SE]) at Day 56 were -11.8 (1.3) mmol/L in the active treatment group and -0.8 (1.2) mmol/L in the placebo group (P < 0.0001)., Conclusions: Sweat chloride and respiratory symptom scores improved with lumacaftor/ivacaftor, though no meaningful benefit was seen in ppFEV 1 or body mass index in patients heterozygous for F508del-CFTR. Clinical trial registered with www.clinicaltrials.gov (NCT01225211).

Published
2017
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30. The Cystic Fibrosis Transmembrane Conductance Regulator Potentiator Ivacaftor Augments Mucociliary Clearance Abrogating Cystic Fibrosis Transmembrane Conductance Regulator Inhibition by Cigarette Smoke.

Author

Raju SV, Lin VY, Liu L, McNicholas CM, Karki S, Sloane PA, Tang L, Jackson PL, Wang W, Wilson L, Macon KJ, Mazur M, Kappes JC, DeLucas LJ, Barnes S, Kirk K, Tearney GJ, and Rowe SM

Subjects
Acrolein pharmacology, Amino Acid Sequence, Bronchi pathology, Cells, Cultured, Cilia drug effects, Cilia metabolism, Cystic Fibrosis Transmembrane Conductance Regulator chemistry, Epithelial Cells drug effects, Epithelial Cells metabolism, Humans, Ion Channel Gating drug effects, Mucous Membrane pathology, Tomography, Optical Coherence, Trachea pathology, Aminophenols pharmacology, Cystic Fibrosis Transmembrane Conductance Regulator antagonists & inhibitors, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Mucociliary Clearance drug effects, Quinolones pharmacology, Smoking adverse effects
Abstract

Acquired cystic fibrosis transmembrane conductance regulator (CFTR) dysfunction may contribute to chronic obstructive pulmonary disease pathogenesis and is a potential therapeutic target. We sought to determine the acute effects of cigarette smoke on ion transport and the mucociliary transport apparatus, their mechanistic basis, and whether deleterious effects could be reversed with the CFTR potentiator ivacaftor (VX-770). Primary human bronchial epithelial (HBE) cells and human bronchi were exposed to cigarette smoke extract (CSE) and/or ivacaftor. CFTR function and expression were measured in Ussing chambers and by surface biotinylation. CSE-derived acrolein modifications on CFTR were determined by mass spectroscopic analysis of purified protein, and the functional microanatomy of the airway epithelia was measured by 1-μm resolution optical coherence tomography. CSE reduced CFTR-dependent current in HBE cells (P < 0.05) and human bronchi (P < 0.05) within minutes of exposure. The mechanism involved CSE-induced reduction of CFTR gating, decreasing CFTR open-channel probability by approximately 75% immediately after exposure (P < 0.05), whereas surface CFTR expression was partially reduced with chronic exposure, but was stable acutely. CSE treatment of purified CFTR resulted in acrolein modifications on lysine and cysteine residues that likely disrupt CFTR gating. In primary HBE cells, CSE reduced airway surface liquid depth (P < 0.05) and ciliary beat frequency (P < 0.05) within 60 minutes that was restored by coadministration with ivacaftor (P < 0.005). Cigarette smoking transmits acute reductions in CFTR activity, adversely affecting the airway surface. These effects are reversible by a CFTR potentiator in vitro, representing a potential therapeutic strategy in patients with chronic obstructive pulmonary disease with chronic bronchitis.

Published
2017
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31. Discovery of Clinically Approved Agents That Promote Suppression of Cystic Fibrosis Transmembrane Conductance Regulator Nonsense Mutations.

Author

Mutyam V, Du M, Xue X, Keeling KM, White EL, Bostwick JR, Rasmussen L, Liu B, Mazur M, Hong JS, Falk Libby E, Liang F, Shang H, Mense M, Suto MJ, Bedwell DM, and Rowe SM

Subjects
Animals, Cell Line, Codon, Nonsense genetics, Cystic Fibrosis genetics, Cystic Fibrosis Transmembrane Conductance Regulator drug effects, Drug Evaluation, Preclinical methods, Humans, Luciferases metabolism, Rats, Inbred F344, Real-Time Polymerase Chain Reaction, Codon, Nonsense drug effects, Cystic Fibrosis drug therapy, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Drug Discovery methods
Abstract

Rationale: Premature termination codons (PTCs) in the cystic fibrosis transmembrane conductance regulator (CFTR) gene cause cystic fibrosis (CF). Several agents are known to suppress PTCs but are poorly efficacious or toxic., Objectives: To determine whether there are clinically available agents that elicit translational readthrough and improve CFTR function sufficient to confer therapeutic benefit to patients with CF with PTCs., Methods: Two independent screens, firefly luciferase and CFTR-mediated transepithelial chloride conductance assay, were performed on a library of 1,600 clinically approved compounds using fisher rat thyroid cells stably transfected with stop codons. Select agents were further evaluated using secondary screening assays including short circuit current analysis on primary cells from patients with CF. In addition, the effect of CFTR modulators (ivacaftor) was tested in combination with the most efficacious agents., Measurements and Main Results: From the primary screen, 48 agents were selected as potentially active. Following confirmatory tests in the transepithelial chloride conductance assay and prioritizing agents based on favorable pharmacologic properties, eight agents were advanced for secondary screening. Ivacaftor significantly increased short circuit current following forskolin stimulation in cells treated with pyranoradine tetraphosphate, potassium p-aminobenzoate, and escin as compared with vehicle control. Escin, an herbal agent, consistently induced readthrough activity as demonstrated by enhanced CFTR expression and function in vitro., Conclusions: Clinically approved drugs identified as potential readthrough agents, in combination with ivacaftor, may induce nonsense suppression to restore therapeutic levels of CFTR function. One or more agents may be suitable to advance to human testing.

Published
2016
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32. Therapeutic Approaches to Acquired Cystic Fibrosis Transmembrane Conductance Regulator Dysfunction in Chronic Bronchitis.

Author

Solomon GM, Raju SV, Dransfield MT, and Rowe SM

Subjects
Bronchitis, Chronic metabolism, Cystic Fibrosis metabolism, Cystic Fibrosis therapy, Humans, Smoking metabolism, Adrenal Cortex Hormones therapeutic use, Anti-Bacterial Agents therapeutic use, Bronchitis, Chronic therapy, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Expectorants therapeutic use, Physical Therapy Modalities
Abstract

Chronic obstructive pulmonary disease is a common cause of morbidity and a rising cause of mortality worldwide. Its rising impact indicates the ongoing unmet need for novel and effective therapies. Previous work has established a pathophysiological link between the chronic bronchitis phenotype of chronic obstructive pulmonary disease and cystic fibrosis as well as phenotypic similarities between these two airways diseases. An extensive body of evidence has established that cigarette smoke and its constituents contribute to acquired dysfunction of the cystic fibrosis transmembrane conductance regulator (CFTR) protein in the airways, pointing to a mechanistic link with smoking-related and chronic bronchitis. Recent interest surrounding new drugs that target both mutant and wild-type CFTR channels has paved the way for a new treatment opportunity addressing the mucus defect in chronic bronchitis. We review the clinical and pathologic evidence for modulating CFTR to address acquired CFTR dysfunction and pragmatic issues surrounding clinical trials as well as a discussion of other ion channels that may represent alternative therapeutic targets.

Published
2016
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34. Defective innate immunity and hyperinflammation in newborn cystic fibrosis transmembrane conductance regulator-knockout ferret lungs.

Author

Keiser NW, Birket SE, Evans IA, Tyler SR, Crooke AK, Sun X, Zhou W, Nellis JR, Stroebele EK, Chu KK, Tearney GJ, Stevens MJ, Harris JK, Rowe SM, and Engelhardt JF

Subjects
Animals, Animals, Newborn, Cystic Fibrosis genetics, Cystic Fibrosis metabolism, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Cytokines metabolism, Ferrets, Gene Knockout Techniques, Immunity, Innate, Inflammation Mediators metabolism, Mucociliary Clearance, Proteome metabolism, Pseudomonas Infections immunology, Pseudomonas Infections microbiology, Pseudomonas aeruginosa immunology, Trachea pathology, Cystic Fibrosis immunology, Cystic Fibrosis Transmembrane Conductance Regulator genetics
Abstract

Mucociliary clearance (MCC) and submucosal glands are major components of airway innate immunity that have impaired function in cystic fibrosis (CF). Although both of these defense systems develop postnatally in the ferret, the lungs of newborn ferrets remain sterile in the presence of a functioning cystic fibrosis transmembrane conductance regulator gene. We evaluated several components of airway innate immunity and inflammation in the early CF ferret lung. At birth, the rates of MCC did not differ between CF and non-CF animals, but the height of the airway surface liquid was significantly reduced in CF newborn ferrets. CF ferrets had impaired MCC after 7 days of age, despite normal rates of ciliogenesis. Only non-CF ferrets eradicated Pseudomonas directly introduced into the lung after birth, whereas both genotypes could eradicate Staphylococcus. CF bronchoalveolar lavage fluid (BALF) had significantly lower antimicrobial activity selectively against Pseudomonas than non-CF BALF, which was insensitive to changes in pH and bicarbonate. Liquid chromatography-tandem mass spectrometry and cytokine analysis of BALF from sterile Caesarean-sectioned and nonsterile naturally born animals demonstrated CF-associated disturbances in IL-8, TNF-α, and IL-β, and pathways that control immunity and inflammation, including the complement system, macrophage functions, mammalian target of rapamycin signaling, and eukaryotic initiation factor 2 signaling. Interestingly, during the birth transition, IL-8 was selectively induced in CF BALF, despite no genotypic difference in bacterial load shortly after birth. These results suggest that newborn CF ferrets have defects in both innate immunity and inflammatory signaling that may be important in the early onset and progression of lung disease in these animals.

Published
2015
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35. An autoregulatory mechanism governing mucociliary transport is sensitive to mucus load.

Author

Liu L, Shastry S, Byan-Parker S, Houser G, K Chu K, Birket SE, Fernandez CM, Gardecki JA, Grizzle WE, Wilsterman EJ, Sorscher EJ, Rowe SM, and Tearney GJ

Subjects
Animals, Calcium metabolism, Cells, Cultured, Cilia metabolism, Homeostasis, Humans, Microscopy, Confocal, Microscopy, Fluorescence, Time Factors, Tomography, Optical Coherence methods, Viscosity, Epithelial Cells metabolism, Mucociliary Clearance, Mucus metabolism, Respiratory Mucosa metabolism, Trachea metabolism
Abstract

Mucociliary clearance, characterized by mucus secretion and its conveyance by ciliary action, is a fundamental physiological process that plays an important role in host defense. Although it is known that ciliary activity changes with chemical and mechanical stimuli, the autoregulatory mechanisms that govern ciliary activity and mucus transport in response to normal and pathophysiological variations in mucus are not clear. We have developed a high-speed, 1-μm-resolution, cross-sectional imaging modality, termed micro-optical coherence tomography (μOCT), which provides the first integrated view of the functional microanatomy of the epithelial surface. We monitored invasion of the periciliary liquid (PCL) layer by mucus in fully differentiated human bronchial epithelial cultures and full thickness swine trachea using μOCT. We further monitored mucociliary transport (MCT) and intracellular calcium concentration simultaneously during invasion of the PCL layer by mucus using colocalized μOCT and confocal fluorescence microscopy in cell cultures. Ciliary beating and mucus transport are up-regulated via a calcium-dependent pathway when mucus causes a reduction in the PCL layer and cilia height. When the load exceeds a physiological limit of approximately 2 μm, this gravity-independent autoregulatory mechanism can no longer compensate, resulting in diminished ciliary motion and abrogation of stimulated MCT. A fundamental integrated mechanism with specific operating limits governs MCT in the lung and fails when periciliary layer compression and mucus viscosity exceeds normal physiologic limits.

Published
2014
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36. A functional anatomic defect of the cystic fibrosis airway.

Author

Birket SE, Chu KK, Liu L, Houser GH, Diephuis BJ, Wilsterman EJ, Dierksen G, Mazur M, Shastry S, Li Y, Watson JD, Smith AT, Schuster BS, Hanes J, Grizzle WE, Sorscher EJ, Tearney GJ, and Rowe SM

Subjects
Animals, Cells, Cultured, Disease Models, Animal, Epithelium pathology, Humans, In Vitro Techniques, Mucociliary Clearance physiology, Swine, Tomography, Optical Coherence methods, Cystic Fibrosis pathology, Cystic Fibrosis physiopathology, Epithelium physiopathology, Trachea pathology, Trachea physiopathology
Abstract

Rationale: The mechanisms underlying cystic fibrosis (CF) lung disease pathogenesis are unknown., Objectives: To establish mechanisms linking anion transport with the functional microanatomy, we evaluated normal and CF piglet trachea as well as adult swine trachea in the presence of selective anion inhibitors., Methods: We investigated airway functional microanatomy using microoptical coherence tomography, a new imaging modality that concurrently quantifies multiple functional parameters of airway epithelium in a colocalized fashion., Measurements and Main Results: Tracheal explants from wild-type swine demonstrated a direct link between periciliary liquid (PCL) hydration and mucociliary transport (MCT) rates, a relationship frequently invoked but never experimentally confirmed. However, in CF airways this relationship was completely disrupted, with greater PCL depths associated with slowest transport rates. This disrupted relationship was recapitulated by selectively inhibiting bicarbonate transport in vitro and ex vivo. CF mucus exhibited increased viscosity in situ due to the absence of bicarbonate transport, explaining defective MCT that occurs even in the presence of adequate PCL hydration., Conclusions: An inherent defect in CF airway surface liquid contributes to delayed MCT beyond that caused by airway dehydration alone and identifies a fundamental mechanism underlying the pathogenesis of CF lung disease in the absence of antecedent infection or inflammation.

Published
2014
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37. Clinical mechanism of the cystic fibrosis transmembrane conductance regulator potentiator ivacaftor in G551D-mediated cystic fibrosis.

Author

Rowe SM, Heltshe SL, Gonska T, Donaldson SH, Borowitz D, Gelfond D, Sagel SD, Khan U, Mayer-Hamblett N, Van Dalfsen JM, Joseloff E, and Ramsey BW

Subjects
Adolescent, Adult, Aminophenols therapeutic use, Biomarkers metabolism, Child, Cystic Fibrosis genetics, Cystic Fibrosis metabolism, Cystic Fibrosis microbiology, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Female, Follow-Up Studies, Forced Expiratory Volume drug effects, Genetic Markers, Hospitalization statistics & numerical data, Humans, Hydrogen-Ion Concentration drug effects, Intestine, Small metabolism, Lung metabolism, Lung microbiology, Lung physiopathology, Male, Microbiota drug effects, Mucociliary Clearance drug effects, Mutation, Pseudomonas Infections complications, Pseudomonas Infections diagnosis, Pseudomonas Infections prevention & control, Pseudomonas aeruginosa isolation & purification, Quinolones therapeutic use, Respiratory System Agents therapeutic use, Sputum metabolism, Sputum microbiology, Sweat drug effects, Sweat metabolism, Treatment Outcome, Young Adult, Aminophenols pharmacology, Cystic Fibrosis drug therapy, Intestine, Small drug effects, Lung drug effects, Quinolones pharmacology, Respiratory System Agents pharmacology
Abstract

Rationale: Ivacaftor is a cystic fibrosis transmembrane conductance regulator (CFTR) potentiator recently approved for patients with CF age 6 and older with the G551D mutation., Objectives: To evaluate ivacaftor in a postapproval setting and determine mechanism of action and response of clinically relevant markers., Methods: We conducted a longitudinal cohort study in 2012-2013 in G551D CF patients age 6 and older with no prior exposure to ivacaftor. Study assessments were performed at baseline, 1, 3, and 6 months after ivacaftor initiation. Substudies evaluated mucociliary clearance, β-adrenergic sweat secretion rate, gastrointestinal pH, and sputum inflammation and microbiology Measurements and Main Results: A total of 151 of 153 subjects were prescribed ivacaftor and 88% completed the study through 6 months. FEV1 % predicted improved from baseline to 6 months (mean absolute change, 6.7%; P < 0.001). Similarly, body mass index improved from baseline to 6 months (mean change, 0.8 kg/m(2); P < 0.001). Sweat chloride decreased from baseline to 6 months (mean change, -53.8 mmol/L; 95% confidence interval, -57.7 to -49.9; P < 0.001), reflecting augmented CFTR function. There was significant improvement in hospitalization rate (P < 0.001) and Pseudomonas aeruginosa burden (P < 0.01). Significant improvements in mucociliary clearance (P < 0.001), gastrointestinal pH (P = 0.001), and microbiome were also observed, providing clinical mechanisms underlying the therapeutic benefit of ivacaftor., Conclusions: Significant clinical and physiologic improvements were observed on initiation of ivacaftor in a broad patient population, including reduced infection with P. aeruginosa. Biomarker studies substantially improve the understanding of the mechanistic consequences of CFTR modulation on pulmonary and gastrointestinal physiology.

Published
2014
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38. Synthetic aminoglycosides efficiently suppress cystic fibrosis transmembrane conductance regulator nonsense mutations and are enhanced by ivacaftor.

Author

Xue X, Mutyam V, Tang L, Biswas S, Du M, Jackson LA, Dai Y, Belakhov V, Shalev M, Chen F, Schacht J, J Bridges R, Baasov T, Hong J, Bedwell DM, and Rowe SM

Subjects
Aminoglycosides chemical synthesis, Aminoglycosides pharmacokinetics, Aminoglycosides toxicity, Aminophenols pharmacokinetics, Animals, Biological Transport, Cell Line, Chlorides metabolism, Cystic Fibrosis genetics, Cystic Fibrosis metabolism, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Disease Models, Animal, Drug Synergism, Genes, Reporter, Humans, Luciferases genetics, Luciferases metabolism, Mice, Mice, Inbred CFTR, Mice, Transgenic, Organ of Corti drug effects, Organ of Corti pathology, Quinolones pharmacokinetics, Rats, Rats, Inbred F344, Time Factors, Transfection, Aminoglycosides pharmacology, Aminophenols pharmacology, Codon, Nonsense drug effects, Cystic Fibrosis drug therapy, Cystic Fibrosis Transmembrane Conductance Regulator drug effects, Quinolones pharmacology
Abstract

New drugs are needed to enhance premature termination codon (PTC) suppression to treat the underlying cause of cystic fibrosis (CF) and other diseases caused by nonsense mutations. We tested new synthetic aminoglycoside derivatives expressly developed for PTC suppression in a series of complementary CF models. Using a dual-luciferase reporter system containing the four most prevalent CF transmembrane conductance regulator (CFTR) nonsense mutations (G542X, R553X, R1162X, and W1282X) within their local sequence contexts (the three codons on either side of the PTC), we found that NB124 promoted the most readthrough of G542X, R1162X, and W1282X PTCs. NB124 also restored full-length CFTR expression and chloride transport in Fischer rat thyroid cells stably transduced with a CFTR-G542XcDNA transgene, and was superior to gentamicin and other aminoglycosides tested. NB124 restored CFTR function to roughly 7% of wild-type activity in primary human bronchial epithelial (HBE) CF cells (G542X/delF508), a highly relevant preclinical model with endogenous CFTR expression. Efficacy was further enhanced by addition of the CFTR potentiator, ivacaftor (VX-770), to airway cells expressing CFTR PTCs. NB124 treatment rescued CFTR function in a CF mouse model expressing a human CFTR-G542X transgene; efficacy was superior to gentamicin and exhibited favorable pharmacokinetic properties, suggesting that in vitro results translated to clinical benefit in vivo. NB124 was also less cytotoxic than gentamicin in a tissue-based model for ototoxicity. These results provide evidence that NB124 and other synthetic aminoglycosides provide a 10-fold improvement in therapeutic index over gentamicin and other first-generation aminoglycosides, providing a promising treatment for a wide array of CFTR nonsense mutations.

Published
2014
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39. Cystic fibrosis transmembrane conductance regulator activation by roflumilast contributes to therapeutic benefit in chronic bronchitis.

Author

Lambert JA, Raju SV, Tang LP, McNicholas CM, Li Y, Courville CA, Farris RF, Coricor GE, Smoot LH, Mazur MM, Dransfield MT, Bolger GB, and Rowe SM

Subjects
Aminophenols pharmacology, Aminopyridines toxicity, Animals, Benzamides toxicity, Bronchi metabolism, Bronchi physiopathology, Bronchitis, Chronic metabolism, Bronchitis, Chronic physiopathology, Cells, Cultured, Cyclic AMP, Cyclopropanes pharmacology, Cyclopropanes toxicity, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Diarrhea chemically induced, Diarrhea metabolism, Dose-Response Relationship, Drug, Epithelial Cells metabolism, Humans, Intestinal Secretions metabolism, Intestine, Small drug effects, Intestine, Small metabolism, Membrane Potentials, Mice, Mucociliary Clearance drug effects, Phosphodiesterase 4 Inhibitors toxicity, Quinolones pharmacology, Smoke adverse effects, Smoking adverse effects, Time Factors, Aminopyridines pharmacology, Benzamides pharmacology, Bronchi drug effects, Bronchitis, Chronic drug therapy, Cystic Fibrosis Transmembrane Conductance Regulator agonists, Epithelial Cells drug effects, Phosphodiesterase 4 Inhibitors pharmacology
Abstract

Cigarette smoking causes acquired cystic fibrosis transmembrane conductance regulator (CFTR) dysfunction and is associated with delayed mucociliary clearance and chronic bronchitis. Roflumilast is a clinically approved phosphodiesterase 4 inhibitor that improves lung function in patients with chronic bronchitis. We hypothesized that its therapeutic benefit was related in part to activation of CFTR. Primary human bronchial epithelial (HBE) cells, Calu-3, and T84 monolayers were exposed to whole cigarette smoke (WCS) or air with or without roflumilast treatment. CFTR-dependent ion transport was measured in modified Ussing chambers. Airway surface liquid (ASL) was determined by confocal microscopy. Intestinal fluid secretion of ligated murine intestine was monitored ex vivo. Roflumilast activated CFTR-dependent anion transport in normal HBE cells with a half maximal effective concentration of 2.9 nM. Roflumilast partially restored CFTR activity in WCS-exposed HBE cells (5.3 ± 1.1 μA/cm(2) vs. 1.2 ± 0.2 μA/cm(2) [control]; P < 0.05) and was additive with ivacaftor, a specific CFTR potentiator approved for the treatment of CF. Roflumilast improved the depleted ASL depth of HBE monolayers exposed to WCS (9.0 ± 3.1 μm vs. 5.6 ± 2.0 μm [control]; P < 0.05), achieving 79% of that observed in air controls. CFTR activation by roflumilast also induced CFTR-dependent fluid secretion in murine intestine, increasing the wet:dry ratio and the diameter of ligated murine segments. Roflumilast activates CFTR-mediated anion transport in airway and intestinal epithelia via a cyclic adenosine monophosphate-dependent pathway and partially reverses the deleterious effects of WCS, resulting in augmented ASL depth. Roflumilast may benefit patients with chronic obstructive pulmonary disease with chronic bronchitis by activating CFTR, which may also underlie noninfectious diarrhea caused by roflumilast.

Published
2014
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40. Cigarette smoke induces systemic defects in cystic fibrosis transmembrane conductance regulator function.

Author

Raju SV, Jackson PL, Courville CA, McNicholas CM, Sloane PA, Sabbatini G, Tidwell S, Tang LP, Liu B, Fortenberry JA, Jones CW, Boydston JA, Clancy JP, Bowen LE, Accurso FJ, Blalock JE, Dransfield MT, and Rowe SM

Subjects
Aged, Animals, Chlorides blood, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Exercise Tolerance drug effects, Exercise Tolerance physiology, Female, Humans, Intestinal Mucosa chemistry, Male, Mice, Middle Aged, Nasal Mucosa chemistry, Smoking metabolism, Smoking physiopathology, Sodium blood, Spirometry, Acrolein blood, Cystic Fibrosis Transmembrane Conductance Regulator drug effects, Pulmonary Disease, Chronic Obstructive metabolism, Smoking adverse effects, Sweat chemistry
Abstract

Rationale: Several extrapulmonary disorders have been linked to cigarette smoking. Smoking is reported to cause cystic fibrosis transmembrane conductance regulator (CFTR) dysfunction in the airway, and is also associated with pancreatitis, male infertility, and cachexia, features characteristic of cystic fibrosis and suggestive of an etiological role for CFTR., Objectives: To study the effect of cigarette smoke on extrapulmonary CFTR function., Methods: Demographics, spirometry, exercise tolerance, symptom questionnaires, CFTR genetics, and sweat chloride analysis were obtained in smokers with and without chronic obstructive pulmonary disease (COPD). CFTR activity was measured by nasal potential difference in mice and by Ussing chamber electrophysiology in vitro. Serum acrolein levels were estimated with mass spectroscopy., Measurements and Main Results: Healthy smokers (29.45 ± 13.90 mEq), smokers with COPD (31.89 ± 13.9 mEq), and former smokers with COPD (25.07 ± 10.92 mEq) had elevated sweat chloride levels compared with normal control subjects (14.5 ± 7.77 mEq), indicating reduced CFTR activity in a nonrespiratory organ. Intestinal current measurements also demonstrated a 65% decrease in CFTR function in smokers compared with never smokers. CFTR activity was decreased by 68% in normal human bronchial epithelial cells exposed to plasma from smokers, suggesting that one or more circulating agents could confer CFTR dysfunction. Cigarette smoke-exposed mice had decreased CFTR activity in intestinal epithelium (84.3 and 45%, after 5 and 17 wk, respectively). Acrolein, a component of cigarette smoke, was higher in smokers, blocked CFTR by inhibiting channel gating, and was attenuated by antioxidant N-acetylcysteine, a known scavenger of acrolein., Conclusions: Smoking causes systemic CFTR dysfunction. Acrolein present in cigarette smoke mediates CFTR defects in extrapulmonary tissues in smokers.

Published
2013
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41. Activation of the cystic fibrosis transmembrane conductance regulator by the flavonoid quercetin: potential use as a biomarker of ΔF508 cystic fibrosis transmembrane conductance regulator rescue.

Author

Pyle LC, Fulton JC, Sloane PA, Backer K, Mazur M, Prasain J, Barnes S, Clancy JP, and Rowe SM

Subjects
Animals, Cell Membrane drug effects, Cell Membrane metabolism, Chlorides metabolism, Cyclic AMP metabolism, Cystic Fibrosis Transmembrane Conductance Regulator chemistry, Dose-Response Relationship, Drug, Drug Evaluation, Preclinical, Humans, Ion Transport drug effects, Membrane Potentials drug effects, Mice, Mutant Proteins chemistry, NIH 3T3 Cells, Nasal Mucosa drug effects, Nasal Mucosa metabolism, Phosphorylation drug effects, Protein Structure, Tertiary, Rats, Receptors, Adrenergic, beta-2 metabolism, Biomarkers metabolism, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Ion Channel Gating drug effects, Mutant Proteins metabolism, Quercetin pharmacology
Abstract

Therapies to correct the ΔF508 cystic fibrosis transmembrane conductance regulator (CFTR) folding defect require sensitive methods to detect channel activity in vivo. The β₂ adrenergic receptor agonists, which provide the CFTR stimuli commonly used in nasal potential difference assays, may not overcome the channel gating defects seen in ΔF508 CFTR after plasma membrane localization. In this study, we identify an agent, quercetin, that enhances the detection of surface ΔF508 CFTR, and is suitable for nasal perfusion. A screen of flavonoids in CFBE41o⁻ cells stably transduced with ΔF508 CFTR, corrected to the cell surface with low temperature growth, revealed that quercetin stimulated an increase in the short-circuit current. This increase was dose-dependent in both Fisher rat thyroid and CFBE41o⁻ cells. High concentrations inhibited Cl⁻ conductance. In CFBE41o⁻ airway cells, quercetin (20 μg/ml) activated ΔF508 CFTR, whereas the β₂ adrenergic receptor agonist isoproterenol did not. Quercetin had limited effects on cAMP levels, but did not produce detectable phosphorylation of the isolated CFTR R-domain, suggesting an activation independent of channel phosphorylation. When perfused in the nares of Cftr(+) mice, quercetin (20 μg/ml) produced a hyperpolarization of the potential difference that was absent in Cftr(-/-) mice. Finally, quercetin-induced, dose-dependent hyperpolarization of the nasal potential difference was also seen in normal human subjects. Quercetin activates CFTR-mediated anion transport in respiratory epithelia in vitro and in vivo, and may be useful in studies intended to detect the rescue of ΔF508 CFTR by nasal potential difference.

Published
2010
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42. Restoration of W1282X CFTR activity by enhanced expression.

Author

Rowe SM, Varga K, Rab A, Bebok Z, Byram K, Li Y, Sorscher EJ, and Clancy JP

Subjects
Amino Acid Substitution, Butyrates pharmacology, Cell Line, Gene Expression drug effects, Gentamicins pharmacology, HeLa Cells, Humans, Ion Transport, RNA, Messenger genetics, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, Suppression, Genetic, Transduction, Genetic, Codon, Nonsense drug effects, Cystic Fibrosis genetics, Cystic Fibrosis metabolism, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Cystic Fibrosis Transmembrane Conductance Regulator metabolism
Abstract

Cystic fibrosis results from mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene. Premature termination codons represent a common minority of CFTR mutations, and are caused by base pair substitutions that produce abnormal stop codons in the coding sequence. Select aminoglycosides induce "translational readthrough" of premature stop codons and have been shown to restore full-length functional protein in a number of preclinical and clinical settings. We studied two well-described premature termination codons found in the distal open reading frame of CFTR, W1282X and R1162X, expressed in polarizing and nonpolarizing cells. Our findings indicate that W1282X CFTR-expressing cells demonstrate significantly greater CFTR activity when overexpressed compared with R1162X CFTR cells, even when truncated protein is the predominant form. In addition, our results show that the combination of stimulated expression and stop codon suppression produces additive effects on CFTR-mediated ion transport. These findings provide evidence that W1282X CFTR exhibits membrane localization and retained chloride channel function after enhanced expression, and suggest that patients harboring this mutation may be more susceptible to CFTR rescue.

Published
2007
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43. Detection of cystic fibrosis transmembrane conductance regulator activity in early-phase clinical trials.

Author

Rowe SM, Accurso F, and Clancy JP

Subjects
Biomarkers analysis, Cystic Fibrosis therapy, Cystic Fibrosis Transmembrane Conductance Regulator analysis, Feasibility Studies, Humans, Nasal Mucosa chemistry, Reproducibility of Results, Sensitivity and Specificity, Sweat chemistry, Cystic Fibrosis physiopathology, Cystic Fibrosis Transmembrane Conductance Regulator physiology
Abstract

Advances in our understanding of cystic fibrosis pathogenesis have led to strategies directed toward treatment of underlying causes of the disease rather than treatments of disease-related symptoms. To expedite evaluation of these emerging therapies, early-phase clinical trials require extension of in vivo cystic fibrosis transmembrane conductance regulator (CFTR)-detecting assays to multicenter trial formats, including nasal potential difference and sweat chloride measurements. Both of these techniques can be used to fulfill diagnostic criteria for the disease, and can discriminate various levels of CFTR function. Full realization of these assays in multicenter clinical trials requires identification of sources of nonbiological intra- and intersite variability, and careful attention to study design and statistical analysis of study-generated data. In this review, we discuss several issues important to the performance of these assays, including efforts to identify and address aspects that can contribute to inconsistent and/or potentially erroneous results. Adjunctive means of detecting CFTR including mRNA expression, immunocytochemical localization, and other methods are also discussed. Recommendations are presented to advance our understanding of these biomarkers and to improve their capacity to predict cystic fibrosis outcomes.

Published
2007
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44. No detectable improvements in cystic fibrosis transmembrane conductance regulator by nasal aminoglycosides in patients with cystic fibrosis with stop mutations.

Author

Clancy JP, Rowe SM, Bebok Z, Aitken ML, Gibson R, Zeitlin P, Berclaz P, Moss R, Knowles MR, Oster RA, Mayer-Hamblett N, and Ramsey B

Subjects
Adolescent, Adult, Child, Codon, Nonsense, Codon, Terminator, Cohort Studies, Female, Gentamicins pharmacology, Heterozygote, Humans, Male, Middle Aged, Tobramycin pharmacology, Administration, Intranasal, Aminoglycosides administration & dosage, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Cystic Fibrosis Transmembrane Conductance Regulator physiology, Mutation
Abstract

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

Published
2007
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