Michael S Bohnen1, Lijiang Ma2, Na Zhu2,3, Hongjian Qi4,3, Conor McClenaghan5, Claudia Gonzaga-Jauregui6, Frederick E Dewey6, John D Overton6, Jeffrey G Reid6, Alan R Shuldiner6, Aris Baras6, Kevin J Sampson1, Marta Bleda7, Charaka Hadinnapola7, Matthias Haimel7, Harm J Bogaard8, Colin Church9, Gerry Coghlan10, Paul A Corris11, Mélanie Eyries12, J Simon R Gibbs13, Barbara Girerd14, Arjan C Houweling8, Marc Humbert14, Christophe Guignabert14, David G Kiely15, Allan Lawrie16, Rob V MacKenzie Ross17, Jennifer M Martin7, David Montani14, Andrew J Peacock9, Joanna Pepke-Zaba18, Florent Soubrier12, Jay Suntharalingam17, Mark Toshner7,18, Carmen M Treacy7, Richard C Trembath19, Anton Vonk Noordegraaf8, John Wharton20, Martin R Wilkins20, Stephen J Wort13,21, Katherine Yates7, Stefan Gräf7,22, Nicholas W Morrell7, Usha Krishnan2, Erika B Rosenzweig2, Yufeng Shen4,3, Colin G Nichols5, Robert S Kass1, Wendy K Chung2. 1. Department of Pharmacology, College of Physicians and Surgeons (M.S.B., K.J.S., R.S.K.), Columbia University, New York, NY. 2. Department of Pediatrics, College of Physicians and Surgeons (L.M., N.Z., U.K., E.B.R., W.K.C.), Columbia University, New York, NY. 3. Department of Systems Biology (N.Z., H.Q., Y.S.), Columbia University, New York, NY. 4. Department of Applied Physics and Applied Mathematics (H.Q., Y.S.), Columbia University, New York, NY. 5. Department of Cell Biology and Physiology (C.M., C.G.N.) and Center for the Investigation of Membrane Excitability Diseases (C.M., C.G.N.), Washington University School of Medicine, Washington University in St. Louis, MO. 6. Regeneron Genetics Center, Regeneron Pharmaceuticals, Inc, Tarrytown, NY (C.G.-J., F.E.D., J.D.O., J.G.R., A.R.S., A.B.). 7. Department of Medicine (M.B., C.H., M.H., J.M.M., M.T., C.M.T., K.Y., S.G., N.W.M.), University of Cambridge, United Kingdom. 8. VU University Medical Center, Amsterdam, the Netherlands (H.J.B., A.C.H., A.V.N.). 9. Golden Jubilee National Hospital, Glasgow, Scotland (C.C., A.J.P.). 10. Royal Free Hospital, London, England (G.C.). 11. Newcastle University (P.A.C.) and Newcastle upon Tyne Hospitals National Health Service Foundation Trust (P.A.C.), United Kingdom. 12. Dépat de Génétique, Hôpital Pitié-Salpêtrière, Assistance Publique-Hôpitaux de Paris (M.E., F.S.) and UMR_S 1166-ICAN, INSERM (Institut National de la Santé et de la Recherche Médicale) (M.E., F.S.), UPMC (Pierre and Marie Curie University) Sorbonne Universités, France. 13. National Heart and Lung Institute, Imperial College London, United Kingdom (J.S.R.G., S.J.W.). 14. AP-HP (Assistance Publique - Hôpitaux de Paris), Centre de référence de l'hypertension pulmonaire sévère, INSERM UMR_S 999, Hôpital Bicêtre, Université Paris-Sud, Université Paris-Saclay, Le Kremlin-Bicêtre, France (B.G., M.H., C.G., D.M.). 15. Sheffield Clinical Research Facility, Royal Hallamshire, Sheffield, United Kingdom (D.G.K.). 16. Department of Infection, Immunity, and Cardiovascular Disease, University of Sheffield, Sheffield, United Kingdom (A.L.). 17. Royal United Bath Hospitals, Bath, United Kingdom (R.V.M.R., J.S.). 18. Papworth Hospital, Cambridge, United Kingdom (J.P.-Z., M.T.). 19. Division of Genetics and Molecular Medicine, King's College London, London, England (R.C.T.). 20. Department of Medicine, Imperial College London, Hammersmith Campus, London, United Kingdom (J.W., M.R.W.). 21. Royal Brompton Hospital, London, United Kingdom (S.J.W.). 22. Department of Hematology (S.G.), Addenbrookes Hospital, University of Cambridge, United Kingdom.
Abstract
BACKGROUND: In pulmonary arterial hypertension (PAH), pathological changes in pulmonary arterioles progressively raise pulmonary artery pressure and increase pulmonary vascular resistance, leading to right heart failure and high mortality rates. Recently, the first potassium channelopathy in PAH, because of mutations in KCNK3, was identified as a genetic cause and pharmacological target. METHODS: Exome sequencing was performed to identify novel genes in a cohort of 99 pediatric and 134 adult-onset group I PAH patients. Novel rare variants in the gene identified were independently identified in a cohort of 680 adult-onset patients. Variants were expressed in COS cells and function assessed by patch-clamp and rubidium flux analysis. RESULTS: We identified a de novo novel heterozygous predicted deleterious missense variant c.G2873A (p.R958H) in ABCC8 in a child with idiopathic PAH. We then evaluated all individuals in the original and a second cohort for rare or novel variants in ABCC8 and identified 11 additional heterozygous predicted damaging ABCC8 variants. ABCC8 encodes SUR1 (sulfonylurea receptor 1)-a regulatory subunit of the ATP-sensitive potassium channel. We observed loss of ATP-sensitive potassium channel function for all ABCC8 variants evaluated and pharmacological rescue of all channel currents in vitro by the SUR1 activator, diazoxide. CONCLUSIONS: Novel and rare missense variants in ABCC8 are associated with PAH. Identified ABCC8 mutations decreased ATP-sensitive potassium channel function, which was pharmacologically recovered.
BACKGROUND: In pulmonary arterial hypertension (PAH), pathological changes in pulmonary arterioles progressively raise pulmonary artery pressure and increase pulmonary vascular resistance, leading to right heart failure and high mortality rates. Recently, the first potassium channelopathy in PAH, because of mutations in KCNK3, was identified as a genetic cause and pharmacological target. METHODS: Exome sequencing was performed to identify novel genes in a cohort of 99 pediatric and 134 adult-onset group I PAH patients. Novel rare variants in the gene identified were independently identified in a cohort of 680 adult-onset patients. Variants were expressed in COS cells and function assessed by patch-clamp and rubidium flux analysis. RESULTS: We identified a de novo novel heterozygous predicted deleterious missense variant c.G2873A (p.R958H) in ABCC8 in a child with idiopathic PAH. We then evaluated all individuals in the original and a second cohort for rare or novel variants in ABCC8 and identified 11 additional heterozygous predicted damaging ABCC8 variants. ABCC8 encodes SUR1 (sulfonylurea receptor 1)-a regulatory subunit of the ATP-sensitive potassium channel. We observed loss of ATP-sensitive potassium channel function for all ABCC8 variants evaluated and pharmacological rescue of all channel currents in vitro by the SUR1 activator, diazoxide. CONCLUSIONS: Novel and rare missense variants in ABCC8 are associated with PAH. Identified ABCC8 mutations decreased ATP-sensitive potassium channel function, which was pharmacologically recovered.
Entities:
Keywords:
electrophysiology; genetics; humans; hypertension, pulmonary; ion channels
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