Karl P Schlingmann1, Aparna Renigunta2, Ewout J Hoorn3, Anna-Lena Forst4, Vijay Renigunta5, Velko Atanasov6, Sinthura Mahendran6, Tahsin Stefan Barakat7, Valentine Gillion8, Nathalie Godefroid9, Alice S Brooks7, Dorien Lugtenberg10, Jennifer Lake11, Huguette Debaix11, Christoph Rudin12, Bertrand Knebelmann13,14, Stephanie Tellier15,16, Caroline Rousset-Rouvière17, Daan Viering18, Jeroen H F de Baaij18, Stefanie Weber2, Oleg Palygin19, Alexander Staruschenko19,20, Robert Kleta21,22, Pascal Houillier14,23,24, Detlef Bockenhauer21,22, Olivier Devuyst8,11, Rosa Vargas-Poussou14,24,25, Richard Warth4, Anselm A Zdebik6,21, Martin Konrad26. 1. Department of General Pediatrics, Pediatric Nephrology, University Children's Hospital, Munster, Germany karlpeter.schlingmann@ukmuenster.de. 2. Department of Pediatric Nephrology, Marburg Kidney Research Center, Philipps University, Marburg, Germany. 3. Division of Nephrology and Transplantation, Department of Internal Medicine, Erasmus Medical Center, Rotterdam, The Netherlands. 4. Department of Physiology, Medical Cell Biology, University of Regensburg, Regensburg, Germany. 5. Department of Neurophysiology, Institute of Physiology and Pathophysiology, Philipps University, Marburg, Germany. 6. Department of Neuroscience, Physiology and Pharmacology, University College London, London, United Kingdom. 7. Department of Clinical Genetics, Erasmus Medical Center, Rotterdam, The Netherlands. 8. Division of Nephrology, Saint-Luc Academic Hospital, Université Catholique Louvain, Brussels, Belgium. 9. Division of Pediatric Nephrology, Saint-Luc Academic Hospital, Université Catholique Louvain, Brussels, Belgium. 10. Department of Human Genetics, Radboud University Medical Center, Nijmegen, The Netherlands. 11. Department of Physiology, Mechanism of Inherited Kidney Disorders, University of Zurich, Zurich, Switzerland. 12. Department of Pediatric Nephrology, University Children's Hospital, Basel, Switzerland. 13. Department of Nephrology-Transplantation, Assistance Publique Hôpitaux de Paris, Hôpital Necker, Paris, France. 14. Reference Center for Hereditary Kidney and Childhood Diseases (MAladies Renales Hereditaires de l'Enfant et de l'Adulte), Paris, France. 15. Department of Pediatric Nephrology, and Rheumatology, French Reference Center of Rare Renal Diseases (SORARE), CHU Toulouse, Toulouse, France. 16. Division of Rheumatology, Department of Pediatrics, Centre Hospitalier Universitaire de Toulouse, Toulouse, France. 17. Department of Multidisciplinary Pediatrics, Pediatric Nephrology Unit, La Timone, University Hospital of Marseille, Marseille, France. 18. Department of Physiology, Radboud Institute for Molecular Life Sciences, Radboud University Medical Center, Nijmegen, The Netherlands. 19. Department of Physiology, Medical College of Wisconsin, Milwaukee, Wisconsin. 20. Clement J. Zablocki Veterans Affairs Medical Center, Milwaukee, Wisconsin. 21. Department of Renal Medicine, University College London, London, United Kingdom. 22. Department of Paediatric Nephrology, Great Ormond Street Hospital for Children National Health Service Foundation Trust, London, United Kingdom. 23. Department of Physiology, Assistance Publique Hôpitaux de Paris, Hôpital Européen Georges-Pompidou, Paris, France. 24. Department of Renal Physiology, Centre de Recherche des Cordeliers, Institut National de la Santé et de la Recherche Médicale, Sorbonne Université, Université de Paris, Centre National de la Recherche Scientifique, Paris, France. 25. Department of Genetics, Assistance Publique Hôpitaux de Paris, Hôpital Européen Georges-Pompidou, Paris, France. 26. Department of General Pediatrics, Pediatric Nephrology, University Children's Hospital, Munster, Germany.
Abstract
BACKGROUND: The transepithelial transport of electrolytes, solutes, and water in the kidney is a well-orchestrated process involving numerous membrane transport systems. Basolateral potassium channels in tubular cells not only mediate potassium recycling for proper Na+,K+-ATPase function but are also involved in potassium and pH sensing. Genetic defects in KCNJ10 cause EAST/SeSAME syndrome, characterized by renal salt wasting with hypokalemic alkalosis associated with epilepsy, ataxia, and sensorineural deafness. METHODS: A candidate gene approach and whole-exome sequencing determined the underlying genetic defect in eight patients with a novel disease phenotype comprising a hypokalemic tubulopathy with renal salt wasting, disturbed acid-base homeostasis, and sensorineural deafness. Electrophysiologic studies and surface expression experiments investigated the functional consequences of newly identified gene variants. RESULTS: We identified mutations in the KCNJ16 gene encoding KCNJ16, which along with KCNJ15 and KCNJ10, constitutes the major basolateral potassium channel of the proximal and distal tubules, respectively. Coexpression of mutant KCNJ16 together with KCNJ15 or KCNJ10 in Xenopus oocytes significantly reduced currents. CONCLUSIONS: Biallelic variants in KCNJ16 were identified in patients with a novel disease phenotype comprising a variable proximal and distal tubulopathy associated with deafness. Variants affect the function of heteromeric potassium channels, disturbing proximal tubular bicarbonate handling as well as distal tubular salt reabsorption.
BACKGROUND: The transepithelial transport of electrolytes, solutes, and water in the kidney is a well-orchestrated process involving numerous membrane transport systems. Basolateral potassium channels in tubular cells not only mediate potassium recycling for proper Na+,K+-ATPase function but are also involved in potassium and pH sensing. Genetic defects in KCNJ10 cause EAST/SeSAME syndrome, characterized by renal salt wasting with hypokalemic alkalosis associated with epilepsy, ataxia, and sensorineural deafness. METHODS: A candidate gene approach and whole-exome sequencing determined the underlying genetic defect in eight patients with a novel disease phenotype comprising a hypokalemic tubulopathy with renal salt wasting, disturbed acid-base homeostasis, and sensorineural deafness. Electrophysiologic studies and surface expression experiments investigated the functional consequences of newly identified gene variants. RESULTS: We identified mutations in the KCNJ16 gene encoding KCNJ16, which along with KCNJ15 and KCNJ10, constitutes the major basolateral potassium channel of the proximal and distal tubules, respectively. Coexpression of mutant KCNJ16 together with KCNJ15 or KCNJ10 in Xenopus oocytes significantly reduced currents. CONCLUSIONS: Biallelic variants in KCNJ16 were identified in patients with a novel disease phenotype comprising a variable proximal and distal tubulopathy associated with deafness. Variants affect the function of heteromeric potassium channels, disturbing proximal tubular bicarbonate handling as well as distal tubular salt reabsorption.
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