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Mutation Update of the CLCN5 Gene Responsible for Dent Disease 1.

Mansour-Hendili, Lamisse; Blanchard, Anne; Le Pottier, Nelly; Roncelin, Isabelle; Lourdel, Stéphane; Treard, Cyrielle; González, Wendy; Vergara-Jaque, Ariela; Morin, Gilles; Colin, Estelle; Holder-Espinasse, Muriel; Bacchetta, Justine; Baudouin, Véronique; Benoit, Stéphane; Bérard, Etienne; Bourdat-Michel, Guylhène; Bouchireb, Karim; Burtey, Stéphane; Cailliez, Mathilde; Cardon, Gérard; Cartery, Claire; Champion, Gerard; Chauveau, Dominique; Cochat, Pierre; Dahan, Karin; De la Faille, Renaud; Debray, François-Guillaume; Dehoux, Laurenne; Deschenes, Georges; Desport, Estelle; Devuyst, Olivier; Dieguez, Stella; Emma, Francesco; Fischbach, Michel; Fouque, Denis; Fourcade, Jacques; François, Hélène; Gilbert-Dussardier, Brigitte; Hannedouche, Thierry; Houillier, Pascal; Izzedine, Hassan; Janner, Marco; Karras, Alexandre; Knebelmann, Bertrand; Lavocat, Marie-Pierre; Lemoine, Sandrine; Leroy, Valérie; Loirat, Chantal; Macher, Marie-Alice; Martin-Coignard, Dominique.
Hum Mutat; 36(8): 743-52, 2015 Aug.
Artigo em Inglês | MEDLINE | ID: mdl-25907713
Dent disease is a rare X-linked tubulopathy characterized by low molecular weight proteinuria, hypercalciuria, nephrocalcinosis and/or nephrolithiasis, progressive renal failure, and variable manifestations of other proximal tubule dysfunctions. It often progresses over a few decades to chronic renal insufficiency, and therefore molecular characterization is important to allow appropriate genetic counseling. Two genetic subtypes have been described to date: Dent disease 1 is caused by mutations of the CLCN5 gene, coding for the chloride/proton exchanger ClC-5; and Dent disease 2 by mutations of the OCRL gene, coding for the inositol polyphosphate 5-phosphatase OCRL-1. Herein, we review previously reported mutations (n = 192) and their associated phenotype in 377 male patients with Dent disease 1 and describe phenotype and novel (n = 42) and recurrent mutations (n = 24) in a large cohort of 117 Dent disease 1 patients belonging to 90 families. The novel missense and in-frame mutations described were mapped onto a three-dimensional homology model of the ClC-5 protein. This analysis suggests that these mutations affect the dimerization process, helix stability, or transport. The phenotype of our cohort patients supports and extends the phenotype that has been reported in smaller studies.
Selo DaSilva