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  • GPR179 is required for depolarizing bipolar cell function and is mutated in autosomal-recessive complete congenital stationary night blindness.

GPR179 is required for depolarizing bipolar cell function and is mutated in autosomal-recessive complete congenital stationary night blindness.

American journal of human genetics (2012-02-14)
Neal S Peachey, Thomas A Ray, Ralph Florijn, Lucy B Rowe, Trijntje Sjoerdsma, Susana Contreras-Alcantara, Kenkichi Baba, Gianluca Tosini, Nikita Pozdeyev, P Michael Iuvone, Pasano Bojang, Jillian N Pearring, Huibert Jan Simonsz, Maria van Genderen, David G Birch, Elias I Traboulsi, Allison Dorfman, Irma Lopez, Huanan Ren, Andrew F X Goldberg, Patsy M Nishina, Pierre Lachapelle, Maureen A McCall, Robert K Koenekoop, Arthur A B Bergen, Maarten Kamermans, Ronald G Gregg
RÉSUMÉ

Complete congenital stationary night blindness (cCSNB) is a clinically and genetically heterogeneous group of retinal disorders characterized by nonprogressive impairment of night vision, absence of the electroretinogram (ERG) b-wave, and variable degrees of involvement of other visual functions. We report here that mutations in GPR179, encoding an orphan G protein receptor, underlie a form of autosomal-recessive cCSNB. The Gpr179(nob5/nob5) mouse model was initially discovered by the absence of the ERG b-wave, a component that reflects depolarizing bipolar cell (DBC) function. We performed genetic mapping, followed by next-generation sequencing of the critical region and detected a large transposon-like DNA insertion in Gpr179. The involvement of GPR179 in DBC function was confirmed in zebrafish and humans. Functional knockdown of gpr179 in zebrafish led to a marked reduction in the amplitude of the ERG b-wave. Candidate gene analysis of GPR179 in DNA extracted from patients with cCSNB identified GPR179-inactivating mutations in two patients. We developed an antibody against mouse GPR179, which robustly labeled DBC dendritic terminals in wild-type mice. This labeling colocalized with the expression of GRM6 and was absent in Gpr179(nob5/nob5) mutant mice. Our results demonstrate that GPR179 plays a critical role in DBC signal transduction and expands our understanding of the mechanisms that mediate normal rod vision.