Novel gain-of-function mutation of TRPC6 Q134P contributes to late onset focal segmental glomerulosclerosis in a Chinese pedigree.

Abstract

Focal segmental glomerulosclerosis (FSGS, OMIM®#603 965) is an overriding cause that leads to end-stage renal disease (ESRD). As a member of TRP superfamily, mutations of TRPC6 gene are closely linked to FSGS. By now, 20 missense mutations have been reported, among them, nine gain-of-function (GOF), and five loss-of-function (LOF) mutations have been recognized according to the effect on TRPC6 channel activity. Systematic investigations of functional mutations will provide valuable evidences for understanding the pathophysiology of TRPC6 involved in FSGS. The aim of this study is to investigate the pathogenicity of a novel TRPC6 mutation p.Q134P in FSGS. High-throughput sequencing was performed to analyse 436 genes which are associated with hereditary kidney diseases in a Chinese pedigree. Then we constructed TRPC6 expression plasmids of wide type and variant. Immunofluorescence, cell-surface biotinylation assays and electrophysiology were used to analyse the localization, cell surface expression, and calcium transport activity of TRPC6. A novel variant c.401A>C (p.Q134P) in exon 2 of TRPC6 gene was found. There was no significant difference between the expression levels of p.Q134P mutant and WT TRPC6 protein in the whole cell lysate and cell-surface fraction. Q134P mutant-bearing TRPC6 elicited much higher Ca+ current amplitude than WT. We identified a novel GOF mutation p.Q134P of TRPC6 which contributed to late-onset FSGS. Our study expands the mutational spectrum of TRPC6 associated with FSGS and furtherly supports the hypothesis of calcium dose-response dependency that a moderate increased calcium influx elicited a mild FSGS phenotype.