Steroid-sensitive nephrotic syndrome candidate gene CLVS1 regulates podocyte oxidative stress and endocytosis
Brandon M. Lane, … , Jameela A. Kari, Rasheed Gbadegesin
Brandon M. Lane, … , Jameela A. Kari, Rasheed Gbadegesin
Published December 7, 2021
Citation Information: JCI Insight. 2022;7(2):e152102. https://doi.org/10.1172/jci.insight.152102.
View: Text | PDF
Research Article Nephrology

Steroid-sensitive nephrotic syndrome candidate gene CLVS1 regulates podocyte oxidative stress and endocytosis

Abstract

We performed next-generation sequencing in patients with familial steroid-sensitive nephrotic syndrome (SSNS) and identified a homozygous segregating variant (p.H310Y) in the gene encoding clavesin-1 (CLVS1) in a consanguineous family with 3 affected individuals. Knockdown of the clavesin gene in zebrafish (clvs2) produced edema phenotypes due to disruption of podocyte structure and loss of glomerular filtration barrier integrity that could be rescued by WT CLVS1 but not the p.H310Y variant. Analysis of cultured human podocytes with CRISPR/Cas9-mediated CLVS1 knockout or homozygous H310Y knockin revealed deficits in clathrin-mediated endocytosis and increased susceptibility to apoptosis that could be rescued with corticosteroid treatment, mimicking the steroid responsiveness observed in patients with SSNS. The p.H310Y variant also disrupted binding of clavesin-1 to α-tocopherol transfer protein, resulting in increased reactive oxygen species (ROS) accumulation in CLVS1-deficient podocytes. Treatment of CLVS1-knockout or homozygous H310Y-knockin podocytes with pharmacological ROS inhibitors restored viability to control levels. Taken together, these data identify CLVS1 as a candidate gene for SSNS, provide insight into therapeutic effects of corticosteroids on podocyte cellular dynamics, and add to the growing evidence of the importance of endocytosis and oxidative stress regulation to podocyte function.

Authors

Brandon M. Lane, Megan Chryst-Stangl, Guanghong Wu, Mohamed Shalaby, Sherif El Desoky, Claire C. Middleton, Kinsie Huggins, Amika Sood, Alejandro Ochoa, Andrew F. Malone, Ricardo Vancini, Sara E. Miller, Gentzon Hall, So Young Kim, David N. Howell, Jameela A. Kari, Rasheed Gbadegesin

×

Figure 1

CLVS1 p.H310Y is a potential cause of familial childhood SSNS.

Options: View larger image (or click on image) Download as PowerPoint
CLVS1 p.H310Y is a potential cause of familial childhood SSNS. (A) Pedi...
(A) Pedigree of family with SSNS showing segregation of the homozygous CLVS1 p.H310Y variant (c.928C>T, GRCH37/hg19) with disease. Filled circles and square represent affected individuals; unfilled circles, squares, and diamonds represent unaffected individuals. The parents of the family were estimated from their sequencing data to be second degree relatives (kinship coefficient of 0.106). (B) Regions of homozygosity (ROH) potentially implicated in SSNS. The 5 ROH (blue boxes, spanning each of the ROH on its respective chromosome) are those shared by both children with SSNS (ID 1 and 100) and are not in ROH in any of the unaffected relatives who were sequenced (ID 1000, 1001, 101). Gene locations are marked with red vertical lines. Candidate genes CLVS1 and MX2 are located in these ROH.