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GPR56 Promotes Diabetic Kidney Disease Through eNOS Regulation in Glomerular Endothelial Cells

Jinshan Wu, Zhihong Wang, Minchao Cai, Xuan Wang, Benjamin Lo, Qifu Li, John Cijiang He, Kyung Lee, Jia Fu

2023Diabetes20 citationsDOIOpen Access PDF

Abstract

Although glomerular endothelial dysfunction is well recognized as contributing to the pathogenesis of diabetic kidney disease (DKD), the molecular pathways contributing to DKD pathogenesis in glomerular endothelial cells (GECs) are only partially understood. To uncover pathways that are differentially regulated in early DKD that may contribute to disease pathogenesis, we recently conducted a transcriptomic analysis of isolated GECs from diabetic NOS3-null mice. The analysis identified several potential mediators of early DKD pathogenesis, one of which encoded an adhesion G protein-coupled receptor-56 (GPR56), also known as ADGRG1. Enhanced glomerular expression of GPR56 was observed in human diabetic kidneys, which was negatively associated with kidney function. Using cultured mouse GECs, we observed that GPR56 expression was induced with exposure to advanced glycation end products, as well as in high-glucose conditions, and its overexpression resulted in decreased phosphorylation and expression of endothelial nitric oxide synthase (eNOS). This effect on eNOS by GPR56 was mediated by coupling of Gα12/13-RhoA pathway activation and Gαi-mediated cAMP/PKA pathway inhibition. The loss of GPR56 in mice led to a significant reduction in diabetes-induced albuminuria and glomerular injury, which was associated with reduced oxidative stress and restoration of eNOS expression in GECs. These findings suggest that GPR56 promotes DKD progression mediated, in part, through enhancing glomerular endothelial injury and dysfunction.

Topics & Concepts

EnosPathogenesisEndothelial dysfunctionInternal medicineEndocrinologyDiabetes mellitusRHOAEndotheliumNitric Oxide Synthase Type IIIKidneyBiologyNitric oxideMedicineNitric oxide synthaseCell biologySignal transductionChronic Kidney Disease and DiabetesDiabetes Treatment and ManagementAdvanced Glycation End Products research