Parkin ubiquitinates GATA4 and attenuates the GATA4/GAS1 signaling and detrimental effects on diabetic nephropathy

Abstract

Renal tubular injury contributes to the progression of diabetic nephropathy (DN). This study explored the role and mechanisms of E3-ubiquitin ligase Parkin in the renal tubular injury of DN. We found that Parkin expression gradually decreased and was inversely associated with IL-6, TGF-β1, and GATA4 expression in the kidney during the progression of DN. Parkin over-expression (OE) reduced inflammation, fibrosis, premature senescence of renal tubular epithelial cells (RTECs), and improved renal function while Parkin knockout (KO) had opposite effects in DN mice. Parkin-OE decreased GATA4 protein, but not its mRNA transcripts in the kidney of DN mice and high glucose (HG)-treated RTECs. Immunoprecipitation indicated that Parkin directly interacted with GATA4 in DN kidney. Parkin-OE enhanced GATA4 ubiquitination. Furthermore, Parkin-KO upregulated growth arrest-specific gene 1 (GAS1) expression in renal tubular tissues of DN mice and GATA4-OE enhanced the HG-upregulated GAS1 expression in RTECs. Conversely, GAS1-OE mitigated the effect of Parkin-OE on HG-induced P21, IL-6, and TGF-β1 expression in RTECs. These results indicate that Parkin inhibits the progression of DN by promoting GATA4 ubiquitination and downregulating the GATA4/GAS1 signaling to inhibit premature senescence, inflammation, and fibrosis in DN mice. Thus, these findings uncover new mechanisms underlying the action of Parkin during the process of DN.