Impaired renal gluconeogenesis is recently identified as a hallmark of chronic kidney disease. However, the therapeutic approach to promote renal gluconeogenesis in CKD is still lacking. We aimed to study whether Salvianolic acid C (SAC), a nature compound extracted from the traditional Chinese medicine Danshen, inhibits renal fibrosis through promotion of gluconeogenesis. TGF-β stimulated HK2 human renal epithelial cells and mice with unilateral ureteral obstruction (UUO) were used as in vitro and in vivo models to study renal fibrosis. Fibrotic and gluconeogenic changes were determined by Western blotting analysis, quantitative PCR and Masson staining. Glucose and lactate concentrations were measured in cell culture and renal tissues. We found that SAC treatment inhibits the deposition of extracellular matrix proteins and the expression of fibrotic markers such as fibronectin, N-cadherin, Vimentin, aSMA, pSmad3, and Snail in UUO kidneys or renal cells. Inhibition of these fibrotic markers by SAC treatment was associated with enhanced expression of three gluconeogenic enzymes such as PCK1, G6PC and FBP1 in renal tissues or cells. SAC increase the concentration of glucose in the supernatant of renal cells. Lactate concentration was reduced by SAC in renal tissues or cells. Pyruvate and glucose tolerance tests showed that SAC improve the impaired glucose metabolism systemically in UUO mice. Peroxisome proliferator activated receptor gamma coactivator 1 alpha (PGC1ɑ) was downregulated in mouse kidneys after UUO operation, which was increased by SAC treatment. Moreover, PGC1α inhibitor SR-18292 reversed the anti-fibrotic effect and pro-gluconeogenic effect caused by SAC in renal cells. In conclusion, SAC inhibits renal fibrosis through promotion of PGC1α-mediated renal gluconeogenesis.
Keywords: PGC1α; Renal fibrosis; Renal gluconeogenesis; Salvianolic acid C.
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