Abstract

BackgroundDiabetic kidney disease (DKD) is one of the most common microvascular complications in patients with diabetes mellitus. In this condition, renal tubular epithelial mesenchymal transition (EMT) is an important factor accelerating the progression of DKD and a major cause of renal fibrosis and end-stage renal disease. However, the therapeutic effect is unsatisfactory because of the lack of effective drugs. Jia Wei Qingxin Lotus Seed Drink (QISD) is a traditional Chinese medicine compound formula that has shown to be effective in the clinical treatment of DKD. However, the potential of QISD in DKD-EMT treatment has yet to be fully explored. PurposeThis study aimed to investigate the role of QISD in ameliorating DKD-EMT injury and its mechanism. MethodsThe active ingredients of QISD were identified via ultra-performance liquid chromatography-mass spectrometry/mass spectrometry (UHPLC-MS/MS). A DKD mouse model was constructed by high-fat diet feeding and intraperitoneal injection of STZ (60 mg/kg), and QISD (14.46, 28.92, and 57.84 g/kg/day) was administered by gavage for 12 consecutive weeks. Dapagliflozin (1 mg/kg/d) was used as a positive control. Renal pathological damage was observed by HE, PAS, and Masson staining. The expression levels of EMT-related proteins and pathway proteins were detected via immunohistochemistry, RT-qPCR, and western blot. In in vitro experiments, EMT injury was induced in human kidney tubular epithelial cells (HK-2) by using lipopolysaccharide (LPS). A combination of CCK8 assay, wound healing assay, small-molecule inhibitor intervention, and overexpression lentiviral transfection was used to investigate the effects of QISD on cell migration ability, adhesion ability, fibrotic factor formation, and mesenchymal properties. ResultsAnimal experiments showed that QISD improved blood glucose, body weight, symptoms of excessive drinking and eating, and renal pathological injury in mice, reduced extracellular matrix deposition, delayed renal EMT injury, and inhibited the activation of the histone demethylase JMJD1C. UHPLC-MS/MS and molecular docking indicated that baicalin, wogonoside, oroxylin A-7-O-β-D-glucuronide, and glulisine A found in QISD could bind to JMJD1C. The ameliorating effect of QISD on DKD-EMT injury might be related to JMJD1C. The improvement of DKD-EMT injury by QISD was accompanied by the reduction of SP1 and ZEB1 expression. The SP1 overexpression not only reversed the therapeutic effect of JIB-04, an inhibitor of JMJD1C, on DKD-EMT but also exacerbated the expression of ZEB1 and downstream EMT-related factors. Thus, QISD might affect the expression of the epithelial marker E-cadherin by inhibiting the JMJD1C/SP1/ZEB1 signaling pathway, consequently preventing the transformation of epithelial cells to mesenchymal cells and ameliorating DKD-EMT injury. ConclusionThis study was the first to demonstrate that QISD might ameliorate DKD-EMT injury by inhibiting the JMJD1C/SP1/ZEB1 signaling pathway. These findings provide strong pharmacologic evidence for the clinical use of QISD in the treatment of DKD.

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