Apelin/APJ alleviates diabetic nephropathy by improving glomerular endothelial cells dysfunction via SIRT3‑KLF15.

IF 3.5 3区医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL Molecular medicine reports Pub Date : 2025-05-01 Epub Date: 2025-03-07 DOI:10.3892/mmr.2025.13487

Mingcong Huang, Jing Chang, Yu Liu, Jiming Yin, Xiangjun Zeng

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Abstract

Glomerular basement membrane (GBM) thickening, the earliest morphological change of diabetic nephropathy (DN), is related to glomerular endothelial cells (GECs) dysfunction which increase extracellular matrix (ECM) synthesizing. Apelin, the endogenous ligand for apelin/apelin receptor (APJ), is reported to alleviate endothelial cell dysfunction in DN. Therefore, it was hypothesized that apelin/APJ reduced GBM thickening by decreasing the synthesis of ECM in GECs. The results showed that apelin reduced glomerular fibrosis and GBM thickening by decreasing the expression of laminin and collagen IV in diabetic mice, which were cancelled following APJ knockout in GECs. Furthermore, apelin/APJ inhibited the synthesis of laminin and collagen IV in GECs by increasing the expression and activity of SIRT3, which promoted KLF15 deacetylation and translocation into nucleus. In conclusion, apelin/APJ reduced GBM thickening in diabetes mellitus by preventing laminin and collagen IV synthesizing via SIRT3‑KLF15 pathway in GECs.

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Apelin/APJ通过SIRT3‑KLF15改善肾小球内皮细胞功能障碍，缓解糖尿病肾病。

肾小球基底膜（GBM）增厚是糖尿病肾病（DN）最早出现的形态学变化，它与肾小球内皮细胞（GECs）功能障碍有关，而内皮细胞功能障碍会增加细胞外基质（ECM）的合成。据报道，凋亡磷脂/凋亡磷脂受体（APJ）的内源性配体凋亡磷脂能缓解 DN 的内皮细胞功能障碍。因此，我们假设杏仁蛋白/杏仁蛋白受体通过减少 GECs 中 ECM 的合成来减轻 GBM 的增厚。结果表明，凋亡肽通过减少糖尿病小鼠体内层粘连蛋白和胶原蛋白 IV 的表达，减轻了肾小球纤维化和 GBM 增厚，而在 GECs 中敲除 APJ 后，这两种作用被取消。此外，apelin/APJ 通过增加 SIRT3 的表达和活性抑制 GECs 中层粘蛋白和胶原 IV 的合成，而 SIRT3 则促进 KLF15 去乙酰化并转位到细胞核中。总之，apelin/APJ通过SIRT3-KLF15途径阻止GECs合成层粘连蛋白和胶原蛋白IV，从而减轻了糖尿病患者的GBM增厚。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Molecular medicine reports 医学-病理学

CiteScore

7.60

自引率

0.00%

发文量

321

审稿时长

1.5 months

期刊介绍： Molecular Medicine Reports is a monthly, peer-reviewed journal available in print and online, that includes studies devoted to molecular medicine, underscoring aspects including pharmacology, pathology, genetics, neurosciences, infectious diseases, molecular cardiology and molecular surgery. In vitro and in vivo studies of experimental model systems pertaining to the mechanisms of a variety of diseases offer researchers the necessary tools and knowledge with which to aid the diagnosis and treatment of human diseases.