Xiang Jiayi, Zhang Huifang, Zhou Xingcheng, Wang Dan, Chen Rongyu, Tan Wanlin, Liang Luqun, Shi Mingjun, Zhang Fan, Xiao Ying, Zhou Yuxia, Wang Yuanyuan, Guo Bing
State Key Laboratory of Functions and Applications of Medicinal Plants, Guizhou Medical University, Guiyang, China.
Department of Pathophysiology, Guizhou Medical University, Guizhou, China.
Front Pharmacol. 2022 Feb 11;13:819787. doi: 10.3389/fphar.2022.819787. eCollection 2022.
Atorvastatin is a classical lipid-lowering drug. It has been reported to have renoprotective effects, such as reducing urinary protein excretion and extracellular matrix aggregation. The present study aimed to investigate the specific mechanism of action of Atorvastatin in type 1 diabetic mice (T1DM) in inhibiting renal tubular epithelial cell injury following treatment with high glucose and high fat. The anti-injury mechanism of Atorvastatin involved the inhibition of miR-21 expression and the upregulation of the transcription and expression of its downstream gene Peroxisome proliferator-activated receptors-α(PPARα). An increase in blood glucose and lipid levels was noted in the T1DM model, which was associated with renal fibrosis and inflammation. These changes were accompanied by increased miR-21 levels, downregulation of PPARα and Mfn1 expressions, and upregulation of Drp1 and IL6 expressions in renal tissues. These phenomena were reversed following the administration of Atorvastatin. miR-21 targeted PPARα by inhibiting its mRNA translation. Inhibition of miR-21 expression or Fenofibrate (PPARα agonist) administration prevented the decrease of PPARα in renal tubular epithelial cells under high glucose (HG) and high fat (Palmitic acid, PA) conditions, alleviating lipid metabolism disorders and reducing mitochondrial dynamics and inflammation. Consistent with the results, the findings also demonstrated that mRTECs administered with Atorvastatin in HG + PA increased PPARα expression and restored the normal expression of Mfn1 and Drp1, and effectively increasing the number of biologically active mitochondria and ATP content, reducing ROS production, and restoring mitochondrial membrane potential following Atorvastatin intervention. In addition, these effects were noted to the inhibition of FN expression and tubular cell inflammatory response; however, in the presence of miR-21mimics, the aforementioned effects of Atorvastatin were significantly diminished. Based on these observations, we conclude that Atorvastatin inhibits tubular epithelial cell injury in T1DM with concomitant induction of lipid metabolism disorders by a mechanism involving inhibition of miR-21 expression and consequent upregulation of PPARα expression. Moreover, Atorvastatin regulated lipid metabolism homeostasis and PPARα to restore mitochondrial function. The results emphasize the potential of Atorvastatin to exhibit lipid-regulating functions and non-lipid effects that balance mitochondrial dynamics.
阿托伐他汀是一种经典的降脂药物。据报道,它具有肾脏保护作用,如减少尿蛋白排泄和细胞外基质聚集。本研究旨在探讨阿托伐他汀在1型糖尿病小鼠(T1DM)中抑制高糖高脂处理后肾小管上皮细胞损伤的具体作用机制。阿托伐他汀的抗损伤机制包括抑制miR-21表达及其下游基因过氧化物酶体增殖物激活受体-α(PPARα)的转录和表达上调。在T1DM模型中观察到血糖和血脂水平升高,这与肾纤维化和炎症相关。这些变化伴随着肾组织中miR-21水平升高、PPARα和Mfn1表达下调以及Drp1和IL6表达上调。给予阿托伐他汀后这些现象得到逆转。miR-21通过抑制PPARα的mRNA翻译来靶向PPARα。抑制miR-21表达或给予非诺贝特(PPARα激动剂)可防止高糖(HG)和高脂(棕榈酸,PA)条件下肾小管上皮细胞中PPARα的减少,减轻脂质代谢紊乱并减少线粒体动力学和炎症。与结果一致,研究结果还表明,在HG + PA条件下用阿托伐他汀处理的小鼠肾小管上皮细胞(mRTECs)中PPARα表达增加,Mfn1和Drp1的正常表达得以恢复,并且在阿托伐他汀干预后有效增加了生物活性线粒体数量和ATP含量,减少了ROS产生并恢复了线粒体膜电位。此外,还观察到这些作用抑制了纤连蛋白(FN)表达和肾小管细胞炎症反应;然而,在存在miR-21模拟物的情况下,阿托伐他汀的上述作用显著减弱。基于这些观察结果,我们得出结论,阿托伐他汀通过抑制miR-21表达并随后上调PPARα表达的机制,抑制T1DM中的肾小管上皮细胞损伤并伴有脂质代谢紊乱的诱导。此外,阿托伐他汀调节脂质代谢稳态和PPARα以恢复线粒体功能。结果强调了阿托伐他汀展现脂质调节功能和平衡线粒体动力学的非脂质效应的潜力。
