TMEM16A 抑制通过防止 DRP1 介导线粒体分裂改善顺铂诱导的急性肾损伤。

Inhibition of TMEM16A improves cisplatin-induced acute kidney injury via preventing DRP1-mediated mitochondrial fission.

机构信息

Department of Pharmacology, Cardiac & Cerebral Vascular Research Center, Zhongshan School of Medicine, Sun Yat-Sen University, Guangzhou, 510080, China.

State Key Laboratory of Organ Failure Research, National Clinical Research Center of Kidney Disease, Division of Nephrology, Nanfang Hospital, Southern Medical University, Guangzhou, 510515, China.

出版信息

Acta Pharmacol Sin. 2023 Nov;44(11):2230-2242. doi: 10.1038/s41401-023-01122-6. Epub 2023 Jul 4.

DOI:10.1038/s41401-023-01122-6

PMID:37402998

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10618163/

Abstract

Acute kidney injury (AKI) is associated with high morbidity and mortality. Our previous study has demonstrated that TMEM16A, a Ca-activated chloride channel, contributes to renal fibrosis progression in chronic kidney disease. However, whether TMEM16A is involved in AKI is still unknown. In this study, we established cisplatin AKI mice model and found that TMEM16A expression was upregulated in the injured kidney. In vivo knockdown of TMEM16A effectively prevented cisplatin-induced tubular cell apoptosis, inflammation and kidney function loss. Western blot and transmission electron microscopy (TEM) revealed that TMEM16A knockdown inhibited Drp1 translocation from the cytoplasm to mitochondria and prevented mitochondrial fission in tubular cells. Consistently, in cultured HK2 cells, knockdown or inhibition of TMEM16A by shRNA or its specific inhibitor suppressed cisplatin-induced mitochondrial fission and its associated energy dysfunction, ROS accumulation, and cell apoptosis via inhibiting Drp1 activation. Further investigation showed that genetic knockdown or pharmacological inhibition of TMEM16A inhibited cisplatin-induced Drp1 Ser-616 site phosphorylation through ERK1/2 signaling pathway, whereas overexpression of TMEM16A promoted this effect. Treatment with Drp1 or ERK1/2 inhibitor could efficiently prevent cisplatin-induced mitochondrial fission. Collectively, our data suggest that TMEM16A inhibition alleviated cisplatin-induced AKI by preventing tubular cell mitochondrial fission through the ERK1/2 / Drp1 pathway. Inhibition of TMEM16A may be a novel therapeutic strategy for AKI.

摘要

急性肾损伤（AKI）与高发病率和死亡率相关。我们之前的研究表明，钙激活氯离子通道 TMEM16A 参与慢性肾脏病肾纤维化的进展。然而，TMEM16A 是否参与 AKI 尚不清楚。在本研究中，我们建立了顺铂诱导的 AKI 小鼠模型，发现 TMEM16A 在损伤的肾脏中表达上调。体内 TMEM16A 敲低有效阻止了顺铂诱导的肾小管细胞凋亡、炎症和肾功能丧失。Western blot 和透射电子显微镜（TEM）显示，TMEM16A 敲低抑制了 Drp1 从细胞质向线粒体的易位，并阻止了肾小管细胞中线粒体的分裂。同样，在培养的 HK2 细胞中，shRNA 或其特异性抑制剂敲低或抑制 TMEM16A 抑制了顺铂诱导的线粒体分裂及其相关的能量功能障碍、ROS 积累和细胞凋亡，这是通过抑制 Drp1 激活来实现的。进一步的研究表明，TMEM16A 的遗传敲低或药理学抑制通过 ERK1/2 信号通路抑制顺铂诱导的 Drp1 Ser-616 位点磷酸化，而 TMEM16A 的过表达促进了这一效应。Drp1 或 ERK1/2 抑制剂的治疗可以有效地阻止顺铂诱导的线粒体分裂。综上所述，我们的数据表明，TMEM16A 抑制通过 ERK1/2 / Drp1 通路抑制肾小管细胞线粒体分裂，从而减轻顺铂诱导的 AKI。TMEM16A 的抑制可能是 AKI 的一种新的治疗策略。

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