NAC alleviative ferroptosis in diabetic nephropathy via maintaining mitochondrial redox homeostasis through activating SIRT3-SOD2/Gpx4 pathway

SOD2 SIRT3 线粒体 GPX4 化学 氧化应激 线粒体ROS 糖尿病肾病 谷胱甘肽 平衡 下调和上调 GPX1型 细胞生物学 乙酰半胱氨酸 抗氧化剂 药理学 内分泌学 糖尿病 生物 生物化学 超氧化物歧化酶 乙酰化 谷胱甘肽过氧化物酶 锡尔图因 基因
作者
Quanwei Li,Jianzhao Liao,Weijin Chen,Kai Zhang,Hongji Li,Feiyang Ma,Hui Zhang,Qingyue Han,Jianying Guo,Ying Li,Lianmei Hu,Jiaqiang Pan,Zhaoxin Tang
出处
期刊:Free Radical Biology and Medicine [Elsevier BV]
卷期号:187: 158-170 被引量:181
标识
DOI:10.1016/j.freeradbiomed.2022.05.024
摘要

Diabetic nephropathy (DN) is known as a major microvascular complication in type 1 diabetes. The effect of insulin treatment alone on controlling blood glucose is unsatisfactory. N-acetylcysteine (NAC), a chemical agent with thiol group, is found to confer a protective effect in renal injury. However, whether NAC combined with insulin treatment can further enhance the therapeutic effect in DN remains unclear. Here, we firstly used large mammal beagle as DN model to explore the effect of NAC combined with insulin treatment on DN during 120 d. Our results showed that NAC further alleviated mitochondrial oxidative damage and ferroptosis by enhancing activity of mitochondria GSH and maintaining mitochondrial redox homeostasis in DN. Additionally, the upregulated acetylation level of SOD2 was further abrogated by NAC treatment. In MDCK cells, NAC reduced high glucose (HG)-caused ferroptosis via activating Gpx4 expression. Of note, inhibition of Gpx4 by FIN56 abolished the protective effects of NAC on HG-induced ferroptosis. More importantly, 3-TYP reversed the effect of NAC on the mitochondria ROS under HG treatment, as well as eliminated its following beneficial effects for ferroptosis against HG-stimulated cells. These results reveal that NAC attenuated ferroptosis in DN via maintaining mitochondrial redox homeostasis through activating SIRT3-SOD2-Gpx4 signaling pathway.
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