Hubei Hongshan Laboratory, Fishery College, Huazhong Agricultural University, Wuhan 430070, China.
Department of Nutritional Sciences, School of Life Course and Population Sciences, King's College London, London SE1 9NH, U.K.
Environ Sci Technol. 2022 Jun 21;56(12):8020-8033. doi: 10.1021/acs.est.2c00585. Epub 2022 Jun 2.
Exposure to excessive manganese (Mn) is toxic to humans and animals. However, the toxic effects and mechanisms of excessive Mn influencing the vertebrates have been highly overlooked. In the present study, dietary Mn overload significantly increased hepatic lipid and Mn contents, decreased superoxide dismutase 2 (Sod2) activity, increased the Sod2 acetylation level, and induced mitochondrial dysfunction; Mn induced mitochondrial dysfunction through Mtf1/sirtuin 3 (Sirt3)-mediated acetylation of Sod2 at the sites K55 and K70. Meanwhile, mitochondrial oxidative stress was involved in Mn-induced lipotoxicity. Mechanistically, Mn-induced lipotoxicity was via oxidative stress-induced Hsf1 nucleus translocation and its DNA binding capacity to the regions of a () promoter, which in turn induced the transcription of lipogenic-related target genes. For the first time, our study demonstrated that Mn-induced hepatic lipotoxicity via a mitochondrial oxidative stress-dependent Hsf1/Pparg pathway and Mtf1/-mediated Sod2 acetylation participated in mitochondrial dysfunction. Considering that lipid metabolism and lipotoxicity are widely used as the biomarkers for environmental assessments of pollutants, our study provided innovative and important insights into Mn toxicological and environmental evaluation in aquatic environments.
暴露于过量的锰(Mn)对人类和动物是有毒的。然而,过量 Mn 影响脊椎动物的毒性作用和机制还高度被忽视。在本研究中,饮食中 Mn 过载显著增加肝脏脂质和 Mn 含量,降低超氧化物歧化酶 2(Sod2)活性,增加 Sod2 乙酰化水平,并诱导线粒体功能障碍;Mn 通过 Mtf1/沉默调节蛋白 3(Sirt3)介导的 Sod2 在 K55 和 K70 位点的乙酰化诱导线粒体功能障碍。同时,线粒体氧化应激参与了 Mn 诱导的脂毒性。在机制上,Mn 诱导的脂毒性是通过氧化应激诱导 Hsf1 核转位及其对()启动子区域的 DNA 结合能力,从而诱导与脂肪生成相关的靶基因的转录。本研究首次表明,Mn 通过依赖于线粒体氧化应激的 Hsf1/Pparg 途径和 Mtf1/-介导的 Sod2 乙酰化诱导的肝脂毒性参与了线粒体功能障碍。鉴于脂质代谢和脂毒性被广泛用作污染物环境评估的生物标志物,本研究为水生环境中 Mn 的毒理学和环境评价提供了创新性和重要的见解。
