Neurobiology Laboratory, School of Life Sciences, Jawaharlal Nehru University, New Delhi, 110067, India.
Applied Sciences, UIET, Maharshi Dayanand University, Rohtak, Haryana, 124001, India.
Biol Trace Elem Res. 2022 Jan;200(1):261-270. doi: 10.1007/s12011-021-02624-2. Epub 2021 Feb 10.
Mitochondria are vital cellular organelles associated with energy production as well as cell signaling pathways. These organelles, responsible for metabolism, are highly abundant in hepatocytes that make them key players in hepatotoxicity. The literature suggests that mitochondria are targeted by various environmental pollutants. Arsenic, a toxic metalloid known as an environmental pollutant, readily contaminates drinking water and exerts toxic effects. It is toxic to various cellular organs; among them, the liver seems to be most affected. A growing body of evidence suggests that within cells, arsenic is highly toxic to mitochondria and reported to cause oxidative stress and alter an array of signaling pathways and functions. Hence, it is imperative to highlight the mechanisms associated with altered mitochondrial functions and integrity in arsenic-induced liver toxicity. This review provides the details of mechanistic aspects of mitochondrial dysfunction in arsenic-induced hepatotoxicity as well as various ameliorative measures undertaken concerning mitochondrial functions.
线粒体是与能量产生以及细胞信号通路相关的重要细胞细胞器。这些细胞器负责新陈代谢,在产生肝毒性的肝细胞中含量极高。文献表明,各种环境污染物都针对线粒体。砷是一种有毒的类金属,被认为是一种环境污染物,很容易污染饮用水,并产生毒性作用。它对各种细胞器官都有毒性;其中,肝脏似乎最容易受到影响。越来越多的证据表明,在细胞内,砷对线粒体具有高度毒性,并据报道会导致氧化应激,改变一系列信号通路和功能。因此,必须强调砷诱导的肝毒性中与改变线粒体功能和完整性相关的机制。本综述提供了砷诱导的肝毒性中线粒体功能障碍的机制细节以及针对线粒体功能采取的各种改善措施。
