College of Life Science, Zhejiang Chinese Medical University, Hangzhou, 310053, Zhejiang, People's Republic of China.
College of Life Science, Zhejiang Chinese Medical University, Hangzhou, 310053, Zhejiang, People's Republic of China; Academy of Chinese Medical Science, Zhejiang Chinese Medical University, Hangzhou, 310053, Zhejiang, People's Republic of China.
Environ Pollut. 2021 Apr 1;274:116541. doi: 10.1016/j.envpol.2021.116541. Epub 2021 Jan 24.
Organophosphorus flame retardants (OPFRs), a group of new emerging endocrine disruption chemicals, have been reported to cause metabolic disturbance. Currently, mitochondrial abnormality is a new paradigm for evaluating chemical-mediated metabolic disruption. However, a comprehensive correlation between these two aspects of OPFR remains elusive. In the work reported here, 3 markers for morphological abnormality, and 7 markers of mitochondrial dysfunction were detected after treatment with two aryl-OPFRs (TCP and TPhP) and three chlorinated-OPFRs (TDCPP, TCPP, and TCEP) on hepatocyte. The two aryl-OPFRs and TDCPP can cause intracellular lipid accumulation at non-cytotoxic concentrations (<10 μM), while the other two chlorinated-OPFRs only caused lipid deposition at 10 μM. Furthermore, at the tested concentrations, all of them reduced mitochondrial (mito)-network numbers, enlarged mito-area/cells, and skewed mitoATP/glycoATP. Excluding TCEP, the other four chemicals induced mito-ROS and depleted mitochondrial membrane potential (MMP). Notably, only TCP, TPhP and TDCPP impeded mitoATP generation rate and mito-respiratory rate. Based on potency estimates, the capacity for lipid accumulation was significantly correlated with mito-network numbers (R = 0.6481, p < 0.01), mitoATP/glycoATP (R = 0.5197, p < 0.01), mitoROS (R = 0.7197, p < 0.01), and MMP (R = 0.7715, p < 0.01). Remarkably, the mito-respiratory rate (R = 0.8753, p < 0.01) exhibited the highest correlation. Thus, the more potent lipid inducers TPhP, TCP and TDCPP could be identified. The results of this study demonstrate that aryl-OPFRs are more potent in metabolic disruption than other esters examined. Metabolic disruption should be examined further for chemicals that have the capacity to counteract the aforementioned functions of mitochondrial.
有机磷阻燃剂 (OPFRs) 是一组新出现的内分泌干扰化学物质,据报道会导致代谢紊乱。目前,线粒体异常是评估化学物质介导的代谢紊乱的新范例。然而,OPFR 这两个方面之间的全面相关性仍然难以捉摸。在本报告的工作中,用两种芳基-OPFRs(TCP 和 TPhP)和三种氯化-OPFRs(TDCPP、TCPP 和 TCEP)处理肝细胞后,检测到 3 种形态异常标志物和 7 种线粒体功能障碍标志物。两种芳基-OPFRs 和 TDCPP 可以在非细胞毒性浓度(<10 μM)下引起细胞内脂质积累,而另外两种氯化-OPFRs 仅在 10 μM 时引起脂质沉积。此外,在所测试的浓度下,它们都减少了线粒体 (mito)-网络数量,增大了 mito 区域/细胞,并使 mitoATP/glycoATP 发生偏斜。除 TCEP 外,其他四种化学物质诱导了 mito-ROS 并耗尽了线粒体膜电位 (MMP)。值得注意的是,只有 TCP、TPhP 和 TDCPP 阻碍了 mitoATP 生成率和 mito-呼吸率。根据效力估计,脂质积累能力与 mito-网络数量(R=0.6481,p<0.01)、mitoATP/glycoATP(R=0.5197,p<0.01)、mitoROS(R=0.7197,p<0.01)和 MMP(R=0.7715,p<0.01)显著相关。值得注意的是,mito-呼吸率(R=0.8753,p<0.01)表现出最高的相关性。因此,可以识别出更有效的脂质诱导剂 TPhP、TCP 和 TDCPP。本研究的结果表明,芳基-OPFRs 在代谢紊乱方面比其他酯类物质更为有效。对于具有拮抗上述线粒体功能的能力的化学物质,应进一步检查代谢紊乱。
