Increased cytotoxicity of Pb2+ with co-exposures to a mitochondrial uncoupler and mitochondrial calcium uniporter inhibitor†

IF 4.3 3区 环境科学与生态学 Q1 CHEMISTRY, ANALYTICAL
Pooja Lalwani, Dillon E. King, Katherine S. Morton, Nelson A. Rivera, Javier Huayta, Heileen Hsu-Kim and Joel N. Meyer
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Abstract

Lead (Pb2+) is an important developmental toxicant. The mitochondrial calcium uniporter (MCU) imports calcium ions using the mitochondrial membrane potential (MMP), and also appears to mediate the influx of Pb2+ into the mitochondria. Since our environment contains mixtures of toxic agents, it is important to consider multi-chemical exposures. To begin to develop generalizable, predictive models of interactive toxicity, we developed mechanism-based hypotheses about interactive effects of Pb2+ with other chemicals. To test these hypotheses, we exposed HepG2 (human liver) cells to Pb2+ alone and in mixtures with other mitochondria-damaging chemicals: carbonyl cyanide-p-trifluoromethoxyphenylhydrazone (FCCP), a mitochondrial uncoupler that reduces MMP, and Ruthenium Red (RuRed), a dye that inhibits the MCU. After 24 hours, Pb2+ alone, the mixture of Pb2+ and RuRed, and the mixture of Pb2+ and FCCP caused no decrease in cell viability. However, the combination of all three exposures led to a significant decrease in cell viability at higher Pb2+ concentrations. After 48 hours, the co-exposure to elevated Pb2+ concentrations and FCCP caused a significant decrease in cell viability, and the mixture of all three showed a clear dose-response curve with significant decreases in cell viability across a range of Pb2+ concentrations. We performed ICP-MS analyses on isolated mitochondrial and cytosolic fractions and found no differences in Pb2+ uptake across exposure groups, ruling out altered cellular uptake as the mechanism for interactive toxicity. We assessed MMP following exposure and observed a decrease in membrane potential that corresponds to loss of cell viability but is likely not sufficient to be the causative mechanistic driver of cell death. This research provides a mechanistically-based framework for understanding Pb2+ toxicity in mixtures with mitochondrial toxicants.

Abstract Image

线粒体解偶联剂和线粒体单转运钙抑制剂共同暴露Pb2+的细胞毒性增加。
铅(Pb2+)是重要的发育毒性物质。线粒体钙单转运体(MCU)通过线粒体膜电位(MMP)输入钙离子,并介导Pb2+流入线粒体。由于我们的环境中含有有毒物质的混合物,因此考虑多种化学物质的暴露是很重要的。为了开始建立可推广的相互作用毒性预测模型,我们提出了Pb2+与其他化学物质相互作用的基于机制的假设。为了验证这些假设,我们将HepG2(人类肝脏)细胞单独暴露于Pb2+以及与其他线粒体损伤化学物质的混合物中:羰基氰化物-对三氟甲氧基苯基腙(FCCP),一种减少MMP的线粒体解偶联剂,以及钌红(RuRed),一种抑制MCU的染料。24 h后,单独使用Pb2+、Pb2+与RuRed混合、Pb2+与FCCP混合均未降低细胞活力。然而,在较高的Pb2+浓度下,所有三种暴露的组合导致细胞活力显著下降。48小时后,升高的Pb2+浓度和FCCP共同暴露导致细胞活力显著下降,三者的混合物在Pb2+浓度范围内显示出明显的剂量-反应曲线,细胞活力显著下降。我们对分离的线粒体和细胞质组分进行了ICP-MS分析,发现不同暴露组的Pb2+摄取没有差异,排除了细胞摄取改变作为相互作用毒性机制的可能性。我们评估了暴露后的MMP,观察到膜电位下降,这与细胞活力的丧失相对应,但可能不足以成为细胞死亡的致病机制驱动因素。这项研究为了解Pb2+与线粒体毒物混合物的毒性提供了一个基于机械的框架。
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来源期刊
Environmental Science: Processes & Impacts
Environmental Science: Processes & Impacts CHEMISTRY, ANALYTICAL-ENVIRONMENTAL SCIENCES
CiteScore
9.50
自引率
3.60%
发文量
202
审稿时长
1 months
期刊介绍: Environmental Science: Processes & Impacts publishes high quality papers in all areas of the environmental chemical sciences, including chemistry of the air, water, soil and sediment. We welcome studies on the environmental fate and effects of anthropogenic and naturally occurring contaminants, both chemical and microbiological, as well as related natural element cycling processes.
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