Effect of Alcohol Administration on Mg2+ Homeostasis in H9C2 Cells.

Huy Nguyen, Andrea Romani
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引用次数: 2

Abstract

Alcoholic cardiomyopathy represents one of the main clinical complications in chronic alcoholics. This pathology contrasts the seemingly beneficial effect of small doses of alcohol on the cardiovascular system. Studies carried out in liver cells exposed acutely or chronically to varying doses of EtOH indicate that intrahepatic alcohol metabolism results in a major loss of cellular Mg2+. To investigate whether EtOH administration also induced Mg2+ extrusion in cardiac cells, H9C2 cells were exposed to varying doses of EtOH for short- or ling-term periods of time. The results indicate that H9C2 cells exposed to EtOH doses higher than 0.1% (v/v, or 15 mM) extruded Mg2+ into the extracellular medium on a time- and dose-dependent manner. Consistent with the involvement of cyP4502E1 in metabolizing EtOH, administration of chloro-methiazole (CMZ) as an inhibitor of the cytochrome prevented EtOH-induced Mg2+ loss to a large extent. EtOH-induced Mg2+ extrusion was also prevented by the administration of di-thio-treitol (DTT) and n-acetyl-cysteine (NAC), two agents that prevent the negative effects of ROS formation and free radicals generation associated with EtOH metabolism by cyP4502E1. Taken together, our data indicate that Mg2+ extrusion also occur in cardiac cells exposed to EtOH as a result of alcohol metabolism by cyP4502E1 and associated free radical formation. Interestingly, Mg2+ extrusion only occurs at doses of EtOH higher than 0.1% administered for an extended period of time. The significance of Mg2+ extrusion for the onset of alcoholic cardiomyopathy remains to be elucidated.

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酒精对H9C2细胞Mg2+稳态的影响
酒精性心肌病是慢性酒精中毒的主要临床并发症之一。这种病理与小剂量酒精对心血管系统的看似有益的作用形成对比。在肝细胞急性或慢性暴露于不同剂量的EtOH中进行的研究表明,肝内酒精代谢导致细胞Mg2+的主要损失。为了研究EtOH是否也诱导心肌细胞Mg2+挤压,H9C2细胞短期或长期暴露于不同剂量的EtOH。结果表明,EtOH浓度大于0.1% (v/v, 15 mM)的H9C2细胞将Mg2+挤出细胞外,并呈时间和剂量依赖性。与cyP4502E1参与EtOH代谢一致,给予氯甲基唑(CMZ)作为细胞色素的抑制剂,在很大程度上阻止了EtOH诱导的Mg2+损失。二硫代treitol (DTT)和n-乙酰半胱氨酸(NAC)也可以阻止EtOH诱导的Mg2+挤压,这两种药物可以阻止与cyP4502E1代谢EtOH相关的ROS形成和自由基产生的负面影响。综上所述,我们的数据表明,由于cyP4502E1的酒精代谢和相关自由基的形成,暴露于EtOH的心肌细胞也会发生Mg2+挤压。有趣的是,Mg2+挤压仅发生在EtOH剂量高于0.1%并持续较长时间的情况下。Mg2+挤压在酒精性心肌病发病中的意义仍有待阐明。
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