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The utility of HepG2 cells to identify direct mitochondrial dysfunction in the absence of cell death. | LitMetric

The utility of HepG2 cells to identify direct mitochondrial dysfunction in the absence of cell death.

Toxicol In Vitro

MRC Centre for Drug Safety Science, The Department of Clinical and Molecular Pharmacology, The University of Liverpool, Ashton Street, Liverpool L69 3GE, UK.

Published: June 2015

AI Article Synopsis

  • Drug-induced mitochondrial dysfunction is believed to play a key role in drug-induced liver injury, making it important to identify such toxicity effectively.
  • The study developed a refined HepG2 model to examine the effects of various hepatotoxic and non-hepatotoxic drugs, showing that glucose deprivation before drug addition helps reveal mitochondrial dysfunction without causing cell death.
  • The research confirmed its findings by measuring cellular respiration and emphasized that assessing both ATP levels and cell toxicity offers a better understanding of how drugs cause liver damage.

Article Abstract

Drug-induced mitochondrial dysfunction has been hypothesized to be an important determining factor in the onset of drug-induced liver injury. It is essential to develop robust screens with which to identify drug-induced mitochondrial toxicity and to dissect its role in hepatotoxicity. In this study we have characterised a mechanistically refined HepG2 model, using a panel of selected hepatotoxicants and non-hepatotoxicants. We have demonstrated that acute metabolic modification, via glucose-deprivation over a 4 h period immediately prior to compound addition, is sufficient to allow the identification of drugs which induce mitochondrial dysfunction, in the absence of cell death over a short exposure (2-8 h) using a plate-based screen to measure cellular ATP content and cytotoxicity. These effects were verified by measuring changes in cellular respiration, via oxygen consumption and extracellular acidification rates. Overall, these studies demonstrate the utility of HepG2 cells for the identification of mitochondrial toxins which act directly on the electron transport chain and that the dual assessment of ATP content alongside cytotoxicity provides an enhanced mechanistic understanding of the causes of toxicity.

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Source
http://dx.doi.org/10.1016/j.tiv.2015.02.011DOI Listing

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