Effects of Phenytoin on Glutathione Status and Oxidative Stress Biomarker Gene mRNA Levels in Cultured Precision Human Liver Slices

doi:10.1093/toxsci/59.1.118

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Toxicological Sciences 59, 118-126 (2001)
Copyright © 2001 by the Society of Toxicology

In Vitro Toxicology and Alternative Testing

Effects of Phenytoin on Glutathione Status and Oxidative Stress Biomarker Gene mRNA Levels in Cultured Precision Human Liver Slices

Evan P. Gallagher¹ and Karen M. Sheehy

Department of Physiological Sciences and Center for Environmental and Human Toxicology, University of Florida, P.O. Box 110885, Gainesville, Florida 32611-0885

Cellular production of reactive oxygen species (ROS) has beenimplicated as an important mechanism of chemical teratogenesisand developmental toxicity. Unfortunately, the lack of relevantmodel systems has precluded studies targeting the role of ROSin human teratogenesis and prenatal toxicity. In the currentstudy, we have used cultured precision human prenatal liverslices to study the effects of the human teratogen phenytoin(diphenylhydantoin; Dilantin) on cell toxicity, glutathioneredox status, and steady-state mRNA expression of a panel ofoxidative stress-related biomarker genes. The biomarker genesanalyzed were p53, bcl-2, alpha class glutathione S-transferasesisozymes A1 and A4 (hGSTA1 and hGSTA4), and the catalytic subunitof ${gamma}$ -glutamylcysteine synthetase ( ${gamma}$ GCS-HS). Liver slices (200µm) were prepared from second trimester prenatal liversand cultured in the presence of 0, 250 µM, and 1000 µMphenytoin for 18 h. Exposure to 1000 µM phenytoin elicited41% and 34% reductions in slice intracellular potassium andreduced glutathione (GSH) concentrations, respectively. Thereduction in slice GSH concentrations at 1000 µM phenytoinwas accompanied by a 2.2-fold increase in the percentage oftotal slice glutathione consisting of GSSG, and a 3.9-fold increasein hGSTA1 steady-state mRNA expression. Exposure to 250 µMor 1000 µM phenytoin also elicited a relatively minor(less than 2-fold) but significant increase in p53 steady-statemRNA expression. In contrast, the steady-state levels of ${gamma}$ GCS-HS,hGSTA4, and bcl-2 mRNAs were not affected by phenytoin exposure.Our findings in a relevant human model system are supportiveof a protective role of GSH and hGSTA1 against phenytoin toxicityand teratogenesis. These studies also demonstrate the utilityof using cultured human prenatal liver slices as a relevanttool for developmental toxicology studies.

Key Words: precision liver slices; phenytoin; mRNA expression; glutathione transferases; oxidative stress.

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