Clofibrate-Induced in Vitro Hepatoprotection against Acetaminophen Is Not Due to Altered Glutathione Homeostasis

doi:10.1093/toxsci/56.1.220

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Toxicological Sciences 56, 220-228 (2000)
Copyright © 2000 by the Society of Toxicology

Clofibrate-Induced in Vitro Hepatoprotection against Acetaminophen Is Not Due to Altered Glutathione Homeostasis

Felicity A. Nicholls-Grzemski^*^,1, Ian C. Calder, Brian G. Priestly and Philip C. Burcham^*^,2

^* Department of Clinical and Experimental Pharmacology, The University of Adelaide, Adelaide, South Australia 5005, Australia; Environmental Health Branch, South Australian Health Commission, Adelaide, South Australia 5000; and Chemicals and Non-Prescription Medicines Branch, Therapeutic Goods Administration, PO Box 100, Woden, ACT 2606

Prior induction of peroxisome proliferation protects mice againstthe in vivo hepatotoxicity of acetaminophen and various otherbioactivation-dependent toxicants. The mechanisms underlyingsuch chemoresistance are poorly understood, although they havebeen suggested to involve alterations in glutathione homeostasis.To clarify the role of glutathione in this phenomenon, we isolatedhepatocytes from mice in which hepatic peroxisome proliferationhad been induced with clofibrate. The cells were incubated witha range of acetaminophen concentrations and the extent of cellkilling after up to 8 h was assessed by measuring lactate dehydrogenaseleakage from the cells. Hepatocytes from clofibrate-pretreatedmice were much less susceptible to acetaminophen than cellsfrom vehicle-treated controls. However, the extent of glutathionedepletion during exposure to acetaminophen was similar in bothcell types, as were rates of excretion of the product of glutathione-mediateddetoxication of acetaminophen's quinoneimine metabolite, 3-glutathionyl-acetaminophen.The glutathione-replenishing ability of clofibrate-pretreatedcells after a brief exposure to diethyl maleate also resembledthat of control cells. More importantly, prior depletion ofglutathione by diethyl maleate did not abolish the resistanceof clofibrate-pretreated cells to acetaminophen. Taken together,these findings indicate that although glutathione-dependentpathways may contribute to hepatoprotection during peroxisomeproliferation, the resistance phenomenon is not due exclusivelyto this mechanism.

Key Words: peroxisome proliferation; acetaminophen toxicity; hepatoprotection.

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