Elsevier

Toxicology

Volume 104, Issues 1–3, 15 December 1995, Pages 25-33
Toxicology

Effect of several metallothionein inducers on oxidative stress defense mechanisms in rats

https://doi.org/10.1016/0300-483X(95)03118-YGet rights and content

Abstract

One mechanism by which chemicals cause cellular injury is the formation of reactive oxygen species. In vitro studies have shown that metallothionein (MT), a small metal-binding, sulfhydryl-rich, readily inducible protein, can scavenge reactive oxygen species, especially hydroxyl radicals. Nevertheless, whether or not MT protects against oxidative stress in the intact animal is not known. Experimental induction of MT could help to clarify this question, however, it is unclear whether agents that induce MT also influence known antioxidant systems. Therefore, the present study was designed to determine whether the well-known MT inducers are specific for induction of MT or whether they might also influence other hepatic systems that protect against oxidative stress. Male rats were administered cadmium chloride (Cd; 30 pmol/kg s.c.), zinc chloride (Zn; 1000 pmol/kg s.c.), α-hederin (α-H, 30 pmol/kg s.c.) or lipopolysaccharide (LPS; 1 mg/kg s.c.) 24 h prior to measurement of antioxidant systems. Zn and α-H increased hepatic GSH concentration 20% and 55%, respectively. Cd significantly increased, whereas LPS reduced, the activities of selenium-dependent glutathione peroxidase and glutathione reductase. Glutathione S-transferases were not altered by any of the inducers. Cd also increased DT-diaphorase activity. Cd, Zn and α-H all decreased catalase activity 20–35%, while the activity of Superoxide dismutase was unaffected by the inducers. The amount of total cytochrome P450 enzymes and cytochrome b5 were decreased by LPS, Cd and α-H, while Zn appeared to have no effect. The activities of P450 enzymes towards testosterone oxidation were also decreased by LPS, Cd and α-H. In conclusion, all four MT inducers examined affect systems known to protect cells against oxidative stress. Therefore, using these chemicals to determine the in vivo role of MT in protecting against oxidative stress poses difficulties.

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Present address: College of Pharmacy, Xavier University of Louisiana, New Orleans, LA 70125, USA.

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