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© 1998 Oxford University Press
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Tissue Repair Response as a Function of Dose during Trichloroethylene Hepatotoxicity1
Division of Toxicology and Louisiana Institute of Toxicology, College of Pharmacy and Health Sciences Northeast Louisiana University, Monroe, Louisiana 71209-0470 *Agency for Toxic Substances and Disease Registry, Department of Health and Human Services Atlanta, Georgia 30333
Received June 6, 1997; accepted January 9, 1998
Trichloroethylene (TCE), a widely used organic solvent and degreasing agent, is regarded as a hepatotoxicant. The objective of the present studies was to investigate whether the extent and timeliness of tissue repair has a determining influence on the ultimate outcome of hepatotoxicity. Male Sprague-Dawley rats (200–250 g) were injected with a 10-fold dose range of TCE and hepatotoxicity and tissue repair were studied during a time course of 0 to 96 h. Light microscopic changes as evaluated by H&E-stained liver sections revealed a dose-dependent necrosis of hepatic cells. Maximum liver cell necrosis was observed at 48 h after the TCE administration. However, liver injury as assessed by plasma sorbitol dehydrogenase (SDH) showed a dose response over a 10-fold dose range only at 6 h, whereas alanine aminotrans-ferase (ALT) did not show a dose response at any of the time points studied. A low dose of TCE (250 mg/kg) showed an increase in SDH at all time points up to 96 h without peak levels, whereas higher doses showed peak only at 6 h. At later time points SDH declined but remained above normal. In vitro addition of trichloroacetic acid, a metabolite of TCE to plasma, decreased the activities of SDH and ALT indicating that metabolites formed during TCE toxicity may interfere with plasma enzyme activities in vivo. This indicates that the lack of dose-related increase in SDH and ALT activities may be because of interference by the TCE metabolite. Tissue regeneration response as measured by [3H]thymidine incorporation into hepatocellular nuclear DNA was stimulated maximally at 24 h after 500 mg/kg TCE administration. A higher dose of TCE led to a delay and diminishment in [3H]thymidine incorporation. At a low dose of TCE (250 mg/kg) [3H]thymidine incorporation peaked at 48 h and this could be attributed to very low or minimal injury caused by this dose. With higher doses tissue repair was delayed and attenuated allowing for unrestrained progression of liver injury. These results support the concept that the toxicity and repair are opposing responses and that a dose-related increase in tissue repair represents a dynamic, quantifiable compensatory mechanism.
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