Mechanisms of Increased Liver Tissue Repair and Survival in Diet-Restricted Rats Treated with Equitoxic Doses of Thioacetamide

doi:10.1093/toxsci/kfg021

ToxSci Advance Access originally published online on March 7, 2003

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Toxicological Sciences 72, 272-282 (2003)
Copyright © 2003 by the Society of Toxicology

MOLECULAR AND GENETIC TOXICOLOGY

Mechanisms of Increased Liver Tissue Repair and Survival in Diet-Restricted Rats Treated with Equitoxic Doses of Thioacetamide

Udayan M. Apte^*, Pallavi B. Limaye^*, D. Desaiah, Thomas J. Bucci, Alan Warbritton and Harihara M. Mehendale^*^,1

^* Department of Toxicology, School of Pharmacy, The University of Louisiana at Monroe, Monroe, Louisiana 71209; Department of Neurology, University of Mississippi Medical Center, Jackson, Mississippi 39216; and Pathology Associates–A Charles River Company, National Center for Toxicological Research, Jefferson, Arkansas 72079

Moderate dietary or caloric restriction (DR) modulates animalphysiology in a beneficial fashion. Previously, we have reportedan equitoxic dose experiment where liver injury in DR male Sprague-Dawleyrats exposed to a low dose of thioacetamide (TA, 50 mg/kg) wassimilar to that observed in ad libitum fed (AL) rats exposedto a 12-fold higher dose (600 mg/kg). Paradoxically, the ALrats experienced 90% mortality while all of the DR rats, withthe same amount of initial bioactivation-mediated liver injury,survived. The protection observed in the DR rats was due toefficient compensatory liver tissue repair, which was delayedand attenuated in the AL rats, leading to progression of liverinjury. The objective of the present study was to investigatethe molecular mechanisms of the enhanced tissue repair in theDR rats upon equitoxic challenge with TA. Promitogenic mechanismsand mediators such as proinflammatory cytokines (TNF- ${alpha}$ and IL-6),growth factors (TGF- ${alpha}$ and HGF), and inducible nitric oxide synthase(iNOS) were estimated over a time course after equitoxic challenge(50 mg/kg to DR vs. 600 mg/kg to AL rats). Except for TNF- ${alpha}$ ,all other molecules were expressed earlier and in greater amountin the DR rats. IL-6 was 10-fold greater and peaked 12 h earlier;HGF also peaked 12 h sooner in the DR rats, when it was 2.5-foldgreater than the value in the AL rats. TGF- ${alpha}$ expression in liversof DR rats increased after TA administration and peaked at 24h. In the AL rats, it was lower and peaked at 36 h. Diet restrictionalone induced iNOS 2-fold in the DR rats and remained elevateduntil 12 h after TA administration, then declined thereafter.The lower iNOS activity in the AL rats further decreased afterTA injection. DR rats exhibited higher apoptosis after thioacetamideadministration, which further increased the efficiency of tissuerepair. Taken together, these data indicate that even thoughthe liver injury is near equal in AL and DR rats, sluggish signaltransduction leads to delayed liver regeneration, progressionof liver injury, and death in the AL rats. The equitoxic doseexperiment indicates that stimulation of tissue repair is independentof the extent of initial liver injury and is governed by physiologyof diet restriction. DR stimulates promitogenic signaling leadingto a quick and timely response upon liver injury, arrest ofprogressive injury on one hand, and recovery from injury onthe other, paving the way for survival of the DR rats.

Key Words: apoptosis; HGF; IL-6; iNOS; TGF- ${alpha}$ ; tissue repair; thioacetamide; caloric restriction, cytokines, growth factors, toxic challenge.

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