CCl4‐induced lipoperoxidation triggers a lethal defect in the liver plasma membranes

Abstract

Loss of calcium regulation across the plasma membrane of hepatocytes is responsible for irreversible cell damage by CCl₄. The mode of action of colchicine in CCl₄ acute liver damage is not completely understood. We followed the time courses of the changes in lipoperoxidation, the activities of liver plasma membrane Ca²⁺-ATPase, γ-glutamyl transpeptidase and alkaline phosphatase, as well as the time courses of serum markers of liver damage in rats acutely intoxicated with CCl₄. We assessed the effects of colchicine in this model and evaluated the effect of this drug on liver cytochrome P-450. Increased lipoperoxidation is the earliest and shortest lasting effect of CCl₄ in the liver and is followed by a decrease in the activities of plasma membranebound enzymes. The alterations in serum enzymes showed a slower onset and were more protracted. Colchicine pretreatment produced a small decrease in cytochrome P-450 in the liver but completely prevented most of the changes produced by CCl₄ in lipoperoxidation, liver plasma membrane enzyme activities and serum enzyme activities. We conclude that CCl₄ metabolites trigger lipoperoxidation and then produce a longer lasting change in the plasma membrane, which thus allows calcium accumulation. Colchicine prevents the early mechanisms of CCl₄ damage, and its effect on cytochrome P-450 perhaps plays only a contributory role.