Hemodynamic and metabolic responses to leukotriene C4 in isolated perfused rat liver

Abstract

Responses of isolated perfused rat liver to leukotriene C₄ were studied in order to assess the mechanisms involved in leukotriene-mediated liver injury. Infusion of leukotriene C₄ (11 and 44 pmoles per min per gm liver weight) into the portal vein resulted in a rise in portal pressure, a decrease in oxygen consumption, an increase in hepatic glucose and lactate efflux and lactate/pyruvate ratio in the perfusate and a small decrease in bile flow. Isoproterenol (1 μM) counteracted the effects of leukotriene C₄ on respiration and portal pressure, whereas bile flow and glucose efflux were reversibly stimulated. The same changes were observed upon with-drawal of leukotriene C₄. The release of glucose was correlated with the increase in oxygen consumption upon both isoproterenol addition and withdrawal of leukotriene C₄. These results are indicative of leukotriene C₄-induced microcirculatory redistribution of perfusate flow. Since, in the presence of nitroprusside (50 μM), both the effects of leukotriene C₄ and their reversal by isoproterenol were diminished, a vascular site of action can be assumed. Accordingly, the accompanying metabolic responses can be explained by gradual changes in oxygen supply to parts of the liver. Reversibility of the leukotriene C₄ effects and lack of short-term impairment of viability of the isolated liver suggest that leukotriene-mediated liver injury is a long-term effect related to events subsequent to microcirculatory changes.