Drug-induced hepatic microgranulomatosis in cynomolgus monkeys.

Abstract

This report discusses a unique drug-induced hepatotoxicity in cynomolgus monkeys treated orally with a novel potassium sparing experimental diuretic, [2,6-bis(4-chlorophenyl)-4-pyridinecarboxylic acid]. Groups of 6 adult male and female monkeys were treated orally with vehicle diluent, modified vehicle #122 or a suspension of the drug at 5.0, 12.5, or 32.0 mg/kg/day for 2 weeks. Another group of 5 monkeys were treated orally with 25.0 mg/kg/day of the drug for 2 weeks. Disposition of the drugs was evaluated in 2 monkeys in the later group that received 27.4 mg/kg of radiolabelled drug on the 1st and last day of dosing. Hepatic toxicity was characterized biochemically, light and electron microscopically, histochemically, immunocytochemically, and toxico-kinetically. Conjugated serum bilirubin, alanine transaminase, and aspartate transaminase levels were increased in monkeys treated with over 12.5 mg/kg/day of the diuretic. The periacinar hepatic plates of monkeys treated with 25.0 or 32.0 mg/kg/day were distorted by accumulation of PAS and oil red-O positive multinucleated Kupffer cells. The cytosol of these cells was expanded by phagolysosomes containing granular materials of varying electron densities. Granular electron dense materials were also in endothelial cells and bile canaliculi. Fatty change, cholestasis, and rare piecemeal hepatic necrosis were minimal. The drug was primarily excreted through urine. Plasma concentration and half life of the drug were increased with multiple dosing. The highest concentration of unexcreted parent drug was in the liver. Drug-induced noninflammatory hepatic microgranulomatosis, apparently caused by sequestered drug-lipid/mucopolysaccharide complex in the phagocytic cells of the liver, can occur in any species, including humans, if orally administered xenobiotics are presented to the liver in particulate form.