Inhibition of leukotriene D4 catabolism by D‐penicillamine

Abstract

Inhibition of the catabolism of the most biologically potent cysteinyl leukotriene, LTD₄, was studied in rat hepatoma cells in vitro and in the rat in vivo. LTD₄ dipeptidase, an ectoenzyme on the surface of AS‐30D hepatoma cells, exhibited an apparent K_m value of 6.6μM for LTD₄. D‐Penicillamine and L‐penicillamine inhibited this enzyme activity with apparent K_i values of 0.46 mM and 0.21 mM respectively. Bestatin, an inhibitor of the aminopeptidase activity of hepatoma cells, did not affect LTD₄ hydrolysis at concentrations as high as 5 mM, indicating that the aminopeptidase did not contribute to LTD₄ catabolism. In the rat in vivo, D‐penicillamine also inhibited LTD₄ catabolism. After intravenous injection of [³H]LTC₄ an accumulation of [³H]LTD₄ and a retarded formation of [³H]LTE₄ were observed in the circulating blood after D‐penicillamine pretreatment. Within 1 h after intravenous [³H]LTC₄ injection, about 80% of the administered radioactivity was recovered in bile. After D‐penicillamine pretreatment [³H]LTD₄ was the major biliary leukotriene metabolite, whereas in untreated controls leukotriene metabolites more polar than LTC₄ predominated in bile. After stimulation of endogenous leukotriene production in vivo by platelet‐activating factor, N‐acetyl‐LTE₄ was the major cysteinyl leukotriene detected in bile. D‐Penicillamine treatment prior to platelet‐activating factor resulted in the accumulation of LTD₄, which under these circumstances was the major endogenous leukotriene metabolite detected in bile.