Reidy G F, Mehta I, Murray M
Department of Medicine, Westmead Hospital, NSW, Australia.
Mol Pharmacol. 1989 May;35(5):736-43.
The anti-parkinsonian agent orphenadrine has been shown to form an in vitro metabolic intermediate (MI) complex in hepatic microsomes isolated from phenobarbital (PB)-treated rats. The present study was undertaken to assess the cytochrome P-450 isozyme specificity of inhibition and MI complexation. Spectral studies with untreated and PB-induced rat hepatic microsomes confirmed earlier reports on the selectivity of P-450 complexation by orphenadrine; MI complex formation was only observed with PB-induced microsomes. Inhibition studies with the P-450 substrates androst-4-ene-3,17-dione (androstenedione) and 7-pentoxyresorufin revealed selective inhibition of P-450 PB-B/D-associated monooxygenase activity. Thus, in microsomes from untreated male rats, orphenadrine failed to significantly inhibit (less than 50% inhibition up to a concentration of 300 microM) any of the major pathways of P-450-associated androstenedione metabolism. Preincubation of these microsomal fractions with orphenadrine and NADPH was not associated with increased inhibition of androstenedione metabolism. However, in PB-induced microsomes, P-450 PB-B/D-specific androstenedione 16 beta-hydroxylase activity was significantly and selectively inhibited (IC50 = 90 microM). Preincubation of orphenadrine with NADPH-supplemented PB-induced microsomes for 2, 4, or 8 min before androstenedione addition resulted in increased inhibition toward 16 beta-hydroxylase activity, lowering the observed IC50 to 6.6, 0.47, and 0.06 microM), respectively. Preincubation did not affect the selectivity of inhibition. In the absence of preincubation, orphenadrine appeared to be a potent mixed (competitive/noncompetitive)-type inhibitor of P-450 PB-B/D-associated pentoxyresorufin O-depentylation (Ki = 3.8 microM). Preincubation of orphenadrine with NADPH-supplemented microsomal fractions for 4 min resulted in a 30-fold lowering of the apparent inhibitor constant (Ki = 0.13 microM) and a change in the apparent inhibition kinetics to noncompetitive. Treatment of rats with orphenadrine (75 mg/kg/day intraperitoneally for 3 days) was associated with a 2-fold induction of total hepatic P-450, a 5- and 2.4-fold induction of androstenedione 16 beta- and 6 beta-hydroxylase activity, respectively, and formation of an orphenadrine-P-450 MI complex. Western blots of orphenadrine-induced microsomes revealed a 20-fold increase in P-450 PB-B/D-immunoreactive protein.(ABSTRACT TRUNCATED AT 400 WORDS)
抗帕金森病药物邻甲苯海明已被证明在从苯巴比妥(PB)处理的大鼠分离的肝微粒体中形成体外代谢中间体(MI)复合物。本研究旨在评估抑制作用和MI复合物形成的细胞色素P-450同工酶特异性。对未处理和PB诱导的大鼠肝微粒体的光谱研究证实了早期关于邻甲苯海明对P-450复合物形成选择性的报道;仅在PB诱导的微粒体中观察到MI复合物的形成。用P-450底物雄甾-4-烯-3,17-二酮(雄烯二酮)和7-戊氧基试卤灵进行的抑制研究显示对P-450 PB-B/D相关单加氧酶活性有选择性抑制。因此,在未处理的雄性大鼠的微粒体中,邻甲苯海明未能显著抑制(在高达300 microM的浓度下抑制率小于50%)P-450相关雄烯二酮代谢的任何主要途径。这些微粒体部分与邻甲苯海明和NADPH预孵育与雄烯二酮代谢抑制的增加无关。然而,在PB诱导的微粒体中,P-450 PB-B/D特异性雄烯二酮16β-羟化酶活性被显著且选择性地抑制(IC50 = 90 microM)。在加入雄烯二酮之前,将邻甲苯海明与补充了NADPH的PB诱导的微粒体预孵育2、4或8分钟,导致对16β-羟化酶活性的抑制增加,观察到的IC50分别降至6.6、0.47和0.06 microM)。预孵育不影响抑制的选择性。在没有预孵育的情况下,邻甲苯海明似乎是P-450 PB-B/D相关戊氧基试卤灵O-脱戊基化的强效混合(竞争性/非竞争性)型抑制剂(Ki = 3.8 microM)。将邻甲苯海明与补充了NADPH的微粒体部分预孵育4分钟导致表观抑制剂常数降低30倍(Ki = 0.13 microM),并且表观抑制动力学变为非竞争性。用邻甲苯海明(75 mg/kg/天腹腔注射3天)处理大鼠与总肝P-450诱导2倍、雄烯二酮16β-和6β-羟化酶活性分别诱导5倍和2.4倍以及形成邻甲苯海明-P-450 MI复合物有关。邻甲苯海明诱导的微粒体的蛋白质免疫印迹显示P-450 PB-B/D免疫反应性蛋白增加20倍。(摘要截断于400字)
