Balani S K, Woolf E J, Hoagland V L, Sturgill M G, Deutsch P J, Yeh K C, Lin J H
Department of Drug Metabolism, Merck Research Laboratories, West Point, PA 19486, USA.
Drug Metab Dispos. 1996 Dec;24(12):1389-94.
Indinavir, N-[2(R)-hydroxy-1(S)-indanyl]-5-[2(S)-tertiary- butylaminocarbonyl-4-(3-pyridylmethyl)piperazino]-4(S)- hydroxy-2(R)-phenylmethylpentanamide (L-735,524,MK-639, ayl-4- Crixivan), is a potent and specific inhibitor of the HIV-1(3 protease for the treatment of AIDS. Disposition of [14C]indinavir was investigated in six healthy subjects after single oral administration of 400 mg. AUC, Cmax, and Tmax values for indinavir were 492 microM x min, 4.7 microM, and 50 min, respectively. The AUC value for the total radioactivity in plasma was 1.9 times higher than that of indinavir, indicating the presence of metabolites. The major excretory route was through feces, and the minor through urine. Mean recovery of radioactivity in the feces was 83.4%. In the urine, mean recoveries of the total radioactivity and unchanged indinavir were 18.7% and 11.0% of the dose, respectively. HPLC radioactivity and LC-MS/MS analyses of urine showed the presence of indinavir and low levels of quaternary pyridine N-glucuronide (M1), 2',3'-trans-dihydroxyindanylpyridine N-oxide (M2), 2',3'-trans-dihydroxyindan (M3) and pyridine N-oxide (M4a) analogs, and despyridylmethyl analogs of M3 (M5) and indinavir (M6). M5 and M6 were the major metabolites in urine. The metabolic profile in plasma was similar to that in urine. Quantitatively, the metabolites in feces accounted for >47% of the dose, which along with the urinary excretion of approximately 19%, suggested that the absorption of the drug was appreciable. In the feces, radioactivity was predominantly due to M3, M5, M6, and the parent compound. Thus, in urine and feces, the prominent metabolic pathways were oxidations and oxidative N-dealkylations. Excretion of the quaternary N-glucuronide metabolite in the urine, which is a minor metabolite in human, was specific to primates.
茚地那韦,N-[2(R)-羟基-1(S)-茚满基]-5-[2(S)-叔丁基氨基甲酰基-4-(3-吡啶甲基)哌嗪基]-4(S)-羟基-2(R)-苯甲基戊酰胺(L-735,524、MK-639、阿依-4、佳息患),是一种用于治疗艾滋病的高效特异性HIV-1蛋白酶抑制剂。在6名健康受试者单次口服400 mg后,对[14C]茚地那韦的处置情况进行了研究。茚地那韦的AUC、Cmax和Tmax值分别为492 μM·min、4.7 μM和50分钟。血浆中总放射性的AUC值比茚地那韦高1.9倍,表明存在代谢产物。主要排泄途径是粪便,次要途径是尿液。粪便中放射性的平均回收率为83.4%。在尿液中,总放射性和未变化茚地那韦的平均回收率分别为给药剂量的18.7%和11.0%。尿液的HPLC放射性和LC-MS/MS分析显示存在茚地那韦以及低水平的季铵吡啶N-葡萄糖醛酸苷(M1)、2',3'-反式二羟基茚满吡啶N-氧化物(M2)、2',3'-反式二羟基茚满(M3)和吡啶N-氧化物(M4a)类似物,以及M3的去吡啶甲基类似物(M5)和茚地那韦的去吡啶甲基类似物(M6)。M5和M6是尿液中的主要代谢产物。血浆中的代谢谱与尿液中的相似。从数量上看,粪便中的代谢产物占给药剂量的>47%,加上约19%的尿液排泄量,表明该药物的吸收可观。在粪便中,放射性主要归因于M3、M5、M6和母体化合物。因此,在尿液和粪便中,主要的代谢途径是氧化和氧化性N-脱烷基化。尿液中季铵N-葡萄糖醛酸苷代谢产物的排泄在人类中是次要代谢产物,但在灵长类动物中具有特异性。
