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罗红霉素及其去克拉定糖基、O-去烷基和N-去甲基代谢物在大鼠肝微粒体中与细胞色素P450 x Fe2+形成抑制性代谢物复合物的体外研究。

Formation in vitro of an inhibitory cytochrome P450 x Fe2+-metabolite complex with roxithromycin and its decladinosyl, O-dealkyl and N-demethyl metabolites in rat liver microsomes.

作者信息

Yamazaki H, Shimada T

机构信息

Osaka Prefectural Institute of Public Health, Japan.

出版信息

Xenobiotica. 1998 Oct;28(10):995-1004. doi: 10.1080/004982598239056.

DOI:10.1080/004982598239056
PMID:9849646
Abstract
  1. Roxithromycin and its major metabolites found in rat and human urine, namely the decladinosyl derivative (M1), O-dealkyl derivative (M2) and N-demethyl derivative (M3), were incubated with rat liver microsomes and formation of an inhibitory cytochrome P450 (CYP)-metabolite complex and of formaldehyde (measurement of N-demethylation) were determined in vitro. Troleandomycin and erythromycin were also used for comparison. 2. Dexamethasone very significantly induced the microsomal N-demethylations of these macrolide antibiotics. The order of magnitude for the Vmax/Km ratio of N-demethylations by liver microsomes from dexamethasone-treated rats was troleandomycin > erythromycin = M2 > roxithromycin > M3, M1. 3. Formation of an inhibitory P450 x Fe2+-metabolite complex was detected on incubation of these macrolide antibiotics with rat liver microsomes in the presence of an NADPH-generating system and the order of maximum complex formation was troleandomycin > erythromycin > M2 > roxithromycin > M3 > M1. 4. Troleandomycin, erythromycin and M2 inhibited CYP3A-dependent testosterone 6beta-hydroxylation catalysed by liver microsomes from the dexamethasone-treated rat by 54, 33 and 23%, respectively, but roxithromycin, M3 and M1 were very weak by comparison. In the untreated rat, only testosterone 6beta-hydroxylation, but not testosterone 16alpha- and 2alpha-hydroxylation and androstenedione formation, activities were inhibited, indicating that inhibitory actions of these antibiotics are specific for CYP3A enzymes in liver microsomes. 5. These results support the view that formation of an inhibitory P450-metabolite complex is prerequisite for the inhibition of CYP3A-dependent substrate oxidations by rat liver microsomes and that M2 (and M3, to a lesser extent) may be the active metabolite that can form an inhibitory P450-metabolite complex by CYP3A enzyme(s).
摘要
  1. 将罗红霉素及其在大鼠和人尿液中发现的主要代谢物,即去克拉定糖基衍生物(M1)、O-脱烷基衍生物(M2)和N-去甲基衍生物(M3),与大鼠肝微粒体一起孵育,并在体外测定抑制性细胞色素P450(CYP)-代谢物复合物的形成以及甲醛的形成(N-去甲基化的测定)。还使用了醋竹桃霉素和红霉素作比较。2. 地塞米松非常显著地诱导了这些大环内酯类抗生素的微粒体N-去甲基化。地塞米松处理的大鼠肝微粒体进行N-去甲基化的Vmax/Km比值的大小顺序为醋竹桃霉素>红霉素 = M2>罗红霉素>M3、M1。3. 在存在NADPH生成系统的情况下,将这些大环内酯类抗生素与大鼠肝微粒体一起孵育时,检测到抑制性P450×Fe2 + -代谢物复合物的形成,最大复合物形成的顺序为醋竹桃霉素>红霉素>M2>罗红霉素>M3>M1。4. 醋竹桃霉素、红霉素和M2分别抑制地塞米松处理的大鼠肝微粒体催化CYP3A依赖性睾酮6β-羟基化54%、33%和23%,但相比之下,罗红霉素、M3和M1的抑制作用非常弱。在未处理的大鼠中,仅睾酮6β-羟基化活性受到抑制,而睾酮16α-和2α-羟基化以及雄烯二酮形成的活性未受抑制,这表明这些抗生素的抑制作用对肝微粒体中的CYP3A酶具有特异性。5. 这些结果支持以下观点,即抑制性P450-代谢物复合物的形成是大鼠肝微粒体抑制CYP3A依赖性底物氧化的先决条件,并且M2(以及程度较轻的M3)可能是能够通过CYP3A酶形成抑制性P450-代谢物复合物的活性代谢物。

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