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基于使用人肝微粒体和重组人CYP3A4的体外研究对三唑仑与红霉素体内相互作用的预测。

Prediction of in vivo interaction between triazolam and erythromycin based on in vitro studies using human liver microsomes and recombinant human CYP3A4.

作者信息

Kanamitsu S, Ito K, Green C E, Tyson C A, Shimada N, Sugiyama Y

机构信息

Graduate School of Pharmaceutical Sciences, University of Tokyo, Japan.

出版信息

Pharm Res. 2000 Apr;17(4):419-26. doi: 10.1023/a:1007572803027.

DOI:10.1023/a:1007572803027
PMID:10870985
Abstract

PURPOSE

To quantitatively predict the in vivo interaction between triazolam and erythromycin, which involves mechanism-based inhibition of CYP3A4, from in vitro studies using human liver microsomes (HLM) and recombinant human CYP3A4 (REC).

METHODS

HLM or REC was preincubated with erythromycin in the presence of NADPH and then triazolam was added. alpha- and 4-hydroxy (OH) triazolam were quantified after a 3 min incubation and the kinetic parameters for enzyme inactivation (k(inact) and K('app)) were obtained. Drug-drug interaction in vivo was predicted based on a physiologically-based pharmacokinetic (PBPK) model, using triazolam and erythromycin pharmacokinetic parameters obtained from the literature and kinetic parameters for the enzyme inactivation obtained in the in vitro studies.

RESULTS

Whichever enzyme was used, triazolam metabolism was not inhibited without preincubation, even if the erythromycin concentration was increased. The degree of inhibition depended on preincubation time and erythromycin concentration. The values obtained for k(inact) and K('app) were 0.062 min(-1) and 15.9 microM (alpha-OH, HLM), 0.055 min(-1) and 17.4 microM (4-OH, HLM), 0.173 min(-1) and 19.1 microM (alpha-OH, REC), and 0.097 min(-1) and 18.9 microM (4-OH, REC). Based on the kinetic parameters obtained using HLM and REC, the AUCpo of triazolam was predicted to increase 2.0- and 2.6-fold, respectively, following oral administration of erythromycin (333 mg t.i.d. for 3 days), which agreed well with the reported data.

CONCLUSIONS

In vivo interaction between triazolam and erythromycin was successfully predicted from in vitro data based on a PBPK model involving a mechanism-based inhibition of CYP3A4.

摘要

目的

通过使用人肝微粒体(HLM)和重组人CYP3A4(REC)的体外研究,定量预测三唑仑与红霉素之间的体内相互作用,该相互作用涉及基于机制的CYP3A4抑制。

方法

将HLM或REC在NADPH存在下与红霉素预孵育,然后加入三唑仑。孵育3分钟后对α-羟基和4-羟基(OH)三唑仑进行定量,并获得酶失活的动力学参数(k(inact)和K'(app))。基于生理药代动力学(PBPK)模型预测体内药物-药物相互作用,使用从文献中获得的三唑仑和红霉素药代动力学参数以及体外研究中获得的酶失活动力学参数。

结果

无论使用哪种酶,即使增加红霉素浓度,未经预孵育时三唑仑代谢也不会受到抑制。抑制程度取决于预孵育时间和红霉素浓度。k(inact)和K'(app)的值分别为0.062 min-1和15.9 microM(α-OH,HLM)、0.055 min-1和17.4 microM(4-OH,HLM)、0.173 min-1和19.1 microM(α-OH,REC)以及0.097 min-1和18.9 microM(4-OH,REC)。基于使用HLM和REC获得的动力学参数,预测口服红霉素(333 mg每日三次,共3天)后三唑仑的AUCpo分别增加2.0倍和2.6倍,这与报道的数据非常吻合。

结论

基于涉及基于机制的CYP3A4抑制的PBPK模型,从体外数据成功预测了三唑仑与红霉素之间的体内相互作用。

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