圣约翰草成分金丝桃素对人肝细胞培养物中多西他赛代谢的影响。

Effect of the St. John's wort constituent hyperforin on docetaxel metabolism by human hepatocyte cultures.

作者信息

Komoroski Bernard J, Parise Robert A, Egorin Merrill J, Strom Stephen C, Venkataramanan Raman

机构信息

Department of Pharmaceutical Sciences, University of Pittsburgh School of Pharmacy, Pennsylvania 15213-1863, USA.

出版信息

Clin Cancer Res. 2005 Oct 1;11(19 Pt 1):6972-9. doi: 10.1158/1078-0432.CCR-04-2488.

DOI:10.1158/1078-0432.CCR-04-2488

PMID:16203790

Abstract

BACKGROUND AND PURPOSE

St. John's wort is a commonly used herbal medication that increases cytochrome P450 3A (CYP3A) activity. Because docetaxel is inactivated by CYP3A, we studied the effects of the St. John's wort constituent hyperforin on docetaxel metabolism in a human hepatocyte model.

EXPERIMENTAL DESIGN

Hepatocytes, isolated from three donor livers, were exposed to hyperforin (0.1, 0.5, or 1.5 micromol/L) or rifampin (10 micromol/L) for 48 hours. After 48 hours, hyperforin- or rifampin-containing medium was replaced with medium containing 100 micromol/L docetaxel. After 1 hour, docetaxel metabolism was characterized by liquid chromatography-tandem mass spectrometry. Subsequent incubations characterized the specific cytochrome P450s that produced the docetaxel metabolites observed in hepatocyte incubations.

RESULTS

Rifampin induced docetaxel metabolism 6.8- to 32-fold above docetaxel metabolism in control cultures. Hyperforin induced docetaxel metabolism in all three hepatocyte preparations. Hyperforin induction was dose-dependent and, at maximum, was 2.6- to 7-fold greater than that in controls. Docetaxel metabolites identified in rifampin- and hyperforin-treated hepatocyte preparations included the previously described tert-butyl-hydroxylated metabolite and two previously unidentified metabolites involving hydroxylation on the baccatin ring. CYP3A4 produced the tert-butyl-hydroxylated metabolite and the two ring-hydroxylated metabolites. CYP2C8 produced one of the newly described ring-hydroxylated metabolites.

CONCLUSIONS

Exposure to the St. John's wort constituent hyperforin induces docetaxel metabolism in vitro. This implies that subtherapeutic docetaxel concentrations may result when docetaxel is administered to patients using St. John's wort on a chronic basis. The results also show induction of previously undescribed metabolic pathways for docetaxel, one of which may be analogous to the known 6-alpha-hydroxylation of paclitaxel by CYP2C8.

摘要

背景与目的

圣约翰草是一种常用的草药制剂，可增加细胞色素P450 3A（CYP3A）的活性。由于多西他赛可被CYP3A灭活，我们在人肝细胞模型中研究了圣约翰草成分金丝桃素对多西他赛代谢的影响。

实验设计

从三个供体肝脏分离出的肝细胞，分别用金丝桃素（0.1、0.5或1.5微摩尔/升）或利福平（10微摩尔/升）处理48小时。48小时后，将含金丝桃素或利福平的培养基换成含100微摩尔/利多西他赛的培养基。1小时后，用液相色谱-串联质谱法对多西他赛代谢进行表征。随后的孵育确定了在肝细胞孵育中产生观察到的多西他赛代谢产物的特定细胞色素P450。

结果

利福平诱导的多西他赛代谢比对照培养物中的多西他赛代谢高6.8至32倍。金丝桃素在所有三种肝细胞制剂中均诱导了多西他赛代谢。金丝桃素的诱导呈剂量依赖性，最大诱导量比对照高2.6至7倍。在利福平处理和金丝桃素处理的肝细胞制剂中鉴定出的多西他赛代谢产物包括先前描述的叔丁基羟基化代谢产物和两种先前未鉴定的涉及浆果赤霉素环羟基化的代谢产物。CYP3A4产生叔丁基羟基化代谢产物和两种环羟基化代谢产物。CYP2C8产生了一种新描述的环羟基化代谢产物。

结论

接触圣约翰草成分金丝桃素可在体外诱导多西他赛代谢。这意味着当长期使用圣约翰草的患者使用多西他赛时，可能会导致多西他赛浓度低于治疗水平。结果还显示了多西他赛以前未描述的代谢途径的诱导，其中一条可能类似于已知的CYP2C8对紫杉醇的6-α-羟基化。

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圣约翰草成分金丝桃素对人肝细胞培养物中多西他赛代谢的影响。

Effect of the St. John's wort constituent hyperforin on docetaxel metabolism by human hepatocyte cultures.

作者信息

机构信息

出版信息

BACKGROUND AND PURPOSE

EXPERIMENTAL DESIGN

RESULTS

CONCLUSIONS

背景与目的

实验设计

结果

结论

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