McKillop D, McCormick A D, Millar A, Miles G S, Phillips P J, Hutchison M
Drug Metabolism and Pharmacokinetics Department, AstraZeneca, Macclesfield, UK.
Xenobiotica. 2005 Jan;35(1):39-50. doi: 10.1080/00498250400026464.
The in vitro metabolism of [(14)C]-gefitinib (1-3 microM) was investigated using human liver microsomes and a range of expressed human cytochrome P450 enzymes, with particular focus on the formation of O-desmethyl-gefitinib (M523595), the major metabolite observed in human plasma. High-performance liquid chromatography with ultraviolet light, radiochemical and mass spectral analysis, together with the availability of authentic standards, enabled quantification and structural identification of metabolites. On incubation with pooled human liver microsomes, [(14)C]-gefitinib underwent rapid and extensive metabolism to a number of metabolites, although M523595 was only a minor microsomal product. Formation of most metabolites was markedly decreased by ketoconazole, but M523595 production was inhibited only by quinidine. Gefitinib was metabolized extensively by expressed CYP3A4, producing a similar range of metabolites to liver microsomes, but M523595 was not formed. CYP1A2, 2C9 and 2C19 produced no measurable metabolism of gefitinib, while CYP3A5 produced a range of metabolites similar to CYP3A4, but to a much lower degree. In contrast, CYP2D6 catalysed rapid and extensive metabolism of gefitinib to M523595. While formation of M523595 was CYP2D6 mediated, the overall metabolism of gefitinib was dependent primarily on CYP3A4, and this was not obviously diminished in liver microsomes from CYP2D6 poor metabolizers.
使用人肝微粒体和一系列表达的人细胞色素P450酶研究了[(14)C] -吉非替尼(1 - 3 microM)的体外代谢,特别关注O -去甲基吉非替尼(M523595)的形成,这是在人血浆中观察到的主要代谢产物。高效液相色谱结合紫外光、放射化学和质谱分析,以及 authentic标准品的可用性,能够对代谢产物进行定量和结构鉴定。与合并的人肝微粒体孵育时,[(14)C] -吉非替尼迅速且广泛地代谢为多种代谢产物,尽管M523595只是一种次要的微粒体产物。酮康唑可显著降低大多数代谢产物的形成,但仅奎尼丁能抑制M523595的产生。吉非替尼被表达的CYP3A4广泛代谢,产生与肝微粒体类似的一系列代谢产物,但未形成M523595。CYP1A2、2C9和2C19对吉非替尼未产生可测量的代谢,而CYP3A5产生了与CYP3A4类似的一系列代谢产物,但程度要低得多。相比之下,CYP2D6催化吉非替尼迅速且广泛地代谢为M523595。虽然M523595的形成是由CYP2D6介导的,但吉非替尼的整体代谢主要依赖于CYP3A4,并且在CYP2D6慢代谢者的肝微粒体中这种情况并未明显减弱。
