Gut J, Gasser R, Dayer P, Kronbach T, Catin T, Meyer U A
FEBS Lett. 1984 Aug 6;173(2):287-90. doi: 10.1016/0014-5793(84)80792-9.
Indirect evidence suggests that the genetically defective metabolism of drugs such as debrisoquine and bufuralol observed in up to 10% of the population (poor metabolizers) is caused by the absence or functional deficiency of a cytochrome P450 isozyme. Using bufuralol-1'-hydroxylation to carbinol to optimize the procedure, 3 cytochrome P450 isozymes (P450A, P450buf, P450C) were purified to apparent electrophoretic homogeneity from human liver microsomes. P450buf had a specific activity of 20.3 nmol carbinol X nmol P450-1 X 15 min-1 as compared to microsomes (10.0 nmol carbinol X nmol P450(-1) X 15 min-1) when (+)-bufuralol was used as substrate. The stereoselective metabolism of (-)- and (+)-bufuralol to carbinol by purified P450buf [(-)/(+) ratio: 0.13] was strikingly different from that in the microsomes of either an extensive [(-)/(+) ratio: 0.4] or poor metabolizer [(-)/(+) ratio: 0.83] of bufuralol. We propose that this isozyme is the major bufuralol and debrisoquine hydroxylating species and is the target of the genetic deficiency.
间接证据表明,在高达10%的人群(代谢缓慢者)中观察到的诸如异喹胍和丁呋洛尔等药物的基因缺陷代谢是由一种细胞色素P450同工酶的缺失或功能缺陷引起的。利用丁呋洛尔-1'-羟基化生成甲醇来优化实验步骤,从人肝微粒体中纯化出3种细胞色素P450同工酶(P450A、P450buf、P450C),达到了明显的电泳均一性。当使用(+)-丁呋洛尔作为底物时,与微粒体(10.0 nmol甲醇×nmol P450(-1)×15分钟-1)相比,P450buf的比活性为20.3 nmol甲醇×nmol P450-1×15分钟-1。纯化的P450buf将(-)-和(+)-丁呋洛尔立体选择性代谢为甲醇[(-)/(+)比率:0.13],这与丁呋洛尔代谢快的人[(-)/(+)比率:0.4]或代谢缓慢者[(-)/(+)比率:0.83]的微粒体中的情况显著不同。我们认为这种同工酶是丁呋洛尔和异喹胍羟基化的主要物质,并且是基因缺陷的靶点。
