调控异喹胍氧化的DH/DL等位基因对苯妥英羟化作用的影响。

Influence of DH/DL alleles regulating debrisoquine oxidation on phenytoin hydroxylation.

作者信息

Sloan T P, Idle J R, Smith R L

出版信息

Clin Pharmacol Ther. 1981 Apr;29(4):493-7. doi: 10.1038/clpt.1981.68.

DOI:10.1038/clpt.1981.68

Abstract

Eleven subjects of previously determined debrisoquine oxidation phenotype status (extensive metabolizer [EM], n = 5; poor metabolizer [PM], n = 6) were studied for their ability to perform the aromatic 4-hydroxylation of phenytoin. The PM subjects studied were found to be slower metabolizers of phenytoin than EM subjects in terms of the metabolite formation rate constant (kfHPPH: EM, 0.030 +/- .007 hr-1; PM, 0.016 +/- 0.003 hr-1, 2p less than 0.001) and cumulative excretion of 4-hydroxyphenytoin (48 hr after dosing: EM, 52.8 +/- 10.7%; PM, 36.9 +/- 7.0%, 2p less than 0.01). It is concluded that the metabolic oxidation of phenytoin is influenced by the same DH and DL alleles, acting at the same locus, that regulate the hydroxylation of debrisoquine and that impaired metabolism of phenytoin may be expected to occur in about 9% of the population, being transmitted as an autosomal-recessive trait. It is suggested that debrisoquine oxidation phenotyping may have predictive value in guiding phenytoin dosage, particularly in those with impaired oxidation.

摘要

对11名先前已确定的异喹胍氧化表型状态的受试者（广泛代谢者[EM]，n = 5；慢代谢者[PM]，n = 6）进行了苯妥英芳香族4-羟基化能力的研究。研究发现，就代谢物形成速率常数（kfHPPH：EM，0.030±0.007小时-1；PM，0.016±0.003小时-1，P<0.001）和4-羟基苯妥英的累积排泄量（给药后48小时：EM，52.8±10.7%；PM，36.9±7.0%，P<0.01）而言，所研究的PM受试者作为苯妥英的代谢者比EM受试者慢。得出的结论是，苯妥英的代谢氧化受相同的DH和DL等位基因影响，这些等位基因作用于同一基因座，调节异喹胍的羟基化，并且苯妥英代谢受损预计可能发生在约9%的人群中，作为常染色体隐性性状遗传。建议异喹胍氧化表型分析在指导苯妥英剂量方面可能具有预测价值，特别是在氧化受损的患者中。

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调控异喹胍氧化的DH/DL等位基因对苯妥英羟化作用的影响。

Influence of DH/DL alleles regulating debrisoquine oxidation on phenytoin hydroxylation.

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