韩国人群中异喹胍和S-美芬妥英的羟基化表型与基因型

Debrisoquine and S-mephenytoin hydroxylation phenotypes and genotypes in a Korean population.

作者信息

Roh H K, Dahl M L, Johansson I, Ingelman-Sundberg M, Cha Y N, Bertilsson L

机构信息

Department of Medical Laboratory Sciences and Technology, Karolinska institutet, Huddinge Hospital, Sweden.

出版信息

Pharmacogenetics. 1996 Oct;6(5):441-7. doi: 10.1097/00008571-199610000-00008.

DOI:10.1097/00008571-199610000-00008

PMID:8946476

Abstract

One hundred and fifty-two healthy Korean volunteers were phenotyped with debrisoquine and mephenytoin and genotyped with respect to CYP2D6. The debrisoquine metabolic ratio (MR) varied between 0.09 and 6.3, and all subjects were thus classified as extensive metabolizers of debrisoquine. Polymerase chain reaction (PCR)-based amplification of genomic DNA with primers specific for the C188-->T mutation present in exon 1 of the CYP2D610B allele was performed and revealed an allele frequency of 0.51 in this Korean population. Forty-three subjects (28%) were homozygous for CYP2D610B, 69 subjects (45%) were heterozygous for this allele, while in 40 subjects (26%) no exon 1 mutation could be found. All subjects except one homozygous for the wild type allele had MRs below 0.75 whereas the MR was higher than 0.99 in all subjects homozygous for the CYP2D610B allele. The MRs in the three genotype groups were significantly different (p < 0.0001; Kruskal-Wallis test). Eco RI RFLP analysis of DNA from six subjects with debrisoquine MRs < or = 0.11 revealed that only one (MR 0.09) carried a duplicated CYP2D6*Z-gene (CYP2D6*2X2) as indicated by the Eco RI 12.1 kb haplotype. It is concluded that, as shown earlier for Chinese and Japanese populations, the CYP2D6*10B-allele containing the C188-->T mutation is the major cause of diminished CYP2D6 activity in Koreans. In this Korean population, the MR of debrisoquine was shifted towards higher values (lower CYP2D6 activity) compared with Caucasian populations but the shift appeared to be less pronounced than earlier shown for Chinese. Twenty-four subjects (16%) were poor metabolizers of S-mephenytoin as indicated by the S/R mephenytoin ratio of about 1. Twenty-three of these were genotyped with respect to the defect CYP2C19-alleles CYP2C192 and CYP2C193. Of the 46 poor metabolizer alleles, 32 (70%) were CYP2C192 and the remaining 14 (30%) were CYP2C193. Thus, the defect CYP2C192 and CYP2C19*3-alleles explained 100% of the 23 Korean poor metabolizers of S-mephenytoin.

摘要

152名健康的韩国志愿者接受了异喹胍和美芬妥英的表型分析，并进行了CYP2D6基因分型。异喹胍代谢率（MR）在0.09至6.3之间变化，因此所有受试者均被归类为异喹胍的广泛代谢者。使用针对CYP2D610B等位基因外显子1中存在的C188→T突变的引物对基因组DNA进行基于聚合酶链反应（PCR）的扩增，结果显示该韩国人群中该等位基因的频率为0.51。43名受试者（28%）为CYP2D610B纯合子，69名受试者（45%）为该等位基因的杂合子，而40名受试者（26%）未发现外显子1突变。除一名野生型等位基因纯合子外，所有受试者的MR均低于0.75，而所有CYP2D610B等位基因纯合子受试者的MR均高于0.99。三个基因型组的MR有显著差异（p<0.0001；Kruskal-Wallis检验）。对6名异喹胍MR≤0.11的受试者的DNA进行Eco RI RFLP分析发现，只有一名受试者（MR 0.09）携带重复的CYP2D6Z基因（CYP2D62X2），如Eco RI 12.1 kb单倍型所示。结论是，如之前在中国和日本人群中所显示的那样，含有C188→T突变的CYP2D610B等位基因是韩国人CYP2D6活性降低的主要原因。在这个韩国人群中，与白种人群相比，异喹胍的MR向更高值偏移（CYP2D6活性更低），但这种偏移似乎没有之前在中国人群中显示的那么明显。24名受试者（16%）为S-美芬妥英的慢代谢者，S/美芬妥英比值约为1表明了这一点。其中23名受试者针对缺陷的CYP2C19等位基因CYP2C192和CYP2C193进行了基因分型。在46个慢代谢者等位基因中，32个（70%）为CYP2C192，其余14个（30%）为CYP2C193。因此，缺陷的CYP2C192和CYP2C193等位基因解释了23名韩国S-美芬妥英慢代谢者中的100%。

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韩国人群中异喹胍和S-美芬妥英的羟基化表型与基因型

Debrisoquine and S-mephenytoin hydroxylation phenotypes and genotypes in a Korean population.

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