人司巴丁N-氧化缺陷：一种新的药物遗传学缺陷。

Defective N-oxidation of sparteine in man: a new pharmacogenetic defect.

作者信息

Eichelbaum M, Spannbrucker N, Steincke B, Dengler H J

出版信息

Eur J Clin Pharmacol. 1979 Sep;16(3):183-7. doi: 10.1007/BF00562059.

DOI:10.1007/BF00562059

Abstract

Sparteine, an antiarrhythmic and oxytocic drug, is metabolised by N1-oxidation. The sparteine-N1-oxide rearranges with loss of water to 2- and 5-dehydrosparteine. 18 (i.e., 5%) out of 360 subjects were unable to metabolise the drug. These persons, who were designated as nonmetabolisers, excreted almost 100% of the administered dose in urine as unchanged drug. The defective metabolism of sparteine was found to have a genetic basis. Sparteine-N1-oxidation appears to be determined by two allelic genes at a single locus where nonmetabolisers are homozygous for an autosomal recessive gene.

摘要

司巴丁是一种抗心律失常和催产药物，通过N1-氧化进行代谢。司巴丁-N1-氧化物会脱水重排生成2-和5-脱氢司巴丁。360名受试者中有18名（即5%）无法代谢该药物。这些被认定为非代谢者的人，几乎将给药剂量的100%以原形药物的形式经尿液排出。已发现司巴丁代谢缺陷具有遗传基础。司巴丁-N1-氧化似乎由位于单个位点的两个等位基因决定，在该位点，非代谢者是常染色体隐性基因的纯合子。

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人司巴丁N-氧化缺陷：一种新的药物遗传学缺陷。

Defective N-oxidation of sparteine in man: a new pharmacogenetic defect.

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