Vatsis K P, Weber W W
Department of Pharmacology, Medical School, University of Michigan, Ann Arbor 48109-0626.
Arch Biochem Biophys. 1993 Feb 15;301(1):71-6. doi: 10.1006/abbi.1993.1116.
The human N-acetylation polymorphism is a genetic trait phenotypically reflected by differences in N-acetyltransferase (NAT) activity with therapeutic agents (rapid and slow acetylation), but a genetic invariability in N-acetylation of some arylamine drugs is also known. There are two highly similar human NAT genes: NAT1 is thought to encode a genetically invariant protein, whereas NAT2 has conclusively been shown to represent a polymorphic locus. This study demonstrates the presence of discrete NAT1 structural variants among Caucasians. These were detected by direct sequencing of 1.6-kilobase NAT1 fragments generated by the polymerase chain reaction with liver and leukocyte DNA from 13 subjects of established acetylator phenotype and NAT2 genotype. A prominent alteration in one of the variants was obliteration of the consensus polyadenylation signal (AATAAA-->AAAAAA). Several mutations were discernible in all regions of the second variant allele, including silent (codon 153) and nonsilent (Ser-214-->Ala) substitutions in the coding region and deletion of nine bases from an AT-rich segment in the 3' untranslated region. One-half of the unrelated subjects were either homozygous or heterozygous for the mutant NAT1 alleles, both of which obeyed a Mendelian inheritance pattern. These novel results unambiguously show that human NAT1, like NAT2, is a polymorphic locus.
人类的N - 乙酰化多态性是一种遗传特征,在表型上表现为N - 乙酰转移酶(NAT)对治疗药物活性的差异(快速和慢速乙酰化),但某些芳胺药物的N - 乙酰化也存在遗传不变性。人类有两个高度相似的NAT基因:NAT1被认为编码一种遗传不变的蛋白质,而NAT2已被确凿证明代表一个多态性位点。本研究证明了高加索人群中存在离散的NAT1结构变异。通过对13名已确定乙酰化表型和NAT2基因型的受试者的肝脏和白细胞DNA进行聚合酶链反应产生的1.6千碱基NAT1片段进行直接测序来检测这些变异。其中一个变异的一个显著改变是共有聚腺苷酸化信号的消失(AATAAA→AAAAAA)。在第二个变异等位基因的所有区域都可辨别出几个突变,包括编码区的沉默(密码子153)和非沉默(Ser - 214→Ala)替换,以及3'非翻译区富含AT的片段中九个碱基的缺失。一半的无关受试者对于突变的NAT1等位基因是纯合子或杂合子,这两种情况都遵循孟德尔遗传模式。这些新结果明确表明,人类NAT1与NAT2一样,是一个多态性位点。
