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人类多态性N-乙酰基转移酶的分子遗传学:15种重组野生型、突变型和嵌合NAT2同工酶的酶学分析

Molecular genetics of human polymorphic N-acetyltransferase: enzymatic analysis of 15 recombinant wild-type, mutant, and chimeric NAT2 allozymes.

作者信息

Hein D W, Ferguson R J, Doll M A, Rustan T D, Gray K

机构信息

Department of Pharmacology and Toxicology, University of North Dakota School of Medicine, Grand Forks 58202-9037.

出版信息

Hum Mol Genet. 1994 May;3(5):729-34. doi: 10.1093/hmg/3.5.729.

DOI:10.1093/hmg/3.5.729
PMID:8081359
Abstract

Human polymorphic N-acetyltransferase (NAT2) catalyzes the N-acetylation of arylamine drugs and carcinogens. Human acetylator phenotype is regulated at the NAT2 locus and has been associated with differential risk to certain drug toxicities or cancer. We examined arylamine substrate and acetyl coenzyme A cofactor affinities, and the N-acetyltransferase catalytic activities of the wild-type and 14 different mutant or chimeric human NAT2 alleles expressed in an Escherichia coli JM105 expression system. NAT2 alleles contained nucleic acid substitutions at positions 191(G-->A; Arg64-->Gln), 282(C-->T; silent), 341(T-->C; Ile114-->Thr), 481(C-->T; silent), 590(G-->A; Arg197-->Gln), 803(A-->G; Lys268-->Arg), 857(G-->A; Gly286-->Glu) and various combinations (282/590; 282/803; 282/857; 341/481; 341/803; 341/481/803; 481/803) of the 870 base pair NAT2 coding region. Expression of all 15 NAT2 alleles produced immunoreactive NAT2 protein with N-acetylation activity. NAT2 proteins encoded by alleles with nucleic acid substitutions at positions 191, 341, 590, 282/590, 341/481, 341/803, and 341/481/803 exhibited arylamine N-acetyltransferase maximum velocities significantly (P < 0.001) lower than the wildtype NAT2. Thus, nucleic acid substitutions at positions 191, 341, and 590 either alone or in combination with other silent or conservative amino acid substitutions were sufficient to result in NAT2 proteins with significant reductions in N-acetylation activities. The recombinant NAT2 proteins also showed relative differences in intrinsic stability following incubation at 37 degrees C and 50 degrees C. NAT2 encoded by alleles with nucleotide substitutions at positions 191 and 857 were particularly unstable relative to the wild type.(ABSTRACT TRUNCATED AT 250 WORDS)

摘要

人类多态性N - 乙酰基转移酶(NAT2)催化芳胺类药物和致癌物的N - 乙酰化反应。人类乙酰化酶表型在NAT2基因座受到调控,并且与某些药物毒性或癌症的不同风险相关。我们检测了在大肠杆菌JM105表达系统中表达的野生型和14种不同突变或嵌合的人类NAT2等位基因对芳胺底物和乙酰辅酶A辅因子的亲和力,以及N - 乙酰基转移酶的催化活性。NAT2等位基因在870个碱基对的NAT2编码区的第191位(G→A;Arg64→Gln)、282位(C→T;沉默突变)、341位(T→C;Ile114→Thr)、481位(C→T;沉默突变)、590位(G→A;Arg197→Gln)、803位(A→G;Lys268→Arg)、857位(G→A;Gly286→Glu)存在核酸替换以及各种组合(282/590;282/803;282/857;341/481;341/803;341/481/803;481/803)。所有15种NAT2等位基因的表达均产生具有N - 乙酰化活性的免疫反应性NAT2蛋白。在第191、341、590位以及282/590、341/481、341/803和341/481/803位存在核酸替换的等位基因所编码的NAT2蛋白,其芳胺N - 乙酰基转移酶的最大反应速度显著低于野生型NAT2(P < 0.001)。因此,第191、341和590位的核酸替换单独或与其他沉默或保守氨基酸替换组合,足以导致N - 乙酰化活性显著降低的NAT2蛋白。重组NAT2蛋白在37℃和50℃孵育后的内在稳定性也表现出相对差异。相对于野生型,在第191和857位存在核苷酸替换的等位基因所编码的NAT2尤其不稳定。(摘要截短于250字)

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