Nitrosamine carcinogen activation pathway determined by quantum chemical methods.

Molecular toxicology Pub Date : 1987-01-01
M Poulsen, D Spangler, G H Loew
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Abstract

Multiple reactions are thought to be involved in transforming dialkynitrosamines to active carcinogens. The first proposed step is enzymatic alpha-hydroxylation by the active oxygen species of cytochrome P-450, followed by nonenzymatic N-dealkylation and formation of diazohydroxides (RNNOH). The latter transformation can reasonably occur by a two-step mechanism via tautomerization of a monoalkylnitrosamine intermediate or directly from the alpha-hydroxylated species in one step. Both of these pathways in the transformation of hydroxymethylnitrosamine to diazohydroxide and formaldehyde were examined by the semiempirical molecular orbital method MNDO (modified neglect of diatomic differential overlap) and the ab initio method using STO-3G and 3-21G basis sets. Complete geometry optimizations of all reactants, intermediates, transition states, and products were performed. MNDO was also used to compare the similar transformation of the dimethyl analog. Both methods show that in the gas phase a concerted pathway involving a six-membered ring transition-state pathway is kinetically favored over a two-step pathway involving N-demethylation followed by tautomerization via two four-membered ring transition states. This reaction appears to be a viable one to formation of an ultimate carcinogen by parent dialkylnitrosamines in the hydrophobic substrate binding site of cytochrome P-450.

量子化学方法确定亚硝胺致癌物激活途径。
多种反应被认为参与了将二烷基亚硝胺转化为活性致癌物的过程。第一步是由细胞色素P-450的活性氧进行酶促α -羟基化,然后是非酶促n -脱烷基和形成重氮羟基(RNNOH)。后一种转化可以通过单烷基亚硝胺中间体的互变异构化或直接从α羟基化的物种在一步中通过两步机制合理地发生。利用STO-3G和3-21G基集,采用半经验分子轨道法MNDO(修正忽略双原子差异重叠)和从头算方法研究了这两种羟甲基亚硝胺转化为重氮氢氧化物和甲醛的途径。对所有的反应物、中间体、过渡态和产物进行了完整的几何优化。MNDO还用于比较二甲基类似物的类似转化。两种方法都表明,在气相中,涉及六元环过渡态的协调途径比涉及n-去甲基化和通过两个四元环过渡态的互变异构化的两步途径在动力学上更受青睐。该反应似乎是母体二烷基亚硝胺在细胞色素P-450疏水底物结合位点形成最终致癌物的可行反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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