The Mechanisms of the Inactivation of Human Alpha-1-Proteinase Inhibitor by Gas-Phase Cigarette Smoke

William A. Pryor, Margaret M. Dooley, Daniel F. Church
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引用次数: 52

Abstract

Cigarette smoke, either directly or indirectly, causes alpha-1-proteinase inhibitor (a1PI) to lose elastase inhibitory capacity (EIC), leaving lung connective tissues susceptible to proteolytic degradation. This paper discusses possible mechanisms for inactivation by cigarette smoke (CS) and by a model system [NO, isoprene, and air] that duplicates much of CS free radical chemistry. Inactivation of a1PI by either CS or the model is biphasic; a fast inactivation is followed by a slower one. With pre-prepared extracts, only the slow inactivation is observed. Apparently short-lived species in the smoke itself and the model system cause the fast inactivation; they may be peroxynitrates, which form in smoke from nitrogen dioxide and peroxyl radicals. The slower inactivation appears to involve hydrogen peroxide and/or organic hydroperoxides or species produced by them. Incubation of a1PI with linoleic acid produces a slow loss of EIC, prevented by the presence of vitamin E, which supports the hypothesis of a route involving lipid hydroperoxides. Protection of a1PI by various types of compounds shows that unprotonated amines and amino acids protect, but the protonated or acylated compounds do not. Ascorbate and glutathione provide the strongest protection.

人α -1蛋白酶抑制剂被气相香烟烟雾失活的机制
香烟烟雾直接或间接地导致α -1蛋白酶抑制剂(a1PI)失去弹性酶抑制能力(EIC),使肺结缔组织容易受到蛋白水解降解的影响。本文讨论了香烟烟雾(CS)和模型系统[NO,异戊二烯和空气]灭活的可能机制,该系统复制了CS自由基化学的大部分。CS或模型对a1PI的失活是双相的;快速失活之后是缓慢失活。使用预先制备的提取物,只观察到缓慢的失活。显然,烟雾本身和模式系统中的短寿命物种导致了快速失活;它们可能是过氧硝酸盐,由二氧化氮和过氧自由基在烟雾中形成。较慢的失活似乎涉及过氧化氢和/或有机氢过氧化物或由它们产生的物质。a1PI与亚油酸孵育产生EIC的缓慢损失,维生素E的存在阻止了EIC的损失,这支持了脂质氢过氧化物途径的假设。各种化合物对a1PI的保护表明,未质子化的胺和氨基酸具有保护作用,而质子化或酰化的化合物则没有保护作用。抗坏血酸和谷胱甘肽提供最强的保护。
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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