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环境中毒时的营养需求:以维生素E与空气污染为例

Nutritional needs in environmental intoxication: vitamin E and air pollution, an example.

作者信息

Menzel D B

出版信息

Environ Health Perspect. 1979 Apr;29:105-13. doi: 10.1289/ehp.7929105.

DOI:10.1289/ehp.7929105
PMID:510230
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1637365/
Abstract

Dietary vitamin E affects the susceptibility of mice and rats to ozone and nitrogen dioxide, suggesting a free radical mechanism of toxicity. Conventional peroxidation does not completely explain the effects of alterations of lung fatty acid composition on both nitrogen dioxide and ozone toxicity. A new scheme is proposed based on the cyclization of beta, gamma-allylic peroxyl free radicals to monocyclic and bicyclic peroxides to explain the relationship between diet and toxicity. Similar results are likely with other toxicants producing peroxidation as a mechanism of toxicity. Such cyclic peroxides may mimic or interfere with the prostaglandin system. Several chronic diseases may be exacerbated through such a subtle toxic mechanism. The level of vitamin E needed for protection against peroxidation toxicity may be much greater than the present U. S. dietary intake.

摘要

膳食中的维生素E会影响小鼠和大鼠对臭氧和二氧化氮的易感性,这表明存在自由基毒性机制。传统的过氧化作用并不能完全解释肺脂肪酸组成的改变对二氧化氮和臭氧毒性的影响。基于β,γ - 烯丙基过氧自由基环化形成单环和双环过氧化物,提出了一种新的机制来解释饮食与毒性之间的关系。对于其他以过氧化作用作为毒性机制的有毒物质,可能会有类似的结果。这种环状过氧化物可能会模拟或干扰前列腺素系统。几种慢性疾病可能会通过这种微妙的毒性机制而加重。预防过氧化毒性所需的维生素E水平可能远高于美国目前的膳食摄入量。

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本文引用的文献

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EFFECT OF DEGREE OF FATTY ACID UNSATURATION IN TOCOPHEROL DEFICIENCY-INDUCED CREATINURIA.脂肪酸不饱和度在生育酚缺乏诱导的肌酸尿症中的作用
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