A Systematic Review of the Molecular Mechanisms of Uranium -Induced Reproductive Toxicity.

M. Asghari, S. Saeidnia, M. Rezvanfar, M. Abdollahi
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引用次数: 11

Abstract

Uranium is the heaviest metal known as nuclear fuel, and employed in the production of glass tinting compounds, ceramic glazes, gyroscope wheels, chemical catalysts and X-ray tube targets. Inhalation and ingestion are two of the most usual ways of exposure. Uranium may be released into drinking water through the mining leading to contamination. Uranium is able to damage the DNA by generation of free radicals and acting as a catalyst in the Fenton reactions causing oxidative stress. In fact, reproductive system contains high amount of polyunsaturated fatty acids, and therefore it is highly vulnerable to reactive oxygen species (ROS) and sensitive to uranium toxicity. Toxic effects of uranium are generally reported through different mechanisms of action including inflammation, degeneration of testis, vacuolization of Leydig cells, spermatocytes necrosis, and oocyte dysmorphism. The present article provides a comprehensive review of the recent findings mostly about the molecular and biochemical toxicity of uranium on the reproductive system.
铀诱导生殖毒性分子机制的系统综述。
铀是已知的最重的金属核燃料,用于生产玻璃着色化合物、陶瓷釉料、陀螺仪车轮、化学催化剂和x射线管靶材。吸入和摄入是两种最常见的接触方式。铀可能通过采矿释放到饮用水中导致污染。铀能够通过产生自由基来破坏DNA,并在引起氧化应激的芬顿反应中起到催化剂的作用。事实上,生殖系统含有大量的多不饱和脂肪酸,因此对活性氧(ROS)非常脆弱,对铀毒性非常敏感。铀的毒性作用通常通过不同的作用机制报道,包括炎症、睾丸变性、间质细胞空泡化、精母细胞坏死和卵母细胞畸形。本文综述了近年来铀对生殖系统的分子毒性和生化毒性的研究进展。
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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