光污染:是时候考虑对睾丸的影响了。

IF 3.6 Q2 TOXICOLOGY Frontiers in toxicology Pub Date : 2024-09-16 eCollection Date: 2024-01-01 DOI:10.3389/ftox.2024.1481385
Peter Y Liu
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引用次数: 0

摘要

技术进步引发了现代照明和智能手机革命,夜间人工光照增加到地球生物系统进化史上从未见过的水平。然而,光作为一种污染物在很大程度上仍未被人们认识到,光污染对生殖系统的影响也大多未被考虑,甚至完全未被考虑。尽管生殖系统与新陈代谢和昼夜节律系统有着错综复杂的联系,而这两者甚至会受到低水平光照的干扰。在此,我们旨在通过回顾光照改变与生殖毒理学相关的错综复杂的荷尔蒙、新陈代谢和生殖网络的生理和病理生理学机制来改变这一观点。新近的人类研究确定了光剂量与褪黑激素抑制和昼夜节律重新调整之间关系的光感受器,直接显示了光-暗周期与活动-休息周期的调整对新陈代谢健康的影响,并提供了原则性证明,即适当定时的蓝光富集和蓝光贫乏给药可以加速昼夜节律的重新调整。有了这些进展,现在有必要考虑光污染对睾丸的影响。
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Light pollution: time to consider testicular effects.

Technological advances have led to a modern-day lighting and smartphone revolution, with artificial light exposure at night increasing to levels never before seen in the evolutionary history of living systems on Earth. Light as a pollutant, however, remains largely unrecognized, and the reproductive effects of light pollution are mostly if not entirely unconsidered. This is despite the reproductive system being intricately linked to metabolism and the circadian system, both of which can be disturbed even by low levels of light. Here, we aim to change this perspective by reviewing the physiological and pathophysiological mechanisms by which light exposure alters the intricate hormonal, metabolic and reproductive networks that are relevant to reproductive toxicology. Nascent human studies have recently identified the photoreceptors responsible for the light dose relationship with melatonin suppression and circadian re-entrainment, directly shown the association between the alignment of light-dark cycles with activity-rest cycles on metabolic health and provided proof-of-principle that properly timed blue light-enriched and blue light-depleted delivery can accelerate circadian re-entrainment. With these advances, there is now a need to consider testicular effects of light pollution.

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来源期刊
CiteScore
3.80
自引率
0.00%
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审稿时长
13 weeks
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