夜班对轮岗警官尿液代谢组24小时节律的影响。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Laura Kervezee, Anna Koshy, Nicolas Cermakian, Diane B Boivin
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引用次数: 0

摘要

轮班工人面临着代谢健康问题的风险增加,但夜班工作的直接代谢反应尚不完全清楚。本研究的目的是探讨夜班对轮班工人24小时尿液代谢组的影响。11名轮流工作的警察在连续工作7个晚上之前和之后完成了两次24小时实验室检查。在第一次访问中,睡眠和饮食被安排在白天,然后在第二次访问中,睡眠和饮食被安排在夜间(即,睡眠和饮食大约改变了12小时)。对这些实验室访问期间收集的尿液样本进行了有针对性的代谢组学分析。差异节律性分析用于比较两种情况下尿代谢物的24小时节律。我们的研究结果表明,在白天,大多数代谢物的尿液水平存在24小时节律,但在夜间,这一节律显著降低,部分原因是有机酸节律性的丧失。此外,在两种情况下(所有酰基肉碱)都有节律的代谢物中,超过一半的代谢物在24小时代谢物节律与夜间作息中行为周期的变化不一致。这些结果表明,夜班改变了轮班工人尿液代谢组的日常节律,对酰基肉碱和有机酸的影响最为显著,这两种代谢物与线粒体功能有关。有必要进一步研究这些变化与轮班工作相关的代谢风险增加之间的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The Effect of Night Shifts on 24-h Rhythms in the Urinary Metabolome of Police Officers on a Rotating Work Schedule.

The Effect of Night Shifts on 24-h Rhythms in the Urinary Metabolome of Police Officers on a Rotating Work Schedule.

The Effect of Night Shifts on 24-h Rhythms in the Urinary Metabolome of Police Officers on a Rotating Work Schedule.

The Effect of Night Shifts on 24-h Rhythms in the Urinary Metabolome of Police Officers on a Rotating Work Schedule.

Shift workers face an increased risk of metabolic health problems, but the direct metabolic response to working nights is not fully understood. The aim of this study was to investigate the effect of night shifts on the 24-h urinary metabolome of shift workers. Eleven police officers working rotating shifts completed two 24-h laboratory visits that took place before and after they worked 7 consecutive nights. Sleep and meals were scheduled on a day schedule in the first visit and then on a night schedule (i.e., sleep and meals shifted by approximately 12 h) in the second visit. Targeted metabolomic analysis was performed on urine samples collected throughout these laboratory visits. Differential rhythmicity analysis was used to compare 24-h rhythms in urinary metabolites in both conditions. Our results show that on the day schedule, 24-h rhythms are present in the urinary levels of the majority of metabolites, but that this is significantly reduced on the night schedule, partly due to loss of organic acid rhythmicity. Furthermore, misalignment of 24-h metabolite rhythms with the shifted behavioral cycles in the night schedule was observed in more than half of the metabolites that were rhythmic in both conditions (all acylcarnitines). These results show that working nights alters the daily rhythms of the urinary metabolome in rotating shift workers, with the most notable impact observed for acylcarnitines and organic acids, 2 metabolite classes involved in mitochondrial function. Further research is warranted to study how these changes relate to the increased metabolic risks associated with shift work.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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