Wei MengFan, An GaiHong, Fan LiJun, Chen XueWei, Li Chao, Chen JiaJun, Ma Qiang, Yang DanFeng, Wang Jing
Department of Operational Medicine, Tianjin Institute of Environmental and Operational Medicine, Tianjin, China.
Zhongguancun Hospital, Chinese Academy of Sciences, Beijing, China.
Front Physiol. 2023 Jan 13;13:994990. doi: 10.3389/fphys.2022.994990. eCollection 2022.
Menstrual disorders induced by high-temperature environments, can seriously damage women's reproductive health and workability. The regulation mechanism underlying it is not yet to be elucidated. Saliva is an information-rich biological fluid that can reflect systemic diseases. Here, we investigated the characteristics of menstrual cycle disorders and saliva metabolomics to provide a deeper insight of the regulation mechanism of young women in high-temperature environments. Women from high and normal temperature areas of China were selected and divided into two groups-high-temperature (H group) and control (C group). A questionnaire survey was conducted in summer (July) to investigate the incidence rate of menstrual disorders, characteristics of the disorders, and factors influencing the risk of these disorders in different regions. Metabolomics was applied to analyze the characteristics of the salivary metabolites and neurotransmitters in the two groups of women with menstrual disorders. The incidence rate of menstrual disorders was significantly higher in the H group than that in the C group ( < 0.05). High-temperature environment, stress, and sleep quality were identified as critical factors associated with menstrual disorders. Non-targeted saliva metabolomics identified 64 significantly different metabolites between two groups, which mainly enriched in metabolic pathways such as carbohydrate metabolism, membrane transport, digestive system, and nucleotide metabolism ( < 0.05). N-acetylneuraminic acid, MYO, and tyramine may be candidate markers for early diagnosis of menstrual disorders in high temperature environments. Metabolites may be involving in the acute-phase response during an inflammatory process, to affecting the reproductive system by influencing the HPA axis loop. Regulations about oocyte membrane production and the luteal functions would be exerted in menstrual disorders. Targeted metabolomics of neurotransmitters revealed increased expression of histamine (HA) and glutamine and decreased expression of 5-hydroxyindole acetic acid (5-HIAA) ( < 0.05). Menstrual disorder characteristics induced by high temperature environments were specific. Anxiety, sleep quality and temperature feeling were the key factors to the menstrual disorder. endocrine regulation mechanism and inflammatory reactions might contribute to the development of menstrual disorders through influencing the formation of the follicular cell membrane.
高温环境引起的月经紊乱会严重损害女性的生殖健康和工作能力。其潜在的调节机制尚待阐明。唾液是一种富含信息的生物流体,能够反映全身性疾病。在此,我们研究了月经周期紊乱的特征和唾液代谢组学,以更深入地了解高温环境下年轻女性的调节机制。选取中国高温地区和常温地区的女性,分为两组——高温组(H组)和对照组(C组)。在夏季(7月)进行问卷调查,以调查不同地区月经紊乱的发病率、紊乱特征以及影响这些紊乱风险的因素。应用代谢组学分析两组月经紊乱女性唾液代谢物和神经递质的特征。H组月经紊乱的发病率显著高于C组(<0.05)。高温环境、压力和睡眠质量被确定为与月经紊乱相关的关键因素。非靶向唾液代谢组学鉴定出两组之间有64种显著不同的代谢物,主要富集于碳水化合物代谢、膜转运、消化系统和核苷酸代谢等代谢途径(<0.05)。N-乙酰神经氨酸、肌醇和酪胺可能是高温环境下月经紊乱早期诊断的候选标志物。代谢物可能参与炎症过程中的急性期反应,通过影响下丘脑-垂体-肾上腺(HPA)轴环路来影响生殖系统。月经紊乱中会对卵母细胞膜产生和黄体功能进行调节。神经递质的靶向代谢组学显示组胺(HA)和谷氨酰胺表达增加,5-羟吲哚乙酸(5-HIAA)表达降低(<0.05)。高温环境引起的月经紊乱特征具有特异性。焦虑、睡眠质量和温度感受是月经紊乱的关键因素。内分泌调节机制和炎症反应可能通过影响卵泡细胞膜的形成而导致月经紊乱的发生。
