更年期与面部皮肤微生物群:一项试点研究揭示了两者关系的新见解

IF 3.3 Q2 GERIATRICS & GERONTOLOGY Frontiers in aging Pub Date : 2024-03-21 DOI:10.3389/fragi.2024.1353082
M. P. Pagac, Martin Stalder, R. Campiche
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摘要

简介人体皮肤微生物组成受年龄影响。以前的研究报告称,老年人和明显年轻的受试者之间的皮肤微生物组多样性发生了变化。一些研究暗示,与年龄有内在联系的更年期状态可能与皮肤微生物组成的变化有关。尽管如此,更年期状态对皮肤微生物组概况的影响,同时最大限度地减少与衰老相关的皮肤参数变化的影响,仍有待进一步澄清:方法:我们对健康的高加索女性志愿者进行了一项观察性研究,根据她们绝经前或绝经后的状态进行分组。使用 16S rRNA 基因测序分析了面部皮肤的细菌群落结构。测量 Cutometer® 以评估与衰老相关的面部皮肤生物物理特性的变化:结果:在绝经后志愿者的皮肤样本中,亲脂性 Cutibacterium 属的相对丰度降低,细菌多样性增加。本研究中受检组的平均年龄仅相差 12.4 岁。因此,Cutometer® 测量结果显示,绝经前和绝经后两组之间与衰老相关的皮肤生物物理参数没有差异。因此,香农多样性与面部皮肤年龄相关生物力学特性的测量结果之间没有相关性:讨论:这些研究结果与之前的研究结果一致,之前的研究调查了慢性衰老对皮肤微生物群落的广泛影响。然而,这项研究首次报道了更年期状态与年龄相近的研究对象皮肤上的面部微生物群落之间的直接联系,从而将与衰老相关的皮肤生物物理参数(如粘弹性)与等式脱钩。这些发现为开发微生物组靶向策略治疗更年期相关皮肤疾病开辟了道路。
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Menopause and facial skin microbiomes: a pilot study revealing novel insights into their relationship
Introduction: The human skin microbial composition is affected by age. Previous studies reported skin microbiome diversity shifts between elderly and significantly younger subjects. Some studies implied that menopausal status, which is inherently linked to age, could be associated with changes in skin microbial compositions. Nevertheless, the influence of menopausal status on skin microbiome profiles while minimizing the impact of aging-associated changes in skin parameters still needs further clarification.Methods: We performed an observational study on healthy Caucasian female volunteers, which were grouped according to their pre- or postmenopausal status. Bacterial community structures on facial skin were analyzed using 16S rRNA gene sequencing. Cutometer® measurements were performed to evaluate aging-associated changes in facial skin biophysical properties.Results: The relative abundance of the lipophilic Cutibacterium genus was decreased, and bacterial diversity was increased in skin samples of postmenopausal volunteers. The mean age difference between examined groups in this study was 12.4 years only. Accordingly, Cutometer® measurements revealed no differences in aging-associated skin biophysical parameters between pre- and postmenopausal groups. Consequently, no correlation was detected between Shannon diversity and measured age-dependent biomechanical properties of facial skin.Discussion: These findings are in line with previous studies, which investigated the wide-ranging impact of chronological aging on skin microbial communities. However, this work reports for the first time a direct association between menopausal status and facial microbiomes on skin of similarly aged study participants, and hence uncouples aging-associated skin biophysical parameters, such as viscoelastic properties, from the equation. These findings open avenues for the development of microbiome-targeting strategies for treatment of menopause-associated skin disorders.
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