新成人期的微生物生态和新陈代谢:来自大学新生队列的肠道微生物组洞察。

Gut microbes reports Pub Date : 2024-01-01 Epub Date: 2024-08-19 DOI:10.1080/29933935.2024.2387936
Alex E Mohr, Paniz Jasbi, Irene van Woerden, Jinhua Chi, Haiwei Gu, Meg Bruening, Corrie M Whisner
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引用次数: 0

摘要

人类肠道微生物组(GM)在一生中经历着从婴儿期到成年期的动态变化。尽管过去几年人们对遗传、生活方式和外部环境如何影响肠道微生物组有了更深入的了解,但对肠道微生物组在青春期晚期的演变,尤其是在大学生中的演变进行的研究还很有限。本研究通过调查一群住在宿舍的一年级大学生粪便微生物、功能和代谢组特征的纵向动态变化,填补了这一空白。共分析了 246 名参与者的 485 份粪便样本,确定了四种主要的基因改造群落类型,主要由 Bacteroides(占样本的 66.8%)、Blautia 和 Prevotella 主导。普雷沃特氏菌/巴氏菌(P/B)比率是一个可靠的基因改造成分指标,可预测与 15 种代谢物的关系。值得注意的是,较高的 P/B 比率与对甲酚硫酸盐和胆固醇硫酸盐呈负相关,这意味着对健康有潜在影响,而与犬尿氨酸呈正相关。在一个学年中,对 93 名参与者进行了详细的纵向子集研究,发现了不同的基因改造和稳定模式。副球菌和gnavus反刍球菌组与成分变化呈正相关,而粪杆菌和Eubacterium ventriosum组则呈负相关,后者表明在全球机制中起着稳定作用。最值得注意的是,近一半的纵向队列经历了基因改造群落的转变,强调了基因改造的长期适应性。将具有稳定群落类型的个体与正在经历转变的个体进行比较,我们观察到微生物组成和多样性存在显著差异,这表明在转变过程中微生物群发生了重大变化。虽然与饮食相关的变量导致了一些观察到的差异,但通过多状态马尔可夫模型,饮食并不能独立预测研究时间范围内群落类型之间的转换概率。此外,对经历群落类型转换的纵向队列中动态微生物组稳定性的研究表明,属级微生物组分类群的总方差明显高于估计的功能和粪便代谢组特征。这表明,尽管群落发生了变化,但功能和代谢仍受到严格控制。总之,这项研究强调了青少年晚期基因组的动态性质、核心类群的作用、代谢途径、粪便代谢组以及生活方式和饮食因素,有助于我们了解这一生命阶段的基因组组装和潜在的健康影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microbial Ecology and Metabolism of Emerging Adulthood: Gut Microbiome Insights from a College Freshman Cohort.

The human gut microbiome (GM) undergoes dynamic changes throughout life, transitioning from infancy to adulthood. Despite improved understanding over the past years about how genetics, lifestyle, and the external environment impact the GM, limited research has explored the GM's evolution during late-stage adolescence, especially among college students. This study addresses this gap by investigating the longitudinal dynamics of fecal microbial, functional, and metabolomic signatures in a diverse group of first-year, dormitory-housed college students. A total of 485 stool samples from 246 participants were analyzed, identifying four primary GM community types, predominantly led by Bacteroides (66.8% of samples), as well as Blautia and Prevotella. The Prevotella/Bacteroides (P/B) ratio emerged as a robust GM composition indicator, predictively associated with 15 metabolites. Notably, higher P/B ratios correlated negatively with p-cresol sulfate and cholesterol sulfate, implying potential health implications, while positively correlating with kynurenic acid. Distinct GM transition and stability patterns were found from a detailed longitudinal subset of 93 participants over an academic year. Parasutterella and the Ruminococcus gnavus group exhibited positive associations with compositional variability, whereas Faecalibacterium and Eubacterium ventriosum group displayed negative associations, the latter suggesting stabilizing roles in the GM. Most notably, nearly half of the longitudinal cohort experienced GM community shifts, emphasizing long-term GM adaptability. Comparing individuals with stable community types to those undergoing transitions, we observed significant differences in microbial composition and diversity, signifying substantial shifts in the microbiota during transitions. Although diet-related variables contributed to some observed variance, diet did not independently predict the probability of switching between community types within the study's timeframe via multi-state Markov modeling. Furthermore, exploration of stability within dynamic microbiomes among the longitudinal cohort experiencing shifts in community types revealed that microbiome taxa at the genus level exhibited significantly higher total variance than estimated functional and fecal metabolomic features. This suggests tight control of function and metabolism, despite community shifting. Overall, this study highlights the dynamic nature of the late-stage adolescent GM, the role of core taxa, metabolic pathways, the fecal metabolome, and lifestyle and dietary factors, contributing to our understanding of GM assembly and potential health implications during this life phase.

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