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代谢物:宿主与微生物的汇聚节点,用于解释元生物体。

Metabolites: a converging node of host and microbe to explain meta-organism.

作者信息

Chakraborty Nabarun

机构信息

Medical Readiness Systems Biology, CMPN, WRAIR, Silver Spring, MD, United States.

出版信息

Front Microbiol. 2024 Mar 5;15:1337368. doi: 10.3389/fmicb.2024.1337368. eCollection 2024.

Abstract

Meta-organisms encompassing the host and resident microbiota play a significant role in combatting diseases and responding to stress. Hence, there is growing traction to build a knowledge base about this ecosystem, particularly to characterize the bidirectional relationship between the host and microbiota. In this context, metabolomics has emerged as the major converging node of this entire ecosystem. Systematic comprehension of this resourceful omics component can elucidate the organism-specific response trajectory and the communication grid across the ecosystem embodying meta-organisms. Translating this knowledge into designing nutraceuticals and next-generation therapy are ongoing. Its major hindrance is a significant knowledge gap about the underlying mechanisms maintaining a delicate balance within this ecosystem. To bridge this knowledge gap, a holistic picture of the available information has been presented with a primary focus on the microbiota-metabolite relationship dynamics. The central theme of this article is the gut-brain axis and the participating microbial metabolites that impact cerebral functions.

摘要

包含宿主和常驻微生物群的元生物体在对抗疾病和应对压力方面发挥着重要作用。因此,建立关于这个生态系统的知识库越来越受到关注,特别是为了描述宿主与微生物群之间的双向关系。在这种背景下,代谢组学已成为整个生态系统的主要汇聚节点。对这个丰富的组学成分进行系统理解,可以阐明生物体特异性的反应轨迹以及体现元生物体的整个生态系统中的通讯网络。将这些知识转化为营养保健品的设计和下一代疗法的研究正在进行中。其主要障碍是在维持这个生态系统内微妙平衡的潜在机制方面存在重大知识空白。为了填补这一知识空白,本文呈现了现有信息的整体图景,主要聚焦于微生物群 - 代谢物关系动态。本文的核心主题是肠 - 脑轴以及影响大脑功能的参与其中的微生物代谢物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5076/10949987/fa843626b03c/fmicb-15-1337368-g001.jpg

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