为系统生物学应用绘制肠道微生物群依赖性三甲胺氮氧化物超级途径

Isabel M. E. Valenbreder, S. Balăn, M. Breuer, M. Adriaens
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引用次数: 0

摘要

在心血管健康的背景下,连接肠道微生物群和心脏的代谢轴越来越多地被研究。肠道微生物来源的三甲胺/三甲胺n -氧化物(TMA/TMAO)途径沿着这条轴负责将饮食前体生物转化为TMA/TMAO,并通过正反馈相互作用与心力衰竭和生态失调的进展有关。在研究这种相互作用的背景下,系统生物学方法为深化对肠-心轴代谢的理解提供了一个额外的维度。例如,基因组尺度的代谢模型允许在整个细胞甚至全身代谢网络的背景下研究感兴趣的途径的功能作用。在这篇小型综述中,我们概述了TMA/TMAO超级通路的最新发现,并总结了社区平台WikiPathways上策划的通路图中的当前知识状态。路径图既可以作为社区持续管理的起点,也可以作为系统生物学建模研究的资源。这有很多应用,包括解决我们对肠心轴的理解中的空白。我们讨论了如何在现有的全身代谢模型中进一步管理和实施这一途径,这将使研究人员能够计算模拟这一途径,以进一步了解其在心血管代谢中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mapping out the gut microbiota-dependent trimethylamine N-oxide super pathway for systems biology applications
The metabolic axis linking the gut microbiome and heart is increasingly being researched in the context of cardiovascular health. The gut microbiota-derived trimethylamine/trimethylamine N-oxide (TMA/TMAO) pathway is responsible along this axis for the bioconversion of dietary precursors into TMA/TMAO and has been implicated in the progression of heart failure and dysbiosis through a positive-feedback interaction. Systems biology approaches in the context of researching this interaction offer an additional dimension for deepening the understanding of metabolism along the gut-heart axis. For instance, genome-scale metabolic models allow to study the functional role of pathways of interest in the context of an entire cellular or even whole-body metabolic network. In this mini review, we provide an overview of the latest findings on the TMA/TMAO super pathway and summarize the current state of knowledge in a curated pathway map on the community platform WikiPathways. The pathway map can serve both as a starting point for continual curation by the community as well as a resource for systems biology modeling studies. This has many applications, including addressing remaining gaps in our understanding of the gut-heart axis. We discuss how the curated pathway can inform a further curation and implementation of the pathway in existing whole-body metabolic models, which will allow researchers to computationally simulate this pathway to further understand its role in cardiovascular metabolism.
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