The contribution of gut bacterial metabolites in the human immune signaling pathway of non-communicable diseases

The contribution of gut bacterial metabolites in the human immune signaling pathway of non-communicable diseases

The interaction disorder between gut microbiota and its host has been documented in different non-communicable diseases (NCDs) such as metabolic syndrome, neurodegenerative disease, and autoimmune disease. The majority of these altered interactions arise through metabolic cross-talk between gut micr...

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Main Authors: F. Hosseinkhani, A. Heinken, I. Thiele, P. W. Lindenburg, A. C. Harms, T. Hankemeier
Format: Article
Language:English
Published: Taylor & Francis Group 2021-01-01
Series:Gut Microbes
Subjects:
bacterial metabolites
immune signaling
non-communicable diseases
gut microbiota
metabolomics
system biology
Online Access:http://dx.doi.org/10.1080/19490976.2021.1882927
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spelling doaj-2424721738af45df95eb50fd4b3670d82021-07-06T12:16:08ZengTaylor & Francis GroupGut Microbes1949-09761949-09842021-01-0113110.1080/19490976.2021.18829271882927The contribution of gut bacterial metabolites in the human immune signaling pathway of non-communicable diseasesF. Hosseinkhani0A. Heinken1I. Thiele2P. W. Lindenburg3A. C. Harms4T. Hankemeier5Leiden UniversityNational University of IrelandNational University of IrelandLeiden UniversityLeiden UniversityLeiden UniversityThe interaction disorder between gut microbiota and its host has been documented in different non-communicable diseases (NCDs) such as metabolic syndrome, neurodegenerative disease, and autoimmune disease. The majority of these altered interactions arise through metabolic cross-talk between gut microbiota and host immune system, inducing a low-grade chronic inflammation that characterizes all NCDs. In this review, we discuss the contribution of bacterial metabolites to immune signaling pathways involved in NCDs. We then review recent advances that aid to rationally design microbial therapeutics. A deeper understanding of these intersections between host and gut microbiota metabolism using metabolomics-based system biology platform promises to reveal the fundamental mechanisms that drive metabolic predispositions to disease and suggest new avenues to use microbial therapeutic opportunities for NCDs treatment and prevention. Abbreviations: NCDs: non-communicable disease, IBD: inflammatory bowel disease, IL: interleukin, T2D: type 2 diabetes, SCFAs: short-chain fatty acids, HDAC: histone deacetylases, GPCR: G-protein coupled receptors, 5-HT: 5-hydroxytryptamine receptor signaling, DCs: dendritic cells, IECs: intestinal epithelial cells, T-reg: T regulatory cell, NF-κB: nuclear factor κB, TNF-α: tumor necrosis factor alpha, Th: T helper cell, CNS: central nervous system, ECs: enterochromaffin cells, NSAIDs: non-steroidal anti-inflammatory drugs, AhR: aryl hydrocarbon receptor, IDO: indoleamine 2,3-dioxygenase, QUIN: quinolinic acid, PC: phosphatidylcholine, TMA: trimethylamine, TMAO: trimethylamine N-oxide, CVD: cardiovascular disease, NASH: nonalcoholic steatohepatitis, BAs: bile acids, FXR: farnesoid X receptor, CDCA: chenodeoxycholic acid, DCA: deoxycholic acid, LCA: lithocholic acid, UDCA: ursodeoxycholic acid, CB: cannabinoid receptor, COBRA: constraint-based reconstruction and analysishttp://dx.doi.org/10.1080/19490976.2021.1882927bacterial metabolitesimmune signalingnon-communicable diseasesgut microbiotametabolomicssystem biology
collection DOAJ
language English
format Article
sources DOAJ
author F. Hosseinkhani
A. Heinken
I. Thiele
P. W. Lindenburg
A. C. Harms
T. Hankemeier
spellingShingle F. Hosseinkhani
A. Heinken
I. Thiele
P. W. Lindenburg
A. C. Harms
T. Hankemeier
The contribution of gut bacterial metabolites in the human immune signaling pathway of non-communicable diseases
Gut Microbes
bacterial metabolites
immune signaling
non-communicable diseases
gut microbiota
metabolomics
system biology
author_facet F. Hosseinkhani
A. Heinken
I. Thiele
P. W. Lindenburg
A. C. Harms
T. Hankemeier
author_sort F. Hosseinkhani
title The contribution of gut bacterial metabolites in the human immune signaling pathway of non-communicable diseases
title_short The contribution of gut bacterial metabolites in the human immune signaling pathway of non-communicable diseases
title_full The contribution of gut bacterial metabolites in the human immune signaling pathway of non-communicable diseases
title_fullStr The contribution of gut bacterial metabolites in the human immune signaling pathway of non-communicable diseases
title_full_unstemmed The contribution of gut bacterial metabolites in the human immune signaling pathway of non-communicable diseases
title_sort contribution of gut bacterial metabolites in the human immune signaling pathway of non-communicable diseases
publisher Taylor & Francis Group
series Gut Microbes
issn 1949-0976
1949-0984
publishDate 2021-01-01
description The interaction disorder between gut microbiota and its host has been documented in different non-communicable diseases (NCDs) such as metabolic syndrome, neurodegenerative disease, and autoimmune disease. The majority of these altered interactions arise through metabolic cross-talk between gut microbiota and host immune system, inducing a low-grade chronic inflammation that characterizes all NCDs. In this review, we discuss the contribution of bacterial metabolites to immune signaling pathways involved in NCDs. We then review recent advances that aid to rationally design microbial therapeutics. A deeper understanding of these intersections between host and gut microbiota metabolism using metabolomics-based system biology platform promises to reveal the fundamental mechanisms that drive metabolic predispositions to disease and suggest new avenues to use microbial therapeutic opportunities for NCDs treatment and prevention. Abbreviations: NCDs: non-communicable disease, IBD: inflammatory bowel disease, IL: interleukin, T2D: type 2 diabetes, SCFAs: short-chain fatty acids, HDAC: histone deacetylases, GPCR: G-protein coupled receptors, 5-HT: 5-hydroxytryptamine receptor signaling, DCs: dendritic cells, IECs: intestinal epithelial cells, T-reg: T regulatory cell, NF-κB: nuclear factor κB, TNF-α: tumor necrosis factor alpha, Th: T helper cell, CNS: central nervous system, ECs: enterochromaffin cells, NSAIDs: non-steroidal anti-inflammatory drugs, AhR: aryl hydrocarbon receptor, IDO: indoleamine 2,3-dioxygenase, QUIN: quinolinic acid, PC: phosphatidylcholine, TMA: trimethylamine, TMAO: trimethylamine N-oxide, CVD: cardiovascular disease, NASH: nonalcoholic steatohepatitis, BAs: bile acids, FXR: farnesoid X receptor, CDCA: chenodeoxycholic acid, DCA: deoxycholic acid, LCA: lithocholic acid, UDCA: ursodeoxycholic acid, CB: cannabinoid receptor, COBRA: constraint-based reconstruction and analysis
topic bacterial metabolites
immune signaling
non-communicable diseases
gut microbiota
metabolomics
system biology
url http://dx.doi.org/10.1080/19490976.2021.1882927
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