Literature DB >> 23828891

The microbial metabolites, short-chain fatty acids, regulate colonic Treg cell homeostasis.

Patrick M Smith1, Michael R Howitt, Nicolai Panikov, Monia Michaud, Carey Ann Gallini, Mohammad Bohlooly-Y, Jonathan N Glickman, Wendy S Garrett.   

Abstract

Regulatory T cells (Tregs) that express the transcription factor Foxp3 are critical for regulating intestinal inflammation. Candidate microbe approaches have identified bacterial species and strain-specific molecules that can affect intestinal immune responses, including species that modulate Treg responses. Because neither all humans nor mice harbor the same bacterial strains, we posited that more prevalent factors exist that regulate the number and function of colonic Tregs. We determined that short-chain fatty acids, gut microbiota-derived bacterial fermentation products, regulate the size and function of the colonic Treg pool and protect against colitis in a Ffar2-dependent manner in mice. Our study reveals that a class of abundant microbial metabolites underlies adaptive immune microbiota coadaptation and promotes colonic homeostasis and health.

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Year:  2013        PMID: 23828891      PMCID: PMC3807819          DOI: 10.1126/science.1241165

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  28 in total

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Authors:  Ruth E Ley; Daniel A Peterson; Jeffrey I Gordon
Journal:  Cell       Date:  2006-02-24       Impact factor: 41.582

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Authors:  Wendy S Garrett; Graham M Lord; Shivesh Punit; Geanncarlo Lugo-Villarino; Sarkis K Mazmanian; Susumu Ito; Jonathan N Glickman; Laurie H Glimcher
Journal:  Cell       Date:  2007-10-05       Impact factor: 41.582

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Authors:  Catherine A Lozupone; Jesse I Stombaugh; Jeffrey I Gordon; Janet K Jansson; Rob Knight
Journal:  Nature       Date:  2012-09-13       Impact factor: 49.962

4.  Identification of a free fatty acid receptor, FFA2R, expressed on leukocytes and activated by short-chain fatty acids.

Authors:  Niclas E Nilsson; Knut Kotarsky; Christer Owman; Björn Olde
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5.  Expression of Helios, an Ikaros transcription factor family member, differentiates thymic-derived from peripherally induced Foxp3+ T regulatory cells.

Authors:  Angela M Thornton; Patricia E Korty; Dat Q Tran; Elizabeth A Wohlfert; Patrick E Murray; Yasmine Belkaid; Ethan M Shevach
Journal:  J Immunol       Date:  2010-02-24       Impact factor: 5.422

6.  Histone deacetylases 6 and 9 and sirtuin-1 control Foxp3+ regulatory T cell function through shared and isoform-specific mechanisms.

Authors:  Ulf H Beier; Liqing Wang; Rongxiang Han; Tatiana Akimova; Yujie Liu; Wayne W Hancock
Journal:  Sci Signal       Date:  2012-06-19       Impact factor: 8.192

7.  Functional characterization of human receptors for short chain fatty acids and their role in polymorphonuclear cell activation.

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Journal:  J Biol Chem       Date:  2003-04-23       Impact factor: 5.157

8.  Short-chain fatty acids in germfree mice and rats.

Authors:  T Høverstad; T Midtvedt
Journal:  J Nutr       Date:  1986-09       Impact factor: 4.798

9.  Short chain fatty acids in human large intestine, portal, hepatic and venous blood.

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Journal:  Int Immunol       Date:  1993-11       Impact factor: 4.823
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Authors:  Ashley L Steed; George P Christophi; Gerard E Kaiko; Lulu Sun; Victoria M Goodwin; Umang Jain; Ekaterina Esaulova; Maxim N Artyomov; David J Morales; Michael J Holtzman; Adrianus C M Boon; Deborah J Lenschow; Thaddeus S Stappenbeck
Journal:  Science       Date:  2017-08-04       Impact factor: 47.728

2.  Lactobacillus reuteri induces gut intraepithelial CD4+CD8αα+ T cells.

Authors:  Luisa Cervantes-Barragan; Jiani N Chai; Ma Diarey Tianero; Blanda Di Luccia; Philip P Ahern; Joseph Merriman; Victor S Cortez; Michael G Caparon; Mohamed S Donia; Susan Gilfillan; Marina Cella; Jeffrey I Gordon; Chyi-Song Hsieh; Marco Colonna
Journal:  Science       Date:  2017-08-03       Impact factor: 47.728

Review 3.  The gut microbiome in health and in disease.

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Journal:  Curr Opin Gastroenterol       Date:  2015-01       Impact factor: 3.287

Review 4.  Environmental Factors, Gut Microbiota, and Colorectal Cancer Prevention.

Authors:  Mingyang Song; Andrew T Chan
Journal:  Clin Gastroenterol Hepatol       Date:  2018-07-18       Impact factor: 11.382

5.  Gut microbial metabolites alter IgA immunity in type 1 diabetes.

Authors:  Juan Huang; James A Pearson; Jian Peng; Youjia Hu; Sha Sha; Yanpeng Xing; Gan Huang; Xia Li; Fang Hu; Zhiguo Xie; Yang Xiao; Shuoming Luo; Chen Chao; F Susan Wong; Zhiguang Zhou; Li Wen
Journal:  JCI Insight       Date:  2020-05-21

6.  Metabolic alterations to the mucosal microbiota in inflammatory bowel disease.

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Journal:  Inflamm Bowel Dis       Date:  2014-04       Impact factor: 5.325

Review 7.  Why related bacterial species bloom simultaneously in the gut: principles underlying the 'Like will to like' concept.

Authors:  Sebastian E Winter; Andreas J Bäumler
Journal:  Cell Microbiol       Date:  2013-12-16       Impact factor: 3.715

Review 8.  The role of gut microbiome and associated metabolome in the regulation of neuroinflammation in multiple sclerosis and its implications in attenuating chronic inflammation in other inflammatory and autoimmune disorders.

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Journal:  Immunology       Date:  2018-02-27       Impact factor: 7.397

Review 9.  Gut-brain communication in demyelinating disorders.

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Journal:  Curr Opin Neurobiol       Date:  2020-02-15       Impact factor: 6.627

10.  Response of germ-free mice to colonization with O. formigenes and altered Schaedler flora.

Authors:  Xingsheng Li; Melissa L Ellis; Alexander E Dowell; Ranjit Kumar; Casey D Morrow; Trenton R Schoeb; John Knight
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