Literature DB >> 24390308

Gut microbiota metabolism of dietary fiber influences allergic airway disease and hematopoiesis.

Aurélien Trompette1, Eva S Gollwitzer1, Koshika Yadava1, Anke K Sichelstiel1, Norbert Sprenger2, Catherine Ngom-Bru2, Carine Blanchard2, Tobias Junt3, Laurent P Nicod1, Nicola L Harris4, Benjamin J Marsland1.   

Abstract

Metabolites from intestinal microbiota are key determinants of host-microbe mutualism and, consequently, the health or disease of the intestinal tract. However, whether such host-microbe crosstalk influences inflammation in peripheral tissues, such as the lung, is poorly understood. We found that dietary fermentable fiber content changed the composition of the gut and lung microbiota, in particular by altering the ratio of Firmicutes to Bacteroidetes. The gut microbiota metabolized the fiber, consequently increasing the concentration of circulating short-chain fatty acids (SCFAs). Mice fed a high-fiber diet had increased circulating levels of SCFAs and were protected against allergic inflammation in the lung, whereas a low-fiber diet decreased levels of SCFAs and increased allergic airway disease. Treatment of mice with the SCFA propionate led to alterations in bone marrow hematopoiesis that were characterized by enhanced generation of macrophage and dendritic cell (DC) precursors and subsequent seeding of the lungs by DCs with high phagocytic capacity but an impaired ability to promote T helper type 2 (TH2) cell effector function. The effects of propionate on allergic inflammation were dependent on G protein-coupled receptor 41 (GPR41, also called free fatty acid receptor 3 or FFAR3), but not GPR43 (also called free fatty acid receptor 2 or FFAR2). Our results show that dietary fermentable fiber and SCFAs can shape the immunological environment in the lung and influence the severity of allergic inflammation.

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Year:  2014        PMID: 24390308     DOI: 10.1038/nm.3444

Source DB:  PubMed          Journal:  Nat Med        ISSN: 1078-8956            Impact factor:   53.440


  43 in total

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Journal:  Proc Natl Acad Sci U S A       Date:  2010-08-02       Impact factor: 11.205

4.  Microbial exposure during early life has persistent effects on natural killer T cell function.

Authors:  Torsten Olszak; Dingding An; Sebastian Zeissig; Miguel Pinilla Vera; Julia Richter; Andre Franke; Jonathan N Glickman; Reiner Siebert; Rebecca M Baron; Dennis L Kasper; Richard S Blumberg
Journal:  Science       Date:  2012-03-22       Impact factor: 47.728

5.  Quantitative analysis of the human airway microbial ecology reveals a pervasive signature for cystic fibrosis.

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Journal:  Sci Transl Med       Date:  2012-09-26       Impact factor: 17.956

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

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7.  Regulation of inflammatory responses by gut microbiota and chemoattractant receptor GPR43.

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8.  Diet-induced obesity is linked to marked but reversible alterations in the mouse distal gut microbiome.

Authors:  Peter J Turnbaugh; Fredrik Bäckhed; Lucinda Fulton; Jeffrey I Gordon
Journal:  Cell Host Microbe       Date:  2008-04-17       Impact factor: 21.023

9.  Short-chain free fatty acid receptors FFA2/GPR43 and FFA3/GPR41 as new potential therapeutic targets.

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Journal:  Front Endocrinol (Lausanne)       Date:  2012-10-02       Impact factor: 5.555

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Journal:  Nature       Date:  2013-11-13       Impact factor: 49.962
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  842 in total

Review 1.  Contributions of the intestinal microbiome in lung immunity.

Authors:  Jeremy P McAleer; Jay K Kolls
Journal:  Eur J Immunol       Date:  2017-08-31       Impact factor: 5.532

2.  The microbial metabolite desaminotyrosine protects from influenza through type I interferon.

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

3.  Histone deacetylase inhibitors upregulate B cell microRNAs that silence AID and Blimp-1 expression for epigenetic modulation of antibody and autoantibody responses.

Authors:  Clayton A White; Egest J Pone; Tonika Lam; Connie Tat; Ken L Hayama; Guideng Li; Hong Zan; Paolo Casali
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Review 4.  Dysbiosis and the immune system.

Authors:  Maayan Levy; Aleksandra A Kolodziejczyk; Christoph A Thaiss; Eran Elinav
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Review 5.  Microbiota and host immune responses: a love-hate relationship.

Authors:  Sarah Tomkovich; Christian Jobin
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Review 6.  Beyond BMI: Obesity and Lung Disease.

Authors:  Ubong Peters; Benjamin T Suratt; Jason H T Bates; Anne E Dixon
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Review 7.  Immunological characteristics and management considerations in obese patients with asthma.

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Journal:  Expert Rev Clin Immunol       Date:  2015-04-27       Impact factor: 4.473

Review 8.  Emerging pathogenic links between microbiota and the gut-lung axis.

Authors:  Kurtis F Budden; Shaan L Gellatly; David L A Wood; Matthew A Cooper; Mark Morrison; Philip Hugenholtz; Philip M Hansbro
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Review 9.  The interplay between the intestinal microbiota and the immune system.

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Journal:  Clin Res Hepatol Gastroenterol       Date:  2014-11-11       Impact factor: 2.947

Review 10.  Antibiotic-mediated modification of the intestinal microbiome in allogeneic hematopoietic stem cell transplantation.

Authors:  J Whangbo; J Ritz; A Bhatt
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