Literature DB >> 29168502

A gut bacterial pathway metabolizes aromatic amino acids into nine circulating metabolites.

Dylan Dodd1,2, Matthew H Spitzer1,2, William Van Treuren2, Bryan D Merrill2, Andrew J Hryckowian2, Steven K Higginbottom2, Anthony Le1, Tina M Cowan1, Garry P Nolan2, Michael A Fischbach3, Justin L Sonnenburg2.   

Abstract

The human gut microbiota produces dozens of metabolites that accumulate in the bloodstream, where they can have systemic effects on the host. Although these small molecules commonly reach concentrations similar to those achieved by pharmaceutical agents, remarkably little is known about the microbial metabolic pathways that produce them. Here we use a combination of genetics and metabolic profiling to characterize a pathway from the gut symbiont Clostridium sporogenes that generates aromatic amino acid metabolites. Our results reveal that this pathway produces twelve compounds, nine of which are known to accumulate in host serum. All three aromatic amino acids (tryptophan, phenylalanine and tyrosine) serve as substrates for the pathway, and it involves branching and alternative reductases for specific intermediates. By genetically manipulating C. sporogenes, we modulate serum levels of these metabolites in gnotobiotic mice, and show that in turn this affects intestinal permeability and systemic immunity. This work has the potential to provide the basis of a systematic effort to engineer the molecular output of the gut bacterial community.

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Year:  2017        PMID: 29168502      PMCID: PMC5850949          DOI: 10.1038/nature24661

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  25 in total

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Journal:  J Comput Biol       Date:  2013-10       Impact factor: 1.479

3.  The growth and nutrition of Clostridium sporogenes NCIB 8053 in defined media.

Authors:  R W Lovitt; J G Morris; D B Kell
Journal:  J Appl Bacteriol       Date:  1987-01

4.  Specificity of polysaccharide use in intestinal bacteroides species determines diet-induced microbiota alterations.

Authors:  Erica D Sonnenburg; Hongjun Zheng; Payal Joglekar; Steven K Higginbottom; Susan J Firbank; David N Bolam; Justin L Sonnenburg
Journal:  Cell       Date:  2010-06-24       Impact factor: 41.582

5.  Molecular characterization of phenyllactate dehydratase and its initiator from Clostridium sporogenes.

Authors:  Sandra Dickert; Antonio J Pierik; Wolfgang Buckel
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9.  Detecting sequence homology at the gene cluster level with MultiGeneBlast.

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  253 in total

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Journal:  J Steroid Biochem Mol Biol       Date:  2019-12-20       Impact factor: 4.292

Review 2.  Impact of gut microbiota on gut-distal autoimmunity: a focus on T cells.

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Journal:  Immunology       Date:  2019-01-21       Impact factor: 7.397

Review 3.  Gut microbiota-derived metabolites as key actors in inflammatory bowel disease.

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Review 4.  Communication Between the Microbiota and Mammalian Immunity.

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Review 5.  Genetic Factors and the Intestinal Microbiome Guide Development of Microbe-Based Therapies for Inflammatory Bowel Diseases.

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6.  Cellular Stress Upregulates Indole Signaling Metabolites in Escherichia coli.

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Review 7.  Small molecules, big effects: microbial metabolites in intestinal immunity.

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8.  Gut Microbiota-Produced Tryptamine Activates an Epithelial G-Protein-Coupled Receptor to Increase Colonic Secretion.

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Journal:  Cell Host Microbe       Date:  2018-06-13       Impact factor: 21.023

Review 9.  Accessing Bioactive Natural Products from the Human Microbiome.

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Review 10.  Understanding and Engineering Distributed Biochemical Pathways in Microbial Communities.

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