Literature DB >> 32416061

Import of Aspartate and Malate by DcuABC Drives H2/Fumarate Respiration to Promote Initial Salmonella Gut-Lumen Colonization in Mice.

Bidong D Nguyen1, Miguelangel Cuenca V1, Johannes Hartl1, Ersin Gül1, Rebekka Bauer1, Susanne Meile1, Joel Rüthi1, Céline Margot1, Laura Heeb1, Franziska Besser1, Pau Pérez Escriva2, Céline Fetz1, Markus Furter1, Leanid Laganenka1, Philipp Keller1, Lea Fuchs1, Matthias Christen2, Steffen Porwollik3, Michael McClelland3, Julia A Vorholt1, Uwe Sauer2, Shinichi Sunagawa4, Beat Christen5, Wolf-Dietrich Hardt6.   

Abstract

Initial enteropathogen growth in the microbiota-colonized gut is poorly understood. Salmonella Typhimurium is metabolically adaptable and can harvest energy by anaerobic respiration using microbiota-derived hydrogen (H2) as an electron donor and fumarate as an electron acceptor. As fumarate is scarce in the gut, the source of this electron acceptor is unclear. Here, transposon sequencing analysis along the colonization trajectory of S. Typhimurium implicates the C4-dicarboxylate antiporter DcuABC in early murine gut colonization. In competitive colonization assays, DcuABC and enzymes that convert the C4-dicarboxylates aspartate and malate into fumarate (AspA, FumABC), are required for fumarate/H2-dependent initial growth. Thus, S. Typhimurium obtains fumarate by DcuABC-mediated import and conversion of L-malate and L-aspartate. Fumarate reduction yields succinate, which is exported by DcuABC in exchange for L-aspartate and L-malate. This cycle allows S. Typhimurium to harvest energy by H2/fumarate respiration in the microbiota-colonized gut. This strategy may also be relevant for commensal E. coli diminishing the S. Typhimurium infection.
Copyright © 2020 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Salmonella; infection; intestine; metabolism; mouse model

Mesh:

Substances:

Year:  2020        PMID: 32416061      PMCID: PMC7292772          DOI: 10.1016/j.chom.2020.04.013

Source DB:  PubMed          Journal:  Cell Host Microbe        ISSN: 1931-3128            Impact factor:   21.023


  86 in total

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5.  Use of molecular hydrogen as an energy substrate by human pathogenic bacteria.

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8.  Mechanisms that control bacterial populations in continuous-flow culture models of mouse large intestinal flora.

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9.  Anaerobic fumarate transport in Escherichia coli by an fnr-dependent dicarboxylate uptake system which is different from the aerobic dicarboxylate uptake system.

Authors:  P Engel; R Krämer; G Unden
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  13 in total

Review 1.  Colonization resistance: metabolic warfare as a strategy against pathogenic Enterobacteriaceae.

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Review 2.  C4-Dicarboxylates as Growth Substrates and Signaling Molecules for Commensal and Pathogenic Enteric Bacteria in Mammalian Intestine.

Authors:  Christopher Schubert; Gottfried Unden
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Journal:  Cell Host Microbe       Date:  2021-02-03       Impact factor: 21.023

4.  Reshaping of bacterial molecular hydrogen metabolism contributes to the outgrowth of commensal E. coli during gut inflammation.

Authors:  Elizabeth R Hughes; Maria G Winter; Laice Alves da Silva; Matthew K Muramatsu; Angel G Jimenez; Caroline C Gillis; Luisella Spiga; Rachael B Chanin; Renato L Santos; Wenhan Zhu; Sebastian E Winter
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5.  Stepwise evolution of Salmonella Typhimurium ST313 causing bloodstream infection in Africa.

Authors:  Caisey V Pulford; Blanca M Perez-Sepulveda; Rocío Canals; Jessica A Bevington; Rebecca J Bengtsson; Nicolas Wenner; Ella V Rodwell; Benjamin Kumwenda; Xiaojun Zhu; Rebecca J Bennett; George E Stenhouse; P Malaka De Silva; Hermione J Webster; Jose A Bengoechea; Amy Dumigan; Alicia Tran-Dien; Reenesh Prakash; Happy C Banda; Lovemore Alufandika; Mike P Mautanga; Arthur Bowers-Barnard; Alexandra Y Beliavskaia; Alexander V Predeus; Will P M Rowe; Alistair C Darby; Neil Hall; François-Xavier Weill; Melita A Gordon; Nicholas A Feasey; Kate S Baker; Jay C D Hinton
Journal:  Nat Microbiol       Date:  2020-12-21       Impact factor: 17.745

6.  Bacterial metabolism and pathogenesis intimate intertwining: time for metabolic modelling to come into action.

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Review 7.  Salmonella versus the Microbiome.

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Review 9.  Elucidating host-microbe interactions in vivo by studying population dynamics using neutral genetic tags.

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10.  Cervicovaginal microbiota and metabolome predict preterm birth risk in an ethnically diverse cohort.

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