A metabolic intermediate of the fructose-asparagine utilization pathway inhibits growth of a Salmonella fraB mutant

Insertions in the Salmonella enterica fra locus, which encodes the fructose-asparagine (F-Asn) utilization pathway, are highly attenuated in mouse models of inflammation (>1000-fold competitive index). Here, we report that F-Asn is bacteriostatic to a fraB mutant (IC(50) 19 μM), but not to the wi...

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Autores principales: Sabag-Daigle, Anice, Blunk, Henry M., Sengupta, Anindita, Wu, Jikang, Bogard, Alexander J., Ali, Mohamed M., Stahl, Christopher, Wysocki, Vicki H., Gopalan, Venkat, Behrman, Edward J., Ahmer, Brian M. M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2016
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4941530/
https://www.ncbi.nlm.nih.gov/pubmed/27403719
http://dx.doi.org/10.1038/srep28117
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author Sabag-Daigle, Anice
Blunk, Henry M.
Sengupta, Anindita
Wu, Jikang
Bogard, Alexander J.
Ali, Mohamed M.
Stahl, Christopher
Wysocki, Vicki H.
Gopalan, Venkat
Behrman, Edward J.
Ahmer, Brian M. M.
author_facet Sabag-Daigle, Anice
Blunk, Henry M.
Sengupta, Anindita
Wu, Jikang
Bogard, Alexander J.
Ali, Mohamed M.
Stahl, Christopher
Wysocki, Vicki H.
Gopalan, Venkat
Behrman, Edward J.
Ahmer, Brian M. M.
author_sort Sabag-Daigle, Anice
collection PubMed
description Insertions in the Salmonella enterica fra locus, which encodes the fructose-asparagine (F-Asn) utilization pathway, are highly attenuated in mouse models of inflammation (>1000-fold competitive index). Here, we report that F-Asn is bacteriostatic to a fraB mutant (IC(50) 19 μM), but not to the wild-type or a fra island deletion mutant. We hypothesized that the presence of FraD kinase and absence of FraB deglycase causes build-up of a toxic metabolite: 6-phosphofructose-aspartate (6-P-F-Asp). We used biochemical assays to assess FraB and FraD activities, and mass spectrometry to confirm that the fraB mutant accumulates 6-P-F-Asp. These results, together with our finding that mutants lacking fraD or the fra island are not attenuated in mice, suggest that the extreme attenuation of a fraB mutant stems from 6-P-F-Asp toxicity. Salmonella FraB is therefore an excellent drug target, a prospect strengthened by the absence of the fra locus in most of the gut microbiota.
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spelling pubmed-49415302016-07-20 A metabolic intermediate of the fructose-asparagine utilization pathway inhibits growth of a Salmonella fraB mutant Sabag-Daigle, Anice Blunk, Henry M. Sengupta, Anindita Wu, Jikang Bogard, Alexander J. Ali, Mohamed M. Stahl, Christopher Wysocki, Vicki H. Gopalan, Venkat Behrman, Edward J. Ahmer, Brian M. M. Sci Rep Article Insertions in the Salmonella enterica fra locus, which encodes the fructose-asparagine (F-Asn) utilization pathway, are highly attenuated in mouse models of inflammation (>1000-fold competitive index). Here, we report that F-Asn is bacteriostatic to a fraB mutant (IC(50) 19 μM), but not to the wild-type or a fra island deletion mutant. We hypothesized that the presence of FraD kinase and absence of FraB deglycase causes build-up of a toxic metabolite: 6-phosphofructose-aspartate (6-P-F-Asp). We used biochemical assays to assess FraB and FraD activities, and mass spectrometry to confirm that the fraB mutant accumulates 6-P-F-Asp. These results, together with our finding that mutants lacking fraD or the fra island are not attenuated in mice, suggest that the extreme attenuation of a fraB mutant stems from 6-P-F-Asp toxicity. Salmonella FraB is therefore an excellent drug target, a prospect strengthened by the absence of the fra locus in most of the gut microbiota. Nature Publishing Group 2016-07-12 /pmc/articles/PMC4941530/ /pubmed/27403719 http://dx.doi.org/10.1038/srep28117 Text en Copyright © 2016, Macmillan Publishers Limited http://creativecommons.org/licenses/by/4.0/ This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/
spellingShingle Article
Sabag-Daigle, Anice
Blunk, Henry M.
Sengupta, Anindita
Wu, Jikang
Bogard, Alexander J.
Ali, Mohamed M.
Stahl, Christopher
Wysocki, Vicki H.
Gopalan, Venkat
Behrman, Edward J.
Ahmer, Brian M. M.
A metabolic intermediate of the fructose-asparagine utilization pathway inhibits growth of a Salmonella fraB mutant
title A metabolic intermediate of the fructose-asparagine utilization pathway inhibits growth of a Salmonella fraB mutant
title_full A metabolic intermediate of the fructose-asparagine utilization pathway inhibits growth of a Salmonella fraB mutant
title_fullStr A metabolic intermediate of the fructose-asparagine utilization pathway inhibits growth of a Salmonella fraB mutant
title_full_unstemmed A metabolic intermediate of the fructose-asparagine utilization pathway inhibits growth of a Salmonella fraB mutant
title_short A metabolic intermediate of the fructose-asparagine utilization pathway inhibits growth of a Salmonella fraB mutant
title_sort metabolic intermediate of the fructose-asparagine utilization pathway inhibits growth of a salmonella frab mutant
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4941530/
https://www.ncbi.nlm.nih.gov/pubmed/27403719
http://dx.doi.org/10.1038/srep28117
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