Inactivation of bpsl1039-1040 ATP-binding cassette transporter reduces intracellular survival in macrophages, biofilm formation and virulence in the murine model of Burkholderia pseudomallei infection

Burkholderia pseudomallei, a gram-negative intracellular bacillus, is the causative agent of a tropical infectious disease called melioidosis. Bacterial ATP-binding cassette (ABC) transporters import and export a variety of molecules across bacterial cell membranes. At present, their significance in...

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Autores principales: Pinweha, Peechanika, Pumirat, Pornpan, Cuccui, Jon, Jitprasutwit, Niramol, Muangsombut, Veerachat, Srinon, Varintip, Boonyuen, Usa, Thiennimitr, Parameth, Vattanaviboon, Paiboon, Cia, Felipe, Willcocks, Sam, Bancroft, Gregory J., Wren, Brendan W., Korbsrisate, Sunee
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2018
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5957425/
https://www.ncbi.nlm.nih.gov/pubmed/29771915
http://dx.doi.org/10.1371/journal.pone.0196202
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author Pinweha, Peechanika
Pumirat, Pornpan
Cuccui, Jon
Jitprasutwit, Niramol
Muangsombut, Veerachat
Srinon, Varintip
Boonyuen, Usa
Thiennimitr, Parameth
Vattanaviboon, Paiboon
Cia, Felipe
Willcocks, Sam
Bancroft, Gregory J.
Wren, Brendan W.
Korbsrisate, Sunee
author_facet Pinweha, Peechanika
Pumirat, Pornpan
Cuccui, Jon
Jitprasutwit, Niramol
Muangsombut, Veerachat
Srinon, Varintip
Boonyuen, Usa
Thiennimitr, Parameth
Vattanaviboon, Paiboon
Cia, Felipe
Willcocks, Sam
Bancroft, Gregory J.
Wren, Brendan W.
Korbsrisate, Sunee
author_sort Pinweha, Peechanika
collection PubMed
description Burkholderia pseudomallei, a gram-negative intracellular bacillus, is the causative agent of a tropical infectious disease called melioidosis. Bacterial ATP-binding cassette (ABC) transporters import and export a variety of molecules across bacterial cell membranes. At present, their significance in B. pseudomallei pathogenesis is poorly understood. We report here characterization of the BPSL1039-1040 ABC transporter. B. pseudomallei cultured in M9 medium supplemented with nitrate, demonstrated that BPSL1039-1040 is involved in nitrate transport for B. pseudomallei growth under anaerobic, but not aerobic conditions, suggesting that BPSL1039-1040 is functional under reduced oxygen tension. In addition, a nitrate reduction assay supported the function of BPSL1039-1040 as nitrate importer. A bpsl1039-1040 deficient mutant showed reduced biofilm formation as compared with the wild-type strain (P = 0.027) when cultured in LB medium supplemented with nitrate under anaerobic growth conditions. This reduction was not noticeable under aerobic conditions. This suggests that a gradient in oxygen levels could regulate the function of BPSL1039-1040 in B. pseudomallei nitrate metabolism. Furthermore, the B. pseudomallei bpsl1039-1040 mutant had a pronounced effect on plaque formation (P < 0.001), and was defective in intracellular survival in both non-phagocytic (HeLa) and phagocytic (J774A.1 macrophage) cells, suggesting reduced virulence in the mutant strain. The bpsl1039-1040 mutant was found to be attenuated in a BALB/c mouse intranasal infection model. Complementation of the bpsl1039-1040 deficient mutant with the plasmid-borne bpsl1039 gene could restore the phenotypes observed. We propose that the ability to acquire nitrate for survival under anaerobic conditions may, at least in part, be important for intracellular survival and has a contributory role in the pathogenesis of B. pseudomallei.
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spelling pubmed-59574252018-05-31 Inactivation of bpsl1039-1040 ATP-binding cassette transporter reduces intracellular survival in macrophages, biofilm formation and virulence in the murine model of Burkholderia pseudomallei infection Pinweha, Peechanika Pumirat, Pornpan Cuccui, Jon Jitprasutwit, Niramol Muangsombut, Veerachat Srinon, Varintip Boonyuen, Usa Thiennimitr, Parameth Vattanaviboon, Paiboon Cia, Felipe Willcocks, Sam Bancroft, Gregory J. Wren, Brendan W. Korbsrisate, Sunee PLoS One Research Article Burkholderia pseudomallei, a gram-negative intracellular bacillus, is the causative agent of a tropical infectious disease called melioidosis. Bacterial ATP-binding cassette (ABC) transporters import and export a variety of molecules across bacterial cell membranes. At present, their significance in B. pseudomallei pathogenesis is poorly understood. We report here characterization of the BPSL1039-1040 ABC transporter. B. pseudomallei cultured in M9 medium supplemented with nitrate, demonstrated that BPSL1039-1040 is involved in nitrate transport for B. pseudomallei growth under anaerobic, but not aerobic conditions, suggesting that BPSL1039-1040 is functional under reduced oxygen tension. In addition, a nitrate reduction assay supported the function of BPSL1039-1040 as nitrate importer. A bpsl1039-1040 deficient mutant showed reduced biofilm formation as compared with the wild-type strain (P = 0.027) when cultured in LB medium supplemented with nitrate under anaerobic growth conditions. This reduction was not noticeable under aerobic conditions. This suggests that a gradient in oxygen levels could regulate the function of BPSL1039-1040 in B. pseudomallei nitrate metabolism. Furthermore, the B. pseudomallei bpsl1039-1040 mutant had a pronounced effect on plaque formation (P < 0.001), and was defective in intracellular survival in both non-phagocytic (HeLa) and phagocytic (J774A.1 macrophage) cells, suggesting reduced virulence in the mutant strain. The bpsl1039-1040 mutant was found to be attenuated in a BALB/c mouse intranasal infection model. Complementation of the bpsl1039-1040 deficient mutant with the plasmid-borne bpsl1039 gene could restore the phenotypes observed. We propose that the ability to acquire nitrate for survival under anaerobic conditions may, at least in part, be important for intracellular survival and has a contributory role in the pathogenesis of B. pseudomallei. Public Library of Science 2018-05-17 /pmc/articles/PMC5957425/ /pubmed/29771915 http://dx.doi.org/10.1371/journal.pone.0196202 Text en © 2018 Pinweha et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Pinweha, Peechanika
Pumirat, Pornpan
Cuccui, Jon
Jitprasutwit, Niramol
Muangsombut, Veerachat
Srinon, Varintip
Boonyuen, Usa
Thiennimitr, Parameth
Vattanaviboon, Paiboon
Cia, Felipe
Willcocks, Sam
Bancroft, Gregory J.
Wren, Brendan W.
Korbsrisate, Sunee
Inactivation of bpsl1039-1040 ATP-binding cassette transporter reduces intracellular survival in macrophages, biofilm formation and virulence in the murine model of Burkholderia pseudomallei infection
title Inactivation of bpsl1039-1040 ATP-binding cassette transporter reduces intracellular survival in macrophages, biofilm formation and virulence in the murine model of Burkholderia pseudomallei infection
title_full Inactivation of bpsl1039-1040 ATP-binding cassette transporter reduces intracellular survival in macrophages, biofilm formation and virulence in the murine model of Burkholderia pseudomallei infection
title_fullStr Inactivation of bpsl1039-1040 ATP-binding cassette transporter reduces intracellular survival in macrophages, biofilm formation and virulence in the murine model of Burkholderia pseudomallei infection
title_full_unstemmed Inactivation of bpsl1039-1040 ATP-binding cassette transporter reduces intracellular survival in macrophages, biofilm formation and virulence in the murine model of Burkholderia pseudomallei infection
title_short Inactivation of bpsl1039-1040 ATP-binding cassette transporter reduces intracellular survival in macrophages, biofilm formation and virulence in the murine model of Burkholderia pseudomallei infection
title_sort inactivation of bpsl1039-1040 atp-binding cassette transporter reduces intracellular survival in macrophages, biofilm formation and virulence in the murine model of burkholderia pseudomallei infection
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5957425/
https://www.ncbi.nlm.nih.gov/pubmed/29771915
http://dx.doi.org/10.1371/journal.pone.0196202
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