The gut microbiota as a modulator of innate immunity during melioidosis

BACKGROUND: Melioidosis, caused by the Gram-negative bacterium Burkholderia pseudomallei, is an emerging cause of pneumonia-derived sepsis in the tropics. The gut microbiota supports local mucosal immunity and is increasingly recognized as a protective mediator in host defenses against systemic infe...

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Autores principales: Lankelma, Jacqueline M., Birnie, Emma, Weehuizen, Tassili A. F., Scicluna, Brendon P., Belzer, Clara, Houtkooper, Riekelt H., Roelofs, Joris J. T. H., de Vos, Alex F., van der Poll, Tom, Budding, Andries E., Wiersinga, W. Joost
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2017
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5411098/
https://www.ncbi.nlm.nih.gov/pubmed/28422970
http://dx.doi.org/10.1371/journal.pntd.0005548
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author Lankelma, Jacqueline M.
Birnie, Emma
Weehuizen, Tassili A. F.
Scicluna, Brendon P.
Belzer, Clara
Houtkooper, Riekelt H.
Roelofs, Joris J. T. H.
de Vos, Alex F.
van der Poll, Tom
Budding, Andries E.
Wiersinga, W. Joost
author_facet Lankelma, Jacqueline M.
Birnie, Emma
Weehuizen, Tassili A. F.
Scicluna, Brendon P.
Belzer, Clara
Houtkooper, Riekelt H.
Roelofs, Joris J. T. H.
de Vos, Alex F.
van der Poll, Tom
Budding, Andries E.
Wiersinga, W. Joost
author_sort Lankelma, Jacqueline M.
collection PubMed
description BACKGROUND: Melioidosis, caused by the Gram-negative bacterium Burkholderia pseudomallei, is an emerging cause of pneumonia-derived sepsis in the tropics. The gut microbiota supports local mucosal immunity and is increasingly recognized as a protective mediator in host defenses against systemic infection. Here, we aimed to characterize the composition and function of the intestinal microbiota during experimental melioidosis. METHODOLOGY/PRINCIPAL FINDINGS: C57BL/6 mice were infected intranasally with B. pseudomallei and sacrificed at different time points to assess bacterial loads and inflammation. In selected experiments, the gut microbiota was disrupted with broad-spectrum antibiotics prior to inoculation. Fecal bacterial composition was analyzed by means of IS-pro, a 16S-23S interspacer region-based profiling method. A marked shift in fecal bacterial composition was seen in all mice during systemic B. pseudomallei infection with a strong increase in Proteobacteria and decrease in Actinobacteria, with an increase in bacterial diversity. We found enhanced early dissemination of B. pseudomallei and systemic inflammation during experimental melioidosis in microbiota-disrupted mice compared with controls. Whole-genome transcriptional profiling of the lung identified several genes that were differentially expressed between mice with a normal or disrupted intestinal microbiota. Genes involved in acute phase signaling, including macrophage-related signaling pathways were significantly elevated in microbiota disrupted mice. Compared with controls, alveolar macrophages derived from antibiotic pretreated mice showed a diminished capacity to phagocytose B. pseudomallei. This might in part explain the observed protective effect of the gut microbiota in the host defense against pneumonia-derived melioidosis. CONCLUSIONS/SIGNIFICANCE: Taken together, these data identify the gut microbiota as a potential modulator of innate immunity during B. pseudomallei infection.
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spelling pubmed-54110982017-05-14 The gut microbiota as a modulator of innate immunity during melioidosis Lankelma, Jacqueline M. Birnie, Emma Weehuizen, Tassili A. F. Scicluna, Brendon P. Belzer, Clara Houtkooper, Riekelt H. Roelofs, Joris J. T. H. de Vos, Alex F. van der Poll, Tom Budding, Andries E. Wiersinga, W. Joost PLoS Negl Trop Dis Research Article BACKGROUND: Melioidosis, caused by the Gram-negative bacterium Burkholderia pseudomallei, is an emerging cause of pneumonia-derived sepsis in the tropics. The gut microbiota supports local mucosal immunity and is increasingly recognized as a protective mediator in host defenses against systemic infection. Here, we aimed to characterize the composition and function of the intestinal microbiota during experimental melioidosis. METHODOLOGY/PRINCIPAL FINDINGS: C57BL/6 mice were infected intranasally with B. pseudomallei and sacrificed at different time points to assess bacterial loads and inflammation. In selected experiments, the gut microbiota was disrupted with broad-spectrum antibiotics prior to inoculation. Fecal bacterial composition was analyzed by means of IS-pro, a 16S-23S interspacer region-based profiling method. A marked shift in fecal bacterial composition was seen in all mice during systemic B. pseudomallei infection with a strong increase in Proteobacteria and decrease in Actinobacteria, with an increase in bacterial diversity. We found enhanced early dissemination of B. pseudomallei and systemic inflammation during experimental melioidosis in microbiota-disrupted mice compared with controls. Whole-genome transcriptional profiling of the lung identified several genes that were differentially expressed between mice with a normal or disrupted intestinal microbiota. Genes involved in acute phase signaling, including macrophage-related signaling pathways were significantly elevated in microbiota disrupted mice. Compared with controls, alveolar macrophages derived from antibiotic pretreated mice showed a diminished capacity to phagocytose B. pseudomallei. This might in part explain the observed protective effect of the gut microbiota in the host defense against pneumonia-derived melioidosis. CONCLUSIONS/SIGNIFICANCE: Taken together, these data identify the gut microbiota as a potential modulator of innate immunity during B. pseudomallei infection. Public Library of Science 2017-04-19 /pmc/articles/PMC5411098/ /pubmed/28422970 http://dx.doi.org/10.1371/journal.pntd.0005548 Text en © 2017 Lankelma 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
Lankelma, Jacqueline M.
Birnie, Emma
Weehuizen, Tassili A. F.
Scicluna, Brendon P.
Belzer, Clara
Houtkooper, Riekelt H.
Roelofs, Joris J. T. H.
de Vos, Alex F.
van der Poll, Tom
Budding, Andries E.
Wiersinga, W. Joost
The gut microbiota as a modulator of innate immunity during melioidosis
title The gut microbiota as a modulator of innate immunity during melioidosis
title_full The gut microbiota as a modulator of innate immunity during melioidosis
title_fullStr The gut microbiota as a modulator of innate immunity during melioidosis
title_full_unstemmed The gut microbiota as a modulator of innate immunity during melioidosis
title_short The gut microbiota as a modulator of innate immunity during melioidosis
title_sort gut microbiota as a modulator of innate immunity during melioidosis
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5411098/
https://www.ncbi.nlm.nih.gov/pubmed/28422970
http://dx.doi.org/10.1371/journal.pntd.0005548
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