Nitric oxide prevents a pathogen permissive granulocytic inflammation during tuberculosis

Nitric oxide (NO) contributes to protection from tuberculosis (TB). It is generally assumed that this protection is due to direct inhibition of Mycobacterium tuberculosis (Mtb) growth, which prevents subsequent pathological inflammation. In contrast, we report NO primarily protects mice by repressin...

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Autores principales: Mishra, Bibhuti B., Lovewell, Rustin R., Olive, Andrew J, Zhang, Guoliang, Wang, Wenfei, Eugenin, Eliseo, Smith, Clare M, Yao, Jia Phuah, Long, Jarukit E, Dubuke, Michelle L, Palace, Samantha G., Goguen, Jon D., Baker, Richard E., Nambi, Subhalaxmi, Mishra, Rabinarayan, Booty, Matthew G, Baer, Christina E., Shaffer, Scott A, Dartois, Veronique, McCormick, Beth, Chen, Xinchun, Sassetti, Christopher M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2017
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5461879/
https://www.ncbi.nlm.nih.gov/pubmed/28504669
http://dx.doi.org/10.1038/nmicrobiol.2017.72
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author Mishra, Bibhuti B.
Lovewell, Rustin R.
Olive, Andrew J
Zhang, Guoliang
Wang, Wenfei
Eugenin, Eliseo
Smith, Clare M
Yao, Jia Phuah
Long, Jarukit E
Dubuke, Michelle L
Palace, Samantha G.
Goguen, Jon D.
Baker, Richard E.
Nambi, Subhalaxmi
Mishra, Rabinarayan
Booty, Matthew G
Baer, Christina E.
Shaffer, Scott A
Dartois, Veronique
McCormick, Beth
Chen, Xinchun
Sassetti, Christopher M.
author_facet Mishra, Bibhuti B.
Lovewell, Rustin R.
Olive, Andrew J
Zhang, Guoliang
Wang, Wenfei
Eugenin, Eliseo
Smith, Clare M
Yao, Jia Phuah
Long, Jarukit E
Dubuke, Michelle L
Palace, Samantha G.
Goguen, Jon D.
Baker, Richard E.
Nambi, Subhalaxmi
Mishra, Rabinarayan
Booty, Matthew G
Baer, Christina E.
Shaffer, Scott A
Dartois, Veronique
McCormick, Beth
Chen, Xinchun
Sassetti, Christopher M.
author_sort Mishra, Bibhuti B.
collection PubMed
description Nitric oxide (NO) contributes to protection from tuberculosis (TB). It is generally assumed that this protection is due to direct inhibition of Mycobacterium tuberculosis (Mtb) growth, which prevents subsequent pathological inflammation. In contrast, we report NO primarily protects mice by repressing an interleukin-1 and 12/15-lipoxygenase dependent neutrophil recruitment cascade that promotes bacterial replication. Using Mtb mutants as indicators of the pathogen's environment, we inferred that granulocytic inflammation generates a nutrient-replete niche that supports Mtb growth. Parallel clinical studies indicate that a similar inflammatory pathway promotes TB in patients. The human 12/15 lipoxygenase ortholog, ALOX12, is expressed in cavitary TB lesions, the abundance of its products correlate with the number of airway neutrophils and bacterial burden, and a genetic polymorphism that increases ALOX12 expression is associated with TB risk. These data suggest that Mtb exploits neutrophilic inflammation to preferentially replicate at sites of tissue damage that promote contagion.
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spelling pubmed-54618792017-11-15 Nitric oxide prevents a pathogen permissive granulocytic inflammation during tuberculosis Mishra, Bibhuti B. Lovewell, Rustin R. Olive, Andrew J Zhang, Guoliang Wang, Wenfei Eugenin, Eliseo Smith, Clare M Yao, Jia Phuah Long, Jarukit E Dubuke, Michelle L Palace, Samantha G. Goguen, Jon D. Baker, Richard E. Nambi, Subhalaxmi Mishra, Rabinarayan Booty, Matthew G Baer, Christina E. Shaffer, Scott A Dartois, Veronique McCormick, Beth Chen, Xinchun Sassetti, Christopher M. Nat Microbiol Article Nitric oxide (NO) contributes to protection from tuberculosis (TB). It is generally assumed that this protection is due to direct inhibition of Mycobacterium tuberculosis (Mtb) growth, which prevents subsequent pathological inflammation. In contrast, we report NO primarily protects mice by repressing an interleukin-1 and 12/15-lipoxygenase dependent neutrophil recruitment cascade that promotes bacterial replication. Using Mtb mutants as indicators of the pathogen's environment, we inferred that granulocytic inflammation generates a nutrient-replete niche that supports Mtb growth. Parallel clinical studies indicate that a similar inflammatory pathway promotes TB in patients. The human 12/15 lipoxygenase ortholog, ALOX12, is expressed in cavitary TB lesions, the abundance of its products correlate with the number of airway neutrophils and bacterial burden, and a genetic polymorphism that increases ALOX12 expression is associated with TB risk. These data suggest that Mtb exploits neutrophilic inflammation to preferentially replicate at sites of tissue damage that promote contagion. 2017-05-15 /pmc/articles/PMC5461879/ /pubmed/28504669 http://dx.doi.org/10.1038/nmicrobiol.2017.72 Text en Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:http://www.nature.com/authors/editorial_policies/license.html#terms
spellingShingle Article
Mishra, Bibhuti B.
Lovewell, Rustin R.
Olive, Andrew J
Zhang, Guoliang
Wang, Wenfei
Eugenin, Eliseo
Smith, Clare M
Yao, Jia Phuah
Long, Jarukit E
Dubuke, Michelle L
Palace, Samantha G.
Goguen, Jon D.
Baker, Richard E.
Nambi, Subhalaxmi
Mishra, Rabinarayan
Booty, Matthew G
Baer, Christina E.
Shaffer, Scott A
Dartois, Veronique
McCormick, Beth
Chen, Xinchun
Sassetti, Christopher M.
Nitric oxide prevents a pathogen permissive granulocytic inflammation during tuberculosis
title Nitric oxide prevents a pathogen permissive granulocytic inflammation during tuberculosis
title_full Nitric oxide prevents a pathogen permissive granulocytic inflammation during tuberculosis
title_fullStr Nitric oxide prevents a pathogen permissive granulocytic inflammation during tuberculosis
title_full_unstemmed Nitric oxide prevents a pathogen permissive granulocytic inflammation during tuberculosis
title_short Nitric oxide prevents a pathogen permissive granulocytic inflammation during tuberculosis
title_sort nitric oxide prevents a pathogen permissive granulocytic inflammation during tuberculosis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5461879/
https://www.ncbi.nlm.nih.gov/pubmed/28504669
http://dx.doi.org/10.1038/nmicrobiol.2017.72
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