Increased mucosal neutrophil survival is associated with altered microbiota in HIV infection

Tiffany Hensley-McBain; Michael C. Wu; Jennifer A. Manuzak; Ryan K. Cheu; Andrew Gustin; Connor B. Driscoll; Alexander S. Zevin; Charlene J. Miller; Ernesto Coronado; Elise Smith; Jean Chang; Michael Gale; Ma Somsouk; Adam D. Burgener; Peter W. Hunt; Thomas J. Hope; Ann C. Collier; Nichole R. Klatt

doi:10.1371/journal.ppat.1007672

Increased mucosal neutrophil survival is associated with altered microbiota in HIV infection

Tiffany Hensley-McBain, Michael C. Wu, Jennifer A. Manuzak, Ryan K. Cheu, Andrew Gustin, Connor B. Driscoll, Alexander S. Zevin, Charlene J. Miller, Ernesto Coronado, Elise Smith, Jean Chang, Michael Gale, Ma Somsouk, Adam D. Burgener, Peter W. Hunt, Thomas J. Hope, Ann C. Collier, Nichole R. Klatt

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30 Scopus citations

Abstract

Gastrointestinal (GI) mucosal dysfunction predicts and likely contributes to non-infectious comorbidities and mortality in HIV infection and persists despite antiretroviral therapy. However, the mechanisms underlying this dysfunction remain incompletely understood. Neutrophils are important for containment of pathogens but can also contribute to tissue damage due to their release of reactive oxygen species and other potentially harmful effector molecules. Here we used a flow cytometry approach to investigate increased neutrophil lifespan as a mechanism for GI neutrophil accumulation in chronic, treated HIV infection and a potential role for gastrointestinal dysbiosis. We report that increased neutrophil survival contributes to neutrophil accumulation in colorectal biopsy tissue, thus implicating neutrophil lifespan as a new therapeutic target for mucosal inflammation in HIV infection. Additionally, we characterized the intestinal microbiome of colorectal biopsies using 16S rRNA sequencing. We found that a reduced Lactobacillus: Prevotella ratio associated with neutrophil survival, suggesting that intestinal bacteria may contribute to GI neutrophil accumulation in treated HIV infection. Finally, we provide evidence that Lactobacillus species uniquely decrease neutrophil survival and neutrophil frequency in vitro, which could have important therapeutic implications for reducing neutrophil-driven inflammation in HIV and other chronic inflammatory conditions.

Original language	English (US)
Article number	e1007672
Journal	PLoS pathogens
Volume	15
Issue number	4
DOIs	https://doi.org/10.1371/journal.ppat.1007672
State	Published - Jan 1 2019
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2019 Hensley-McBain et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

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Journal Article
Research Support, N.I.H., Extramural
Research Support, Non-U.S. Gov't

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Hensley-McBain, T., Wu, M. C., Manuzak, J. A., Cheu, R. K., Gustin, A., Driscoll, C. B., Zevin, A. S., Miller, C. J., Coronado, E., Smith, E., Chang, J., Gale, M., Somsouk, M., Burgener, A. D., Hunt, P. W., Hope, T. J., Collier, A. C., & Klatt, N. R. (2019). Increased mucosal neutrophil survival is associated with altered microbiota in HIV infection. PLoS pathogens, 15(4), Article e1007672. https://doi.org/10.1371/journal.ppat.1007672

Hensley-McBain, T, Wu, MC, Manuzak, JA, Cheu, RK, Gustin, A, Driscoll, CB, Zevin, AS, Miller, CJ, Coronado, E, Smith, E, Chang, J, Gale, M, Somsouk, M, Burgener, AD, Hunt, PW, Hope, TJ, Collier, AC & Klatt, NR 2019, 'Increased mucosal neutrophil survival is associated with altered microbiota in HIV infection', PLoS pathogens, vol. 15, no. 4, e1007672. https://doi.org/10.1371/journal.ppat.1007672

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abstract = "Gastrointestinal (GI) mucosal dysfunction predicts and likely contributes to non-infectious comorbidities and mortality in HIV infection and persists despite antiretroviral therapy. However, the mechanisms underlying this dysfunction remain incompletely understood. Neutrophils are important for containment of pathogens but can also contribute to tissue damage due to their release of reactive oxygen species and other potentially harmful effector molecules. Here we used a flow cytometry approach to investigate increased neutrophil lifespan as a mechanism for GI neutrophil accumulation in chronic, treated HIV infection and a potential role for gastrointestinal dysbiosis. We report that increased neutrophil survival contributes to neutrophil accumulation in colorectal biopsy tissue, thus implicating neutrophil lifespan as a new therapeutic target for mucosal inflammation in HIV infection. Additionally, we characterized the intestinal microbiome of colorectal biopsies using 16S rRNA sequencing. We found that a reduced Lactobacillus: Prevotella ratio associated with neutrophil survival, suggesting that intestinal bacteria may contribute to GI neutrophil accumulation in treated HIV infection. Finally, we provide evidence that Lactobacillus species uniquely decrease neutrophil survival and neutrophil frequency in vitro, which could have important therapeutic implications for reducing neutrophil-driven inflammation in HIV and other chronic inflammatory conditions.",

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N2 - Gastrointestinal (GI) mucosal dysfunction predicts and likely contributes to non-infectious comorbidities and mortality in HIV infection and persists despite antiretroviral therapy. However, the mechanisms underlying this dysfunction remain incompletely understood. Neutrophils are important for containment of pathogens but can also contribute to tissue damage due to their release of reactive oxygen species and other potentially harmful effector molecules. Here we used a flow cytometry approach to investigate increased neutrophil lifespan as a mechanism for GI neutrophil accumulation in chronic, treated HIV infection and a potential role for gastrointestinal dysbiosis. We report that increased neutrophil survival contributes to neutrophil accumulation in colorectal biopsy tissue, thus implicating neutrophil lifespan as a new therapeutic target for mucosal inflammation in HIV infection. Additionally, we characterized the intestinal microbiome of colorectal biopsies using 16S rRNA sequencing. We found that a reduced Lactobacillus: Prevotella ratio associated with neutrophil survival, suggesting that intestinal bacteria may contribute to GI neutrophil accumulation in treated HIV infection. Finally, we provide evidence that Lactobacillus species uniquely decrease neutrophil survival and neutrophil frequency in vitro, which could have important therapeutic implications for reducing neutrophil-driven inflammation in HIV and other chronic inflammatory conditions.

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Increased mucosal neutrophil survival is associated with altered microbiota in HIV infection

Abstract

Bibliographical note

PubMed: MeSH publication types

UN SDGs

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