The transcriptome of HIV-1 infected intestinal CD4+ T cells exposed to enteric bacteria

Global transcriptome studies can help pinpoint key cellular pathways exploited by viruses to replicate and cause pathogenesis. Previous data showed that laboratory-adapted HIV-1 triggers significant gene expression changes in CD4+ T cell lines and mitogen-activated CD4+ T cells from peripheral blood...

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Autores principales: Yoder, Alyson C., Guo, Kejun, Dillon, Stephanie M., Phang, Tzu, Lee, Eric J., Harper, Michael S., Helm, Karen, Kappes, John C., Ochsenbauer, Christina, McCarter, Martin D., Wilson, Cara C., Santiago, Mario L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2017
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Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5344538/
https://www.ncbi.nlm.nih.gov/pubmed/28241075
http://dx.doi.org/10.1371/journal.ppat.1006226
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author Yoder, Alyson C.
Guo, Kejun
Dillon, Stephanie M.
Phang, Tzu
Lee, Eric J.
Harper, Michael S.
Helm, Karen
Kappes, John C.
Ochsenbauer, Christina
McCarter, Martin D.
Wilson, Cara C.
Santiago, Mario L.
author_facet Yoder, Alyson C.
Guo, Kejun
Dillon, Stephanie M.
Phang, Tzu
Lee, Eric J.
Harper, Michael S.
Helm, Karen
Kappes, John C.
Ochsenbauer, Christina
McCarter, Martin D.
Wilson, Cara C.
Santiago, Mario L.
author_sort Yoder, Alyson C.
collection PubMed
description Global transcriptome studies can help pinpoint key cellular pathways exploited by viruses to replicate and cause pathogenesis. Previous data showed that laboratory-adapted HIV-1 triggers significant gene expression changes in CD4+ T cell lines and mitogen-activated CD4+ T cells from peripheral blood. However, HIV-1 primarily targets mucosal compartments during acute infection in vivo. Moreover, early HIV-1 infection causes extensive depletion of CD4+ T cells in the gastrointestinal tract that herald persistent inflammation due to the translocation of enteric microbes to the systemic circulation. Here, we profiled the transcriptome of primary intestinal CD4+ T cells infected ex vivo with transmitted/founder (TF) HIV-1. Infections were performed in the presence or absence of Prevotella stercorea, a gut microbe enriched in the mucosa of HIV-1-infected individuals that enhanced both TF HIV-1 replication and CD4+ T cell death ex vivo. In the absence of bacteria, HIV-1 triggered a cellular shutdown response involving the downregulation of HIV-1 reactome genes, while perturbing genes linked to OX40, PPAR and FOXO3 signaling. However, in the presence of bacteria, HIV-1 did not perturb these gene sets or pathways. Instead, HIV-1 enhanced granzyme expression and Th17 cell function, inhibited G1/S cell cycle checkpoint genes and triggered downstream cell death pathways in microbe-exposed gut CD4+ T cells. To gain insights on these differential effects, we profiled the gene expression landscape of HIV-1-uninfected gut CD4+ T cells exposed to bacteria. Microbial exposure upregulated genes involved in cellular proliferation, MAPK activation, Th17 cell differentiation and type I interferon signaling. Our findings reveal that microbial exposure influenced how HIV-1 altered the gut CD4+ T cell transcriptome, with potential consequences for HIV-1 susceptibility, cell survival and inflammation. The HIV-1- and microbe-altered pathways unraveled here may serve as a molecular blueprint to gain basic insights in mucosal HIV-1 pathogenesis.
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spelling pubmed-53445382017-03-29 The transcriptome of HIV-1 infected intestinal CD4+ T cells exposed to enteric bacteria Yoder, Alyson C. Guo, Kejun Dillon, Stephanie M. Phang, Tzu Lee, Eric J. Harper, Michael S. Helm, Karen Kappes, John C. Ochsenbauer, Christina McCarter, Martin D. Wilson, Cara C. Santiago, Mario L. PLoS Pathog Research Article Global transcriptome studies can help pinpoint key cellular pathways exploited by viruses to replicate and cause pathogenesis. Previous data showed that laboratory-adapted HIV-1 triggers significant gene expression changes in CD4+ T cell lines and mitogen-activated CD4+ T cells from peripheral blood. However, HIV-1 primarily targets mucosal compartments during acute infection in vivo. Moreover, early HIV-1 infection causes extensive depletion of CD4+ T cells in the gastrointestinal tract that herald persistent inflammation due to the translocation of enteric microbes to the systemic circulation. Here, we profiled the transcriptome of primary intestinal CD4+ T cells infected ex vivo with transmitted/founder (TF) HIV-1. Infections were performed in the presence or absence of Prevotella stercorea, a gut microbe enriched in the mucosa of HIV-1-infected individuals that enhanced both TF HIV-1 replication and CD4+ T cell death ex vivo. In the absence of bacteria, HIV-1 triggered a cellular shutdown response involving the downregulation of HIV-1 reactome genes, while perturbing genes linked to OX40, PPAR and FOXO3 signaling. However, in the presence of bacteria, HIV-1 did not perturb these gene sets or pathways. Instead, HIV-1 enhanced granzyme expression and Th17 cell function, inhibited G1/S cell cycle checkpoint genes and triggered downstream cell death pathways in microbe-exposed gut CD4+ T cells. To gain insights on these differential effects, we profiled the gene expression landscape of HIV-1-uninfected gut CD4+ T cells exposed to bacteria. Microbial exposure upregulated genes involved in cellular proliferation, MAPK activation, Th17 cell differentiation and type I interferon signaling. Our findings reveal that microbial exposure influenced how HIV-1 altered the gut CD4+ T cell transcriptome, with potential consequences for HIV-1 susceptibility, cell survival and inflammation. The HIV-1- and microbe-altered pathways unraveled here may serve as a molecular blueprint to gain basic insights in mucosal HIV-1 pathogenesis. Public Library of Science 2017-02-27 /pmc/articles/PMC5344538/ /pubmed/28241075 http://dx.doi.org/10.1371/journal.ppat.1006226 Text en © 2017 Yoder 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
Yoder, Alyson C.
Guo, Kejun
Dillon, Stephanie M.
Phang, Tzu
Lee, Eric J.
Harper, Michael S.
Helm, Karen
Kappes, John C.
Ochsenbauer, Christina
McCarter, Martin D.
Wilson, Cara C.
Santiago, Mario L.
The transcriptome of HIV-1 infected intestinal CD4+ T cells exposed to enteric bacteria
title The transcriptome of HIV-1 infected intestinal CD4+ T cells exposed to enteric bacteria
title_full The transcriptome of HIV-1 infected intestinal CD4+ T cells exposed to enteric bacteria
title_fullStr The transcriptome of HIV-1 infected intestinal CD4+ T cells exposed to enteric bacteria
title_full_unstemmed The transcriptome of HIV-1 infected intestinal CD4+ T cells exposed to enteric bacteria
title_short The transcriptome of HIV-1 infected intestinal CD4+ T cells exposed to enteric bacteria
title_sort transcriptome of hiv-1 infected intestinal cd4+ t cells exposed to enteric bacteria
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5344538/
https://www.ncbi.nlm.nih.gov/pubmed/28241075
http://dx.doi.org/10.1371/journal.ppat.1006226
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