Poststroke Lung Infection by Opportunistic Commensal Bacteria Is Not Mediated by Their Expansion in the Gut Microbiota

Respiratory and urinary tract infections are frequent complications in patients with severe stroke. Stroke-associated infection is mainly due to opportunistic commensal bacteria of the microbiota that may translocate from the gut. We investigated the mechanisms underlying gut dysbiosis and poststrok...

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Veröffentlicht in:	Stroke (1970) 2023-07, Vol.54 (7), p.1875-1887
Hauptverfasser:	Díaz-Marugan, Laura, Gallizioli, Mattia, Márquez-Kisinousky, Leonardo, Arboleya, Silvia, Mastrangelo, Annalaura, Ruiz-Jaén, Francisca, Pedragosa, Jordi, Casals, Climent, Morales, Francisco Javier, Ramos-Romero, Sara, Traserra, Sara, Justicia, Carles, Gueimonde, Miguel, Jiménez, Marcel, Torres, Josep Lluís, Urra, Xabier, Chamorro, Ángel, Sancho, David, de los Reyes-Gavilán, Clara G., Miró-Mur, Francesc, Planas, Anna M.
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Sprache:	eng
Schlagworte:	Animals Bacteria - genetics Gastrointestinal Microbiome Lung Mice NF-kappa B Original Contributions Pneumonia Stroke - complications
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container_title	Stroke (1970)
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creator	Díaz-Marugan, Laura Gallizioli, Mattia Márquez-Kisinousky, Leonardo Arboleya, Silvia Mastrangelo, Annalaura Ruiz-Jaén, Francisca Pedragosa, Jordi Casals, Climent Morales, Francisco Javier Ramos-Romero, Sara Traserra, Sara Justicia, Carles Gueimonde, Miguel Jiménez, Marcel Torres, Josep Lluís Urra, Xabier Chamorro, Ángel Sancho, David de los Reyes-Gavilán, Clara G. Miró-Mur, Francesc Planas, Anna M.
description	Respiratory and urinary tract infections are frequent complications in patients with severe stroke. Stroke-associated infection is mainly due to opportunistic commensal bacteria of the microbiota that may translocate from the gut. We investigated the mechanisms underlying gut dysbiosis and poststroke infection. Using a model of transient cerebral ischemia in mice, we explored the relationship between immunometabolic dysregulation, gut barrier dysfunction, gut microbial alterations, and bacterial colonization of organs, and we explored the effect of several drug treatments. Stroke-induced lymphocytopenia and widespread colonization of lung and other organs by opportunistic commensal bacteria. This effect correlated with reduced gut epithelial barrier resistance, and a proinflammatory sway in the gut illustrated by complement and nuclear factor-κB activation, reduced number of gut regulatory T cells, and a shift of gut lymphocytes to γδT cells and T helper 1/T helper 17 phenotypes. Stroke increased conjugated bile acids in the liver but decreased bile acids and short-chain fatty acids in the gut. Gut fermenting anaerobic bacteria decreased while opportunistic facultative anaerobes, notably Enterobacteriaceae, suffered an expansion. Anti-inflammatory treatment with a nuclear factor-κB inhibitor fully abrogated the Enterobacteriaceae overgrowth in the gut microbiota induced by stroke, whereas inhibitors of the neural or humoral arms of the stress response were ineffective at the doses used in this study. Conversely, the anti-inflammatory treatment did not prevent poststroke lung colonization by Enterobacteriaceae. Stroke perturbs homeostatic neuro-immuno-metabolic networks facilitating a bloom of opportunistic commensals in the gut microbiota. However, this bacterial expansion in the gut does not mediate poststroke infection.
doi_str_mv	10.1161/STROKEAHA.123.042755
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Stroke-associated infection is mainly due to opportunistic commensal bacteria of the microbiota that may translocate from the gut. We investigated the mechanisms underlying gut dysbiosis and poststroke infection. Using a model of transient cerebral ischemia in mice, we explored the relationship between immunometabolic dysregulation, gut barrier dysfunction, gut microbial alterations, and bacterial colonization of organs, and we explored the effect of several drug treatments. Stroke-induced lymphocytopenia and widespread colonization of lung and other organs by opportunistic commensal bacteria. This effect correlated with reduced gut epithelial barrier resistance, and a proinflammatory sway in the gut illustrated by complement and nuclear factor-κB activation, reduced number of gut regulatory T cells, and a shift of gut lymphocytes to γδT cells and T helper 1/T helper 17 phenotypes. Stroke increased conjugated bile acids in the liver but decreased bile acids and short-chain fatty acids in the gut. Gut fermenting anaerobic bacteria decreased while opportunistic facultative anaerobes, notably Enterobacteriaceae, suffered an expansion. Anti-inflammatory treatment with a nuclear factor-κB inhibitor fully abrogated the Enterobacteriaceae overgrowth in the gut microbiota induced by stroke, whereas inhibitors of the neural or humoral arms of the stress response were ineffective at the doses used in this study. Conversely, the anti-inflammatory treatment did not prevent poststroke lung colonization by Enterobacteriaceae. Stroke perturbs homeostatic neuro-immuno-metabolic networks facilitating a bloom of opportunistic commensals in the gut microbiota. 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subjects	Animals Bacteria - genetics Gastrointestinal Microbiome Lung Mice NF-kappa B Original Contributions Pneumonia Stroke - complications
title	Poststroke Lung Infection by Opportunistic Commensal Bacteria Is Not Mediated by Their Expansion in the Gut Microbiota
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