STING regulates metabolic reprogramming in macrophages via HIF-1α during Brucella infection.

STING regulates metabolic reprogramming in macrophages via HIF-1α during Brucella infection.

Macrophages metabolic reprogramming in response to microbial insults is a major determinant of pathogen growth or containment. Here, we reveal a distinct mechanism by which stimulator of interferon genes (STING), a cytosolic sensor that regulates innate immune responses, contributes to an inflammato...

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Main Authors: Marco Tulio R Gomes, Erika S Guimarães, Fabio V Marinho, Isabella Macedo, Eric R G R Aguiar, Glen N Barber, Pedro M M Moraes-Vieira, José Carlos Alves-Filho, Sergio C Oliveira
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2021-05-01
Series:PLoS Pathogens
Online Access:https://doi.org/10.1371/journal.ppat.1009597
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spelling doaj-98df6c9fca4b474eb2a3b01d298e7c2d2021-06-13T04:32:04ZengPublic Library of Science (PLoS)PLoS Pathogens1553-73661553-73742021-05-01175e100959710.1371/journal.ppat.1009597STING regulates metabolic reprogramming in macrophages via HIF-1α during Brucella infection.Marco Tulio R GomesErika S GuimarãesFabio V MarinhoIsabella MacedoEric R G R AguiarGlen N BarberPedro M M Moraes-VieiraJosé Carlos Alves-FilhoSergio C OliveiraMacrophages metabolic reprogramming in response to microbial insults is a major determinant of pathogen growth or containment. Here, we reveal a distinct mechanism by which stimulator of interferon genes (STING), a cytosolic sensor that regulates innate immune responses, contributes to an inflammatory M1-like macrophage profile upon Brucella abortus infection. This metabolic reprogramming is induced by STING-dependent stabilization of hypoxia-inducible factor-1 alpha (HIF-1α), a global regulator of cellular metabolism and innate immune cell functions. HIF-1α stabilization reduces oxidative phosphorylation and increases glycolysis during infection with B. abortus and, likewise, enhances nitric oxide production, inflammasome activation and IL-1β release in infected macrophages. Furthermore, the induction of this inflammatory profile participates in the control of bacterial replication since absence of HIF-1α renders mice more susceptible to B. abortus infection. Mechanistically, activation of STING by B. abortus infection drives the production of mitochondrial reactive oxygen species (mROS) that ultimately influences HIF-1α stabilization. Moreover, STING increases the intracellular succinate concentration in infected macrophages, and succinate pretreatment induces HIF-1α stabilization and IL-1β release independently of its cognate receptor GPR91. Collectively, these data demonstrate a pivotal mechanism in the immunometabolic regulation of macrophages during B. abortus infection that is orchestrated by STING via HIF-1α pathway and highlight the metabolic reprogramming of macrophages as a potential treatment strategy for bacterial infections.https://doi.org/10.1371/journal.ppat.1009597
collection DOAJ
language English
format Article
sources DOAJ
author Marco Tulio R Gomes
Erika S Guimarães
Fabio V Marinho
Isabella Macedo
Eric R G R Aguiar
Glen N Barber
Pedro M M Moraes-Vieira
José Carlos Alves-Filho
Sergio C Oliveira
spellingShingle Marco Tulio R Gomes
Erika S Guimarães
Fabio V Marinho
Isabella Macedo
Eric R G R Aguiar
Glen N Barber
Pedro M M Moraes-Vieira
José Carlos Alves-Filho
Sergio C Oliveira
STING regulates metabolic reprogramming in macrophages via HIF-1α during Brucella infection.
PLoS Pathogens
author_facet Marco Tulio R Gomes
Erika S Guimarães
Fabio V Marinho
Isabella Macedo
Eric R G R Aguiar
Glen N Barber
Pedro M M Moraes-Vieira
José Carlos Alves-Filho
Sergio C Oliveira
author_sort Marco Tulio R Gomes
title STING regulates metabolic reprogramming in macrophages via HIF-1α during Brucella infection.
title_short STING regulates metabolic reprogramming in macrophages via HIF-1α during Brucella infection.
title_full STING regulates metabolic reprogramming in macrophages via HIF-1α during Brucella infection.
title_fullStr STING regulates metabolic reprogramming in macrophages via HIF-1α during Brucella infection.
title_full_unstemmed STING regulates metabolic reprogramming in macrophages via HIF-1α during Brucella infection.
title_sort sting regulates metabolic reprogramming in macrophages via hif-1α during brucella infection.
publisher Public Library of Science (PLoS)
series PLoS Pathogens
issn 1553-7366
1553-7374
publishDate 2021-05-01
description Macrophages metabolic reprogramming in response to microbial insults is a major determinant of pathogen growth or containment. Here, we reveal a distinct mechanism by which stimulator of interferon genes (STING), a cytosolic sensor that regulates innate immune responses, contributes to an inflammatory M1-like macrophage profile upon Brucella abortus infection. This metabolic reprogramming is induced by STING-dependent stabilization of hypoxia-inducible factor-1 alpha (HIF-1α), a global regulator of cellular metabolism and innate immune cell functions. HIF-1α stabilization reduces oxidative phosphorylation and increases glycolysis during infection with B. abortus and, likewise, enhances nitric oxide production, inflammasome activation and IL-1β release in infected macrophages. Furthermore, the induction of this inflammatory profile participates in the control of bacterial replication since absence of HIF-1α renders mice more susceptible to B. abortus infection. Mechanistically, activation of STING by B. abortus infection drives the production of mitochondrial reactive oxygen species (mROS) that ultimately influences HIF-1α stabilization. Moreover, STING increases the intracellular succinate concentration in infected macrophages, and succinate pretreatment induces HIF-1α stabilization and IL-1β release independently of its cognate receptor GPR91. Collectively, these data demonstrate a pivotal mechanism in the immunometabolic regulation of macrophages during B. abortus infection that is orchestrated by STING via HIF-1α pathway and highlight the metabolic reprogramming of macrophages as a potential treatment strategy for bacterial infections.
url https://doi.org/10.1371/journal.ppat.1009597
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