Extracellular succinate hyperpolarizes M2 macrophages through SUCNR1/GPR91-mediated Gq signaling

Mette Trauelsen; Thomas K. Hiron; Da Lin; Jacob E. Petersen; Billy Breton; Anna Sofie Husted; Siv A. Hjorth; Asuka Inoue; Thomas M. Frimurer; Michel Bouvier; Chris A. O'Callaghan; Thue W. Schwartz

doi:10.1016/j.celrep.2021.109246

Extracellular succinate hyperpolarizes M2 macrophages through SUCNR1/GPR91-mediated Gq signaling

Mette Trauelsen, Thomas K. Hiron, Da Lin, Jacob E. Petersen, Billy Breton, Anna Sofie Husted, Siv A. Hjorth, Asuka Inoue, Thomas M. Frimurer, Michel Bouvier, Chris A. O'Callaghan, Thue W. Schwartz^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

Succinate functions both as a classical TCA cycle metabolite and an extracellular metabolic stress signal sensed by the mainly Gi-coupled succinate receptor SUCNR1. In the present study, we characterize and compare effects and signaling pathways activated by succinate and both classes of non-metabolite SUCNR1 agonists. By use of specific receptor and pathway inhibitors, rescue in G-protein-depleted cells and monitoring of receptor G protein activation by BRET, we identify Gq rather than Gi signaling to be responsible for SUCNR1-mediated effects on basic transcriptional regulation. Importantly, in primary human M2 macrophages, in which SUCNR1 is highly expressed, we demonstrate that physiological concentrations of extracellular succinate act through SUCNR1-activated Gq signaling to efficiently regulate transcription of immune function genes in a manner that hyperpolarizes their M2 versus M1 phenotype. Thus, sensing of stress-induced extracellular succinate by SUCNR1 is an important transcriptional regulator in human M2 macrophages through Gq signaling.

Original language	English
Article number	109246
Journal	Cell Reports
Volume	35
Issue number	11
Number of pages	15
ISSN	2211-1247
DOIs	https://doi.org/10.1016/j.celrep.2021.109246
Publication status	Published - 2021

Keywords

G protein
GPR91
Gq signaling
M2 macrophages
non-metabolite ligands
succinate
SUCNR1

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Extracellular succinate hyperpolarizes M2 macrophages through SUCNR1/GPR91-mediated Gq signaling. / Trauelsen, Mette; Hiron, Thomas K.; Lin, Da; Petersen, Jacob E.; Breton, Billy; Husted, Anna Sofie ; Hjorth, Siv A.; Inoue, Asuka; Frimurer, Thomas M.; Bouvier, Michel; O'Callaghan, Chris A.; Schwartz, Thue W.

In: Cell Reports, Vol. 35, No. 11, 109246, 2021.

Research output: Contribution to journal › Journal article › Research › peer-review

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title = "Extracellular succinate hyperpolarizes M2 macrophages through SUCNR1/GPR91-mediated Gq signaling",

abstract = "Succinate functions both as a classical TCA cycle metabolite and an extracellular metabolic stress signal sensed by the mainly Gi-coupled succinate receptor SUCNR1. In the present study, we characterize and compare effects and signaling pathways activated by succinate and both classes of non-metabolite SUCNR1 agonists. By use of specific receptor and pathway inhibitors, rescue in G-protein-depleted cells and monitoring of receptor G protein activation by BRET, we identify Gq rather than Gi signaling to be responsible for SUCNR1-mediated effects on basic transcriptional regulation. Importantly, in primary human M2 macrophages, in which SUCNR1 is highly expressed, we demonstrate that physiological concentrations of extracellular succinate act through SUCNR1-activated Gq signaling to efficiently regulate transcription of immune function genes in a manner that hyperpolarizes their M2 versus M1 phenotype. Thus, sensing of stress-induced extracellular succinate by SUCNR1 is an important transcriptional regulator in human M2 macrophages through Gq signaling.",

keywords = "G protein, GPR91, Gq signaling, M2 macrophages, non-metabolite ligands, succinate, SUCNR1",

author = "Mette Trauelsen and Hiron, {Thomas K.} and Da Lin and Petersen, {Jacob E.} and Billy Breton and Husted, {Anna Sofie} and Hjorth, {Siv A.} and Asuka Inoue and Frimurer, {Thomas M.} and Michel Bouvier and O'Callaghan, {Chris A.} and Schwartz, {Thue W.}",

year = "2021",

doi = "10.1016/j.celrep.2021.109246",

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AU - Trauelsen, Mette

AU - Hiron, Thomas K.

AU - Lin, Da

AU - Petersen, Jacob E.

AU - Breton, Billy

AU - Husted, Anna Sofie

AU - Hjorth, Siv A.

AU - Inoue, Asuka

AU - Frimurer, Thomas M.

AU - Bouvier, Michel

AU - O'Callaghan, Chris A.

AU - Schwartz, Thue W.

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N2 - Succinate functions both as a classical TCA cycle metabolite and an extracellular metabolic stress signal sensed by the mainly Gi-coupled succinate receptor SUCNR1. In the present study, we characterize and compare effects and signaling pathways activated by succinate and both classes of non-metabolite SUCNR1 agonists. By use of specific receptor and pathway inhibitors, rescue in G-protein-depleted cells and monitoring of receptor G protein activation by BRET, we identify Gq rather than Gi signaling to be responsible for SUCNR1-mediated effects on basic transcriptional regulation. Importantly, in primary human M2 macrophages, in which SUCNR1 is highly expressed, we demonstrate that physiological concentrations of extracellular succinate act through SUCNR1-activated Gq signaling to efficiently regulate transcription of immune function genes in a manner that hyperpolarizes their M2 versus M1 phenotype. Thus, sensing of stress-induced extracellular succinate by SUCNR1 is an important transcriptional regulator in human M2 macrophages through Gq signaling.

AB - Succinate functions both as a classical TCA cycle metabolite and an extracellular metabolic stress signal sensed by the mainly Gi-coupled succinate receptor SUCNR1. In the present study, we characterize and compare effects and signaling pathways activated by succinate and both classes of non-metabolite SUCNR1 agonists. By use of specific receptor and pathway inhibitors, rescue in G-protein-depleted cells and monitoring of receptor G protein activation by BRET, we identify Gq rather than Gi signaling to be responsible for SUCNR1-mediated effects on basic transcriptional regulation. Importantly, in primary human M2 macrophages, in which SUCNR1 is highly expressed, we demonstrate that physiological concentrations of extracellular succinate act through SUCNR1-activated Gq signaling to efficiently regulate transcription of immune function genes in a manner that hyperpolarizes their M2 versus M1 phenotype. Thus, sensing of stress-induced extracellular succinate by SUCNR1 is an important transcriptional regulator in human M2 macrophages through Gq signaling.

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KW - Gq signaling

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