Oxidative phosphorylation regulates interleukin‐10 production in regulatory B cells via the extracellular signal‐related kinase pathway

Regulatory B cells (Bregs) are immune cells that constrain autoimmune response and restrict inflammation via their expression of interleukin (IL)‐10. However, the molecular mechanisms underlying Breg differentiation and IL‐10 secretion remain unclear. Previous data suggest that cellular metabolism d...

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Published in:Immunology 2022-12, Vol.167 (4), p.576-589
Main Authors: Zhu, Yinhong, Zhang, Xiaoran, Xie, Shujuan, Bao, Weijia, Chen, Jingrou, Wu, Qili, Lai, Xiaorong, Liu, Longshan, Xiong, Shiqiu, Peng, Yanwen
Format: Article
Language:English
Subjects:
Animals
Autoimmune diseases
B-Lymphocytes, Regulatory
Colitis
Cytokines
Dextran
Dextrans
extracellular signal‐related kinase signalling pathway
Fluorescence
Green fluorescent protein
hypoxia‐inducible factor‐1α
Immune system
Interleukin-10 - genetics
Interleukin-10 - metabolism
Interleukins
interleukin‐10
Kinases
Lymphocytes B
Metabolism
Mice
Mice, Inbred C57BL
Mitochondria
Molecular modelling
Oxidative Phosphorylation
Oxygen consumption
Phenotypes
Phosphorylation
regulatory B cells
Surface markers
Therapeutic targets
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cited_by cdi_FETCH-LOGICAL-c3534-d4cc4ecf9e262ff8cb1adcdc8a66e0c664016a543d8d0dcbe44acbdcb99174a73
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container_title Immunology
container_volume 167
creator Zhu, Yinhong
Zhang, Xiaoran
Xie, Shujuan
Bao, Weijia
Chen, Jingrou
Wu, Qili
Lai, Xiaorong
Liu, Longshan
Xiong, Shiqiu
Peng, Yanwen
description Regulatory B cells (Bregs) are immune cells that constrain autoimmune response and restrict inflammation via their expression of interleukin (IL)‐10. However, the molecular mechanisms underlying Breg differentiation and IL‐10 secretion remain unclear. Previous data suggest that cellular metabolism determines both the fate and function of these cells. Here, we suggest an essential role for mitochondrial oxidative phosphorylation (OXPHOS) in the regulation of IL‐10 in these Bregs. We found that IL‐10+ B cells from IL‐10‐green fluorescent protein‐expressing mice had higher oxygen consumption rate than IL‐10− B cells. In addition, inhibition of OXPHOS decreased the expression of IL‐10 in B cells. Furthermore, suppression of OXPHOS diminished the expression of surface markers for Bregs and impaired their therapeutic effects in dextran sulphate sodium (DSS)‐induced colitis. Mechanistically, mitochondrial OXPHOS was found to regulate the transcription factor HIF‐1α through the extracellular signal‐related kinase pathway. Taken together, this study reveals a strong correlation between mitochondrial OXPHOS and Breg phenotype/function, indicating OXPHOS as a therapeutic target in autoimmune diseases driven by Breg dysfunction. Activated B cells with highly OXPHOS favors to promote IL‐10 production mainly through increasing HIF‐1α expression via regulating the phosphorylation of ERK, therefore, relieve the pathological severity of colitis in IBD mice. Pretreatment of activated B cells with oligomycin blocks OXPHOS, resulting in downregulation of ERK phosphorylation and HIF‐1α along with low IL‐10 production, thus, the therapeutic effect of activated B cells in colitis were impaired.
doi_str_mv 10.1111/imm.13554
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However, the molecular mechanisms underlying Breg differentiation and IL‐10 secretion remain unclear. Previous data suggest that cellular metabolism determines both the fate and function of these cells. Here, we suggest an essential role for mitochondrial oxidative phosphorylation (OXPHOS) in the regulation of IL‐10 in these Bregs. We found that IL‐10+ B cells from IL‐10‐green fluorescent protein‐expressing mice had higher oxygen consumption rate than IL‐10− B cells. In addition, inhibition of OXPHOS decreased the expression of IL‐10 in B cells. Furthermore, suppression of OXPHOS diminished the expression of surface markers for Bregs and impaired their therapeutic effects in dextran sulphate sodium (DSS)‐induced colitis. Mechanistically, mitochondrial OXPHOS was found to regulate the transcription factor HIF‐1α through the extracellular signal‐related kinase pathway. Taken together, this study reveals a strong correlation between mitochondrial OXPHOS and Breg phenotype/function, indicating OXPHOS as a therapeutic target in autoimmune diseases driven by Breg dysfunction. Activated B cells with highly OXPHOS favors to promote IL‐10 production mainly through increasing HIF‐1α expression via regulating the phosphorylation of ERK, therefore, relieve the pathological severity of colitis in IBD mice. 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source Wiley-Blackwell Read & Publish Collection
subjects Animals
Autoimmune diseases
B-Lymphocytes, Regulatory
Colitis
Cytokines
Dextran
Dextrans
extracellular signal‐related kinase signalling pathway
Fluorescence
Green fluorescent protein
hypoxia‐inducible factor‐1α
Immune system
Interleukin-10 - genetics
Interleukin-10 - metabolism
Interleukins
interleukin‐10
Kinases
Lymphocytes B
Metabolism
Mice
Mice, Inbred C57BL
Mitochondria
Molecular modelling
Oxidative Phosphorylation
Oxygen consumption
Phenotypes
Phosphorylation
regulatory B cells
Surface markers
Therapeutic targets
title Oxidative phosphorylation regulates interleukin‐10 production in regulatory B cells via the extracellular signal‐related kinase pathway
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