Resolving macrophage polarization through distinct Ca(2+) entry channel that maintains intracellular signaling and mitochondrial bioenergetics

Transformation of naive macrophages into classically (M1) or alternatively (M2) activated macrophages regulates the inflammatory response. Here, we identified that distinct Ca(2+) entry channels determine the IFNγ-induced M1 or IL-4-induced M2 transition. Naive or M2 macrophages exhibit a robust Ca(...

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Autores principales: Nascimento Da Conceicao, Viviane, Sun, Yuyang, Ramachandran, Karthik, Chauhan, Arun, Raveendran, Amritha, Venkatesan, Manigandan, DeKumar, Bony, Maity, Soumya, Vishnu, Neelanjan, Kotsakis, George A., Worley, Paul F., Gill, Donald L., Mishra, Bibhuti B., Madesh, Muniswamy, Singh, Brij B.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8591423/
https://www.ncbi.nlm.nih.gov/pubmed/34816101
http://dx.doi.org/10.1016/j.isci.2021.103339
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author Nascimento Da Conceicao, Viviane
Sun, Yuyang
Ramachandran, Karthik
Chauhan, Arun
Raveendran, Amritha
Venkatesan, Manigandan
DeKumar, Bony
Maity, Soumya
Vishnu, Neelanjan
Kotsakis, George A.
Worley, Paul F.
Gill, Donald L.
Mishra, Bibhuti B.
Madesh, Muniswamy
Singh, Brij B.
author_facet Nascimento Da Conceicao, Viviane
Sun, Yuyang
Ramachandran, Karthik
Chauhan, Arun
Raveendran, Amritha
Venkatesan, Manigandan
DeKumar, Bony
Maity, Soumya
Vishnu, Neelanjan
Kotsakis, George A.
Worley, Paul F.
Gill, Donald L.
Mishra, Bibhuti B.
Madesh, Muniswamy
Singh, Brij B.
author_sort Nascimento Da Conceicao, Viviane
collection PubMed
description Transformation of naive macrophages into classically (M1) or alternatively (M2) activated macrophages regulates the inflammatory response. Here, we identified that distinct Ca(2+) entry channels determine the IFNγ-induced M1 or IL-4-induced M2 transition. Naive or M2 macrophages exhibit a robust Ca(2+) entry that was dependent on Orai1 channels, whereas the M1 phenotype showed a non-selective TRPC1 current. Blockade of Ca(2+) entry suppresses pNF-κB/pJNK/STAT1 or STAT6 signaling events and consequently lowers cytokine production that is essential for M1 or M2 functions. Of importance, LPS stimulation shifted M2 cells from Orai1 toward TRPC1-mediated Ca(2+) entry and TRPC1(−/−) mice exhibited transcriptional changes that suppress pro-inflammatory cytokines. In contrast, Orai1(−/−) macrophages showed a decrease in anti-inflammatory cytokines and exhibited a suppression of mitochondrial oxygen consumption rate and inhibited mitochondrial shape transition specifically in the M2 cells. Finally, alterations in TRPC1 or Orai1 expression determine macrophage polarization suggesting a distinct role of Ca(2+) channels in modulating macrophage transformation.
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spelling pubmed-85914232021-11-22 Resolving macrophage polarization through distinct Ca(2+) entry channel that maintains intracellular signaling and mitochondrial bioenergetics Nascimento Da Conceicao, Viviane Sun, Yuyang Ramachandran, Karthik Chauhan, Arun Raveendran, Amritha Venkatesan, Manigandan DeKumar, Bony Maity, Soumya Vishnu, Neelanjan Kotsakis, George A. Worley, Paul F. Gill, Donald L. Mishra, Bibhuti B. Madesh, Muniswamy Singh, Brij B. iScience Article Transformation of naive macrophages into classically (M1) or alternatively (M2) activated macrophages regulates the inflammatory response. Here, we identified that distinct Ca(2+) entry channels determine the IFNγ-induced M1 or IL-4-induced M2 transition. Naive or M2 macrophages exhibit a robust Ca(2+) entry that was dependent on Orai1 channels, whereas the M1 phenotype showed a non-selective TRPC1 current. Blockade of Ca(2+) entry suppresses pNF-κB/pJNK/STAT1 or STAT6 signaling events and consequently lowers cytokine production that is essential for M1 or M2 functions. Of importance, LPS stimulation shifted M2 cells from Orai1 toward TRPC1-mediated Ca(2+) entry and TRPC1(−/−) mice exhibited transcriptional changes that suppress pro-inflammatory cytokines. In contrast, Orai1(−/−) macrophages showed a decrease in anti-inflammatory cytokines and exhibited a suppression of mitochondrial oxygen consumption rate and inhibited mitochondrial shape transition specifically in the M2 cells. Finally, alterations in TRPC1 or Orai1 expression determine macrophage polarization suggesting a distinct role of Ca(2+) channels in modulating macrophage transformation. Elsevier 2021-10-23 /pmc/articles/PMC8591423/ /pubmed/34816101 http://dx.doi.org/10.1016/j.isci.2021.103339 Text en © 2021 The Author(s) https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Nascimento Da Conceicao, Viviane
Sun, Yuyang
Ramachandran, Karthik
Chauhan, Arun
Raveendran, Amritha
Venkatesan, Manigandan
DeKumar, Bony
Maity, Soumya
Vishnu, Neelanjan
Kotsakis, George A.
Worley, Paul F.
Gill, Donald L.
Mishra, Bibhuti B.
Madesh, Muniswamy
Singh, Brij B.
Resolving macrophage polarization through distinct Ca(2+) entry channel that maintains intracellular signaling and mitochondrial bioenergetics
title Resolving macrophage polarization through distinct Ca(2+) entry channel that maintains intracellular signaling and mitochondrial bioenergetics
title_full Resolving macrophage polarization through distinct Ca(2+) entry channel that maintains intracellular signaling and mitochondrial bioenergetics
title_fullStr Resolving macrophage polarization through distinct Ca(2+) entry channel that maintains intracellular signaling and mitochondrial bioenergetics
title_full_unstemmed Resolving macrophage polarization through distinct Ca(2+) entry channel that maintains intracellular signaling and mitochondrial bioenergetics
title_short Resolving macrophage polarization through distinct Ca(2+) entry channel that maintains intracellular signaling and mitochondrial bioenergetics
title_sort resolving macrophage polarization through distinct ca(2+) entry channel that maintains intracellular signaling and mitochondrial bioenergetics
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8591423/
https://www.ncbi.nlm.nih.gov/pubmed/34816101
http://dx.doi.org/10.1016/j.isci.2021.103339
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