CCL2/MCP-1 signaling drives extracellular matrix turnover by diverse macrophage subsets

CCL2/MCP-1 signaling drives extracellular matrix turnover by diverse macrophage subsets

Macrophage plasticity, cellular origin, and phenotypic heterogeneity are perpetual challenges for studies addressing the biology of this pivotal immune cell in development, homeostasis, and tissue remodeling/repair. Consequently, a myriad of macrophage subtypes has been described in these contexts....

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Main Authors: Henrik J. Jürgensen, Lakmali M. Silva, Oliver Krigslund, Sander van Putten, Daniel H. Madsen, Niels Behrendt, Lars H. Engelholm, Thomas H. Bugge
Format: Article
Language:English
Published: Elsevier 2019-02-01
Series:Matrix Biology Plus
Online Access:http://www.sciencedirect.com/science/article/pii/S259002851930002X
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spelling doaj-df9bee5fd3a34b6584894ca97f30be0c2020-11-25T02:33:14ZengElsevierMatrix Biology Plus2590-02852019-02-011CCL2/MCP-1 signaling drives extracellular matrix turnover by diverse macrophage subsetsHenrik J. Jürgensen0Lakmali M. Silva1Oliver Krigslund2Sander van Putten3Daniel H. Madsen4Niels Behrendt5Lars H. Engelholm6Thomas H. Bugge7Proteases and Tissue Remodeling Section, Oral and Pharyngeal Cancer Branch, National Institute of Dental and Craniofacial Research, National Institutes of Health, 30 Convent Drive, Bethesda, MD 20892, USA; Finsen Laboratory, Rigshospitalet/BRIC, University of Copenhagen, Ole Maaloesvej 5, DK-2200 Copenhagen N, DenmarkProteases and Tissue Remodeling Section, Oral and Pharyngeal Cancer Branch, National Institute of Dental and Craniofacial Research, National Institutes of Health, 30 Convent Drive, Bethesda, MD 20892, USA; Oral Inflammation and Immunity Unit, National Institute of Dental and Craniofacial Research, National Institutes of Health, 30 Convent Drive, Bethesda, MD 20892, USAProteases and Tissue Remodeling Section, Oral and Pharyngeal Cancer Branch, National Institute of Dental and Craniofacial Research, National Institutes of Health, 30 Convent Drive, Bethesda, MD 20892, USA; Finsen Laboratory, Rigshospitalet/BRIC, University of Copenhagen, Ole Maaloesvej 5, DK-2200 Copenhagen N, DenmarkFinsen Laboratory, Rigshospitalet/BRIC, University of Copenhagen, Ole Maaloesvej 5, DK-2200 Copenhagen N, DenmarkFinsen Laboratory, Rigshospitalet/BRIC, University of Copenhagen, Ole Maaloesvej 5, DK-2200 Copenhagen N, Denmark; Center for Cancer Immune Therapy (CCIT), Department of Haematology, Herlev Hospital, Herlev Ringvej 75, DK-2730 Herlev, Denmark; Department of Oncology, Herlev Hospital, Herlev Ringvej 75, DK-2730 Herlev, DenmarkFinsen Laboratory, Rigshospitalet/BRIC, University of Copenhagen, Ole Maaloesvej 5, DK-2200 Copenhagen N, DenmarkFinsen Laboratory, Rigshospitalet/BRIC, University of Copenhagen, Ole Maaloesvej 5, DK-2200 Copenhagen N, DenmarkProteases and Tissue Remodeling Section, Oral and Pharyngeal Cancer Branch, National Institute of Dental and Craniofacial Research, National Institutes of Health, 30 Convent Drive, Bethesda, MD 20892, USA; Corresponding author at: Proteases and Tissue Remodeling Section, Oral and Pharyngeal Cancer Branch, National Institute of Dental and Craniofacial Research, National Institutes of Health, 30 Convent Drive, Room 211, Bethesda, MD 20892, USA.Macrophage plasticity, cellular origin, and phenotypic heterogeneity are perpetual challenges for studies addressing the biology of this pivotal immune cell in development, homeostasis, and tissue remodeling/repair. Consequently, a myriad of macrophage subtypes has been described in these contexts. To facilitate the identification of functional macrophage subtypes in vivo, here we used a flow cytometry-based assay that allows for detailed phenotyping of macrophages engaged in extracellular matrix (ECM) degradation. Of the five macrophage subtypes identified in the remodeling dermis by using this assay, collagen degradation was primarily executed by Ly6C−CCR2+ and Ly6C−CCR2low macrophages via mannose receptor-dependent collagen endocytosis, while Ly6C+CCR2+ macrophages were the dominant fibrin-endocytosing cells. Unexpectedly, the CCL2/MCP1-CCR2 signaling axis was critical for both collagen and fibrin degradation, while collagen degradation was independent of IL-4Ra signaling. Furthermore, the cytokine GM-CSF selectively enhanced collagen degradation by Ly6C+CCR2+ macrophages. This study reveals distinct subsets of macrophages engaged in ECM turnover and identifies novel wound healing-associated functions for CCL2 and GM-CSF inflammatory cytokines. Keywords: Collagen degradation, Extracellular matrix endocytosis, Fibrin degradation, Interleukin-13, Mannose receptor/CD206, uPARAP/Endo180http://www.sciencedirect.com/science/article/pii/S259002851930002X
collection DOAJ
language English
format Article
sources DOAJ
author Henrik J. Jürgensen
Lakmali M. Silva
Oliver Krigslund
Sander van Putten
Daniel H. Madsen
Niels Behrendt
Lars H. Engelholm
Thomas H. Bugge
spellingShingle Henrik J. Jürgensen
Lakmali M. Silva
Oliver Krigslund
Sander van Putten
Daniel H. Madsen
Niels Behrendt
Lars H. Engelholm
Thomas H. Bugge
CCL2/MCP-1 signaling drives extracellular matrix turnover by diverse macrophage subsets
Matrix Biology Plus
author_facet Henrik J. Jürgensen
Lakmali M. Silva
Oliver Krigslund
Sander van Putten
Daniel H. Madsen
Niels Behrendt
Lars H. Engelholm
Thomas H. Bugge
author_sort Henrik J. Jürgensen
title CCL2/MCP-1 signaling drives extracellular matrix turnover by diverse macrophage subsets
title_short CCL2/MCP-1 signaling drives extracellular matrix turnover by diverse macrophage subsets
title_full CCL2/MCP-1 signaling drives extracellular matrix turnover by diverse macrophage subsets
title_fullStr CCL2/MCP-1 signaling drives extracellular matrix turnover by diverse macrophage subsets
title_full_unstemmed CCL2/MCP-1 signaling drives extracellular matrix turnover by diverse macrophage subsets
title_sort ccl2/mcp-1 signaling drives extracellular matrix turnover by diverse macrophage subsets
publisher Elsevier
series Matrix Biology Plus
issn 2590-0285
publishDate 2019-02-01
description Macrophage plasticity, cellular origin, and phenotypic heterogeneity are perpetual challenges for studies addressing the biology of this pivotal immune cell in development, homeostasis, and tissue remodeling/repair. Consequently, a myriad of macrophage subtypes has been described in these contexts. To facilitate the identification of functional macrophage subtypes in vivo, here we used a flow cytometry-based assay that allows for detailed phenotyping of macrophages engaged in extracellular matrix (ECM) degradation. Of the five macrophage subtypes identified in the remodeling dermis by using this assay, collagen degradation was primarily executed by Ly6C−CCR2+ and Ly6C−CCR2low macrophages via mannose receptor-dependent collagen endocytosis, while Ly6C+CCR2+ macrophages were the dominant fibrin-endocytosing cells. Unexpectedly, the CCL2/MCP1-CCR2 signaling axis was critical for both collagen and fibrin degradation, while collagen degradation was independent of IL-4Ra signaling. Furthermore, the cytokine GM-CSF selectively enhanced collagen degradation by Ly6C+CCR2+ macrophages. This study reveals distinct subsets of macrophages engaged in ECM turnover and identifies novel wound healing-associated functions for CCL2 and GM-CSF inflammatory cytokines. Keywords: Collagen degradation, Extracellular matrix endocytosis, Fibrin degradation, Interleukin-13, Mannose receptor/CD206, uPARAP/Endo180
url http://www.sciencedirect.com/science/article/pii/S259002851930002X
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