CD163+ Macrophages Induce Endothelial-to-Mesenchymal Transition in Atheroma
- PMID: 38860377
- DOI: 10.1161/CIRCRESAHA.123.324082
CD163+ Macrophages Induce Endothelial-to-Mesenchymal Transition in Atheroma
Abstract
Background: Cell phenotype switching is increasingly being recognized in atherosclerosis. However, our understanding of the exact stimuli for such cellular transformations and their significance for human atherosclerosis is still evolving. Intraplaque hemorrhage is thought to be a major contributor to plaque progression in part by stimulating the influx of CD163+ macrophages. Here, we explored the hypothesis that CD163+ macrophages cause plaque progression through the induction of proapoptotic endothelial-to-mesenchymal transition (EndMT) within the fibrous cap.
Methods: Human coronary artery sections from CVPath's autopsy registry were selected for pathological analysis. Athero-prone ApoE-/- and ApoE-/-/CD163-/- mice were used for in vivo studies. Human peripheral blood mononuclear cell-induced macrophages and human aortic endothelial cells were used for in vitro experiments.
Results: In 107 lesions with acute coronary plaque rupture, 55% had pathological evidence of intraplaque hemorrhage in nonculprit vessels/lesions. Thinner fibrous cap, greater CD163+ macrophage accumulation, and a larger number of CD31/FSP-1 (fibroblast specific protein-1) double-positive cells and TUNEL (terminal deoxynucleotidyl transferase-dUTP nick end labeling) positive cells in the fibrous cap were observed in nonculprit intraplaque hemorrhage lesions, as well as in culprit rupture sections versus nonculprit fibroatheroma sections. Human aortic endothelial cells cultured with supernatants from hemoglobin/haptoglobin-exposed macrophages showed that increased mesenchymal marker proteins (transgelin and FSP-1) while endothelial markers (VE-cadherin and CD31) were reduced, suggesting EndMT induction. Activation of NF-κB (nuclear factor kappa β) signaling by proinflammatory cytokines released from CD163+ macrophages directly regulated the expression of Snail, a critical transcription factor during EndMT induction. Western blot analysis for cleaved caspase-3 and microarray analysis of human aortic endothelial cells indicated that apoptosis was stimulated during CD163+ macrophage-induced EndMT. Additionally, CD163 deletion in athero-prone mice suggested that CD163 is required for EndMT and plaque progression. Using single-cell RNA sequencing from human carotid endarterectomy lesions, a population of EndMT was detected, which demonstrated significant upregulation of apoptosis-related genes.
Conclusions: CD163+ macrophages provoke EndMT, which may promote plaque progression through fibrous cap thinning.
Keywords: atherosclerosis; cell adhesion molecules; collagen; coronary stenosis; macrophages.
Conflict of interest statement
R. Virmani and A.V. Finn have received institutional research support from R01 HL141425 Leducq Foundation Grant, the National Institutes of Health Grant (NIH; HL141425), the Amazon Web Services Coronavirus Disease 2019 Diagnostic Development Initiative Grant, 480 Biomedical, 4C Medical, 4Tech, Abbott Vascular, Ablative Solutions, Absorption Systems, Advanced NanoTherapies, Aerwave Medical, Alivas, Amgen, Asahi Medical, Aurios Medical, Avantec Vascular, BD, Biosensors, Biotronik, Biotyx Medical, Bolt Medical, Boston Scientific, Canon, Cardiac Implants, Cardiawave, CardioMech, Cardionomic, Celonova, Cerus EndoVascular, Chansu Vascular Technologies, Childrens National, Concept Medical, Cook Medical, Cooper Health, Cormaze, CRL, Croivalve, Cardiovascular Systems, Inc. (CSI), Dexcom, Edwards Lifesciences, Elucid Bioimaging, eLum Technologies, Emboline, Endotronix, Envision, Filterlex, Imperative Care, Innovalve, Innovative, Cardiovascular Solutions, Intact Vascular, Interface Biologics, Intershunt Technologies, Invatin, Lahav, Limflow, L&J Bio, Lutonix, Lyra Therapeutics, Mayo Clinic, Maywell, MDS, MedAlliance, Medanex, Medtronic, Mercator, Microport, Microvention, Neovasc, Nephronyx, Nova Vascular, Nyra Medical, Occultech, Olympus, Ohio Health, OrbusNeich, Ossiso, Phenox, Pi-Cardia, Polares Medical, Polyvascular, Profusa, ProKidney, LLC, Protembis, Pulse Biosciences, Qool Therapeutics, Recombinetics, Recor Medical, Regencor, Renata Medical, Restore Medical, Ripple Therapeutics, Rush University, Sanofi, Shockwave, SMT, SoundPipe, Spartan Micro, Spectrawave, Surmodics, Terumo Corporation, The Jacobs Institute, Transmural Systems, Transverse Medical, TruLeaf, University of California, San Francisco (UCSF), University of Pittsburgh Medical Center (UPMC), Vascudyne, Vesper, Vetex Medical, Whiteswell, WL Gore, and Xeltis. A.V. Finn received honoraria from Abbott Vascular, Biosensors, Boston Scientific, Celonova, Cook Medical, CSI, Lutonix Bard, Sinomed, and Terumo Corporation and is a consultant for Amgen, Abbott Vascular, Boston Scientific, Celonova, Cook Medical, Lutonix Bard, and Sinomed. R. Virmani received honoraria from Abbott Vascular, Biosensors, Boston Scientific, Celonova, Cook Medical, Cordis, CSI, Lutonix Bard, Medtronic, OrbusNeich Medical, CeloNova, SINO Medical Technology, ReCore, Terumo Corporation, W. L. Gore, and Spectranetics and is a consultant for Celonova, Cook Medical, CSI, Edwards Lifesciences, Bard BD, Medtronic, OrbusNeich Medical, ReCor Medical, SinoMedical Sciences Technology, Surmodics, Terumo Corporation, W. L. Gore, and Xeltis. L. Guo is supported by NIH (grant HL141425) and the Leducq Foundation Grant. M. Mori, A. Sakamoto, and K. Kawai are supported by the Leducq Foundation Grant. The other authors report no conflicts.
Comment in
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Breaking Point: How Intraplaque Hemorrhage Propels Plaque Rupture.Circ Res. 2024 Jul 5;135(2):317-319. doi: 10.1161/CIRCRESAHA.124.324795. Epub 2024 Jul 4. Circ Res. 2024. PMID: 38963871 No abstract available.
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