PCSK6 Is a Key Protease in the Control of Smooth Muscle Cell Function in Vascular Remodeling
Rykaczewska, Urszula; Suur, Bianca E; Röhl, Samuel; Razuvaev, Anton; Lengquist, Mariette; Sabater-Lleal, Maria; van der Laan, Sander W; Miller, Clint L; Wirka, Robert C; Kronqvist, Malin; Gonzalez Diez, Maria; Vesterlund, Mattias; Gillgren, Peter; Odeberg, Jacob; Lindeman, Jan Hn; Veglia, Fabrizio; Humphries, Steve E; de Faire, Ulf; Baldassarre, Damiano; Tremoli, Elena; Lehtiö, Janne; Hansson, Göran K; Paulsson-Berne, Gabrielle; Pasterkamp, Gerard; Quertermous, Thomas; Hamsten, Anders; Eriksson, Per; Hedin, Ulf; Matic, Ljubica
(2020) Circulation research, volume 126, issue 5, pp. 571 - 585
(Article)
Abstract
RATIONALE: PCSKs (Proprotein convertase subtilisins/kexins) are a protease family with unknown functions in vasculature. Previously, we demonstrated PCSK6 upregulation in human atherosclerotic plaques associated with smooth muscle cells (SMCs), inflammation, extracellular matrix remodeling, and mitogens. OBJECTIVE: Here, we applied a systems biology approach to gain deeper insights into the PCSK6
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role in normal and diseased vessel wall. METHODS AND RESULTS: Genetic analyses revealed association of intronic PCSK6 variant rs1531817 with maximum internal carotid intima-media thickness progression in high-cardiovascular risk subjects. This variant was linked with PCSK6 mRNA expression in healthy aortas and plaques but also with overall plaque SMA+ cell content and pericyte fraction. Increased PCSK6 expression was found in several independent human cohorts comparing atherosclerotic lesions versus healthy arteries, using transcriptomic and proteomic datasets. By immunohistochemistry, PCSK6 was localized to fibrous cap SMA+ cells and neovessels in plaques. In human, rat, and mouse intimal hyperplasia, PCSK6 was expressed by proliferating SMA+ cells and upregulated after 5 days in rat carotid balloon injury model, with positive correlation to PDGFB (platelet-derived growth factor subunit B) and MMP (matrix metalloprotease) 2/MMP14. Here, PCSK6 was shown to colocalize and cointeract with MMP2/MMP14 by in situ proximity ligation assay. Microarrays of carotid arteries from Pcsk6 -/- versus control mice revealed suppression of contractile SMC markers, extracellular matrix remodeling enzymes, and cytokines/receptors. Pcsk6 -/- mice showed reduced intimal hyperplasia response upon carotid ligation in vivo, accompanied by decreased MMP14 activation and impaired SMC outgrowth from aortic rings ex vivo. PCSK6 silencing in human SMCs in vitro leads to downregulation of contractile markers and increase in MMP2 expression. Conversely, PCSK6 overexpression increased PDGFBB (platelet-derived growth factor BB)-induced cell proliferation and particularly migration. CONCLUSIONS: PCSK6 is a novel protease that induces SMC migration in response to PDGFB, mechanistically via modulation of contractile markers and MMP14 activation. This study establishes PCSK6 as a key regulator of SMC function in vascular remodeling. Visual Overview: An online visual overview is available for this article.
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Keywords: atherosclerosis, carotid artery injuries, endarterectomy, extracellular matrix, vascular remodeling, Cardiology and Cardiovascular Medicine, Physiology, Journal Article, Research Support, Non-U.S. Gov't
ISSN: 0009-7330
Publisher: Lippincott Williams and Wilkins
Note: Funding Information: This work was conducted with support from the Swedish Heart and Lung Foundation, the Swedish Research Council, Uppdrag Besegra Stroke (P581/2011-123), the Strategic Cardiovascular Programs of Karolinska Institutet and Stockholm County Council, the Stockholm County Council, the Foundation for Strategic Research and the European Commission (CarTarDis, AtheroRemo, VIA, IMPROVE, and AtheroFlux projects). Maria Sabater-Lleal is recipient of the EHA-ISTH fellowship, of a Miguel Servet contract from the Spanish Ministry of Health (ISCIII CP17/00142) and acknowledges funding from the Swedish Heart and Lung Foundation. Sander W. van der Laan was funded through grants from the Netherlands CardioVascular Research Initiative (GENIUS, CVON2011-19), the Interuniversity Cardiology Institute of the Netherlands (ICIN, 09.001) and the FP7 EU project CVgenes@target (HEALTH-F2-2013-601456). Prof Humphries is supported by a grant from the British Heart Foundation (BHF grant PG 08/008) and by funding from the Department of Health’s National Institute for Health Research Biomedical Research Centers funding scheme. Ljubica Matic is the recipient of fellowships from the Swedish Society for Medical Research and the Heart and Lung Foundation and acknowledges research funding from the Swedish Research Council, Swen and Ebba Hagberg, Tore Nilsson, Magnus Bergvall, and Karolinska Institutet Foundations, Sweden. Publisher Copyright: © 2019 American Heart Association, Inc.
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