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      S-propargyl-cysteine promotes the stability of atherosclerotic plaque via maintaining vascular muscle contractile phenotype

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          Abstract

          Introduction: Plaque rupture in atherosclerosis contributes to various acute cardiovascular events. As a new sulfide-containing donor, S-propargyl-cysteine (SPRC) has been reported to play a beneficial role in cardioprotection, potentially through its anti-inflammatory, anti-oxidative and anti-atherogenic activities. Our previous study observed an increase in eNOS phosphorylation in endothelial cells. However, it remains unclear whether SPRC influences vascular smooth muscle cells (VSMCs) within the plaque and if this effect contributes to plaque stabilization.

          Methods: An atherosclerotic unstable plaque mouse model was established by subjecting ApoE −/− mice to tandem stenosis of the right carotid artery along with a Western diet. Daily SPRC administration was conducted for 13 weeks. Plaque morphology and stability were assessed using MRI scanning and histopathological staining. In our in vitro studies, we stimulated human artery vascular smooth muscle cells (HAVSMCs) with platelet-derived growth factor-BB (PDGF-BB), both with and without 100 μM SPRC treatment. Cell phenotype was assessed using both Western blot and Real-time PCR. Cell proliferation was assessed using the BrdU cell proliferation kit and immunofluorescence of Ki-67, while cell migration was measured using scratch wound healing and transwell assay. MiR-143-3p overexpression and knockdown experiments were used to investigate whether it mediates the effect of SPRC on VSMC phenotype.

          Results and Discussion: SPRC treatment reduced plasma lipid levels, increased collagen content and decreased cell apoptosis in atherosclerotic plaques, indicating improved plaque stability. Both in vivo and in vitro studies elucidated the role of SPRC in preserving the contractile phenotype of VSMCs through up-regulation of miR-143-3p expression. Furthermore, SPRC suppressed the pro-proliferation and pro-migration effects of PDGF-BB on HAVSMCs. Overall, these findings suggest that the inhibitory effect of SPRC on phenotype switch from contractile to synthetic VSMCs may contribute to its beneficial role in enhancing plaque stability.

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          Vascular Smooth Muscle Cells in Atherosclerosis.

          Martin Bennett, Sanjay Sinha, Gary Owens (2016)
          The historical view of vascular smooth muscle cells (VSMCs) in atherosclerosis is that aberrant proliferation of VSMCs promotes plaque formation, but that VSMCs in advanced plaques are entirely beneficial, for example preventing rupture of the fibrous cap. However, this view has been based on ideas that there is a homogenous population of VSMCs within the plaque, that can be identified separate from other plaque cells (particularly macrophages) using standard VSMC and macrophage immunohistochemical markers. More recent genetic lineage tracing studies have shown that VSMC phenotypic switching results in less-differentiated forms that lack VSMC markers including macrophage-like cells, and this switching directly promotes atherosclerosis. In addition, VSMC proliferation may be beneficial throughout atherogenesis, and not just in advanced lesions, whereas VSMC apoptosis, cell senescence, and VSMC-derived macrophage-like cells may promote inflammation. We review the effect of embryological origin on VSMC behavior in atherosclerosis, the role, regulation and consequences of phenotypic switching, the evidence for different origins of VSMCs, and the role of individual processes that VSMCs undergo in atherosclerosis in regard to plaque formation and the structure of advanced lesions. We think there is now compelling evidence that a full understanding of VSMC behavior in atherosclerosis is critical to identify therapeutic targets to both prevent and treat atherosclerosis.
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            miR-145 and miR-143 Regulate Smooth Muscle Cell Fate Decisions

            Kimberly Cordes, Neil T. Sheehy, Mark White (2009)
            SUMMARY microRNAs are regulators of myriad cellular events, but evidence for a single microRNA that can efficiently differentiate multipotent cells into a specific lineage or regulate direct reprogramming of cells into an alternate cell fate has been elusive. Here, we show that miR-145 and miR-143 are co-transcribed in multipotent cardiac progenitors before becoming localized to smooth muscle cells, including neural crest stem cell–derived vascular smooth muscle cells. miR-145 and miR-143 were direct transcriptional targets of serum response factor, myocardin and Nkx2.5, and were downregulated in injured or atherosclerotic vessels containing proliferating, less differentiated smooth muscle cells. miR-145 was necessary for myocardin-induced reprogramming of adult fibroblasts into smooth muscle cells and sufficient to induce differentiation of multipotent neural crest stem cells into vascular smooth muscle. Furthermore, miR-145 and miR-143 cooperatively targeted a network of transcription factors, including Klf4, myocardin, and Elk-1 to promote differentiation and repress proliferation of smooth muscle cells. These findings demonstrate that miR-145 can direct the smooth muscle fate and that miR-145 and miR-143 function to regulate the quiescent versus proliferative phenotype of smooth muscle cells.
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              Pathogenesis of atherosclerosis.

              Erling Falk (2006)
              Atherosclerosis is a multifocal, smoldering, immunoinflammatory disease of medium-sized and large arteries fuelled by lipids. Endothelial cells, leukocytes, and intimal smooth muscle cells are the major players in the development of this disease. The most devastating consequences of atherosclerosis, such as heart attack and stroke, are caused by superimposed thrombosis. Therefore, the vital question is not why atherosclerosis develops but rather why atherosclerosis, after years of indolent growth, suddenly becomes complicated with luminal thrombosis. If thrombosis-prone plaques could be detected and thrombosis averted, atherosclerosis would be a much more benign disease. Approximately 76% of all fatal coronary thrombi are precipitated by plaque rupture. Plaque rupture is a more frequent cause of coronary thrombosis in men (approximately 80%) than in women (approximately 60%). Ruptured plaques are characterized by a large lipid-rich core, a thin fibrous cap that contains few smooth muscle cells and many macrophages, angiogenesis, adventitial inflammation, and outward remodeling. Plaque rupture is the most common cause of coronary thrombosis. Ruptured plaques and, by inference, rupture-prone plaques have characteristic pathoanatomical features that might be useful for their detection in vivo by imaging. This article describes the pathogenesis of atherosclerosis, how it begets thrombosis, and the possibility to detect thrombosis-prone plaques and prevent heart attack.
              Article 0 comments Cited 385 times – based on 0 reviews     Review now
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                Author and article information

                Contributors
                Li Ping: URI : https://loop.frontiersin.org/people/2434407/overviewRole: Role: Role: Role: Role: Role:
                Li Zhi-Ming: URI : https://loop.frontiersin.org/people/2434506/overviewRole: Role: Role: Role:
                Zhang Bi-Shan: URI : https://loop.frontiersin.org/people/2618444/overviewRole:
                Zhu Lei: Role: Role: Role:
                Yu Bo: Role: Role: Role:
                Zhu Yi-Chun: URI : https://loop.frontiersin.org/people/441842/overviewRole: Role:
                Wang Ming-Jie: URI : https://loop.frontiersin.org/people/2618421/overviewRole: Role: Role:
                Journal
                Journal ID (nlm-ta): Front Cell Dev Biol
                Journal ID (iso-abbrev): Front Cell Dev Biol
                Journal ID (publisher-id): Front. Cell Dev. Biol.
                Title: Frontiers in Cell and Developmental Biology
                Publisher: Frontiers Media S.A.
                ISSN (Electronic): 2296-634X
                Publication date (Electronic): 24 January 2024
                Publication date Collection: 2023
                Volume: 11
                Electronic Location Identifier: 1291170
                Affiliations
                [1] 1 Shanghai Key Laboratory of Bioactive Small Molecules , Department of Physiology and Pathophysiology , School of Basic Medical Sciences , The Innovative Research Team of High-level Local Universities in Shanghai , Fudan University , Shanghai, China
                [2] 2 Department of Vascular Surgery , Huashan Hospital , Fudan University , Shanghai, China
                Author notes

                Edited by: Daniela Quaglino, University of Modena and Reggio Emilia, Italy

                Reviewed by: Sanjid Shahriar, Harvard University, United States

                Na Wang, Tongji University, China

                *Correspondence: Wang Ming-Jie, mjwang@ 123456shmu.edu.cn
                [ † ]

                These authors have contributed equally to this work and share first authorship

                Article
                Publisher ID: 1291170
                DOI: 10.3389/fcell.2023.1291170
                PMC ID: 10847265
                PubMed ID: 38328305
                SO-VID: 5bb56175-39f4-41ee-b400-1596cb6780b3
                Copyright © Copyright © 2024 Ping, Zhi-Ming, Bi-Shan, Lei, Bo, Yi-Chun and Ming-Jie.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                Date received : 08 September 2023
                Date accepted : 22 December 2023
                Funding
                The author(s) declare financial support was received for the research, authorship, and/or publication of this article. This work was supported by the National Natural Science Foundation of China (No. 81970361 and 32271152).
                Categories
                Subject: Cell and Developmental Biology
                Subject: Original Research
                Custom metadata
                section-at-acceptance Molecular and Cellular Pathology

                Keywords: atherosclerosis,s-propargyl-cysteine,plaque stabilization,vsmcs,phenotype switching
                Data availability:
                Keywords: atherosclerosis, s-propargyl-cysteine, plaque stabilization, vsmcs, phenotype switching

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