斑块侵蚀在急性冠状动脉综合征中的作用及机制研究进展

doi:10.20039/j.cnki.1007-3949.2023.03.002

首页 > 按月查看>2023年第3月 >190-198. DOI:10.20039/j.cnki.1007-3949.2023.03.002

斑块侵蚀在急性冠状动脉综合征中的作用及机制研究进展
DOI:
                        10.20039/j.cnki.1007-3949.2023.03.002
                    
作者:
                        陈芸儿1陈芸儿
首都医科大学基础医学院生理学与病理生理学系
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张琦1张琦
首都医科大学基础医学院生理学与病理生理学系
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于宝琪1,2,3于宝琪
首都医科大学基础医学院生理学与病理生理学系;重塑相关心血管疾病教育部重点实验室;代谢紊乱相关疾病北京市重点实验室,北京市100069
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曲爱娟1,2,3曲爱娟
首都医科大学基础医学院生理学与病理生理学系;重塑相关心血管疾病教育部重点实验室;代谢紊乱相关疾病北京市重点实验室,北京市100069
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作者单位:(1.首都医科大学基础医学院生理学与病理生理学系;2.重塑相关心血管疾病教育部重点实验室;3.代谢紊乱相关疾病北京市重点实验室,北京市100069)
作者简介:陈芸儿,主要研究方向为内皮功能紊乱与血管损伤性疾病,E-mail:17301191597@163.com。通信作者曲爱娟,教授,博士研究生导师,主要研究方向为低氧与重塑心血管相关疾病,E-mail:aijuanqu@ccmu.edu.cn。
通讯作者:
基金项目:北京市自然科学基金B类重点项目(KZ202010025032)；北京市属高校高水平教师队伍建设支持计划(CIT&TCD20190332)资助

Research progress on the role and mechanism of plaque erosion in acute coronary syndrome

Author:

CHEN Yuner ^¹
CHEN Yuner
Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Capital Medical University
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ZHANG Qi ^¹
ZHANG Qi
Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Capital Medical University
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YU Baoqi ^{^1,2,3}
YU Baoqi
Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Capital Medical University;Key Laboratory of Remodeling-related Cardiovascular Diseases, Ministry of Education;Key Laboratory of Metabolic Disorders, Beijing 100069, China
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QU Aijuan ^{^1,2,3}
QU Aijuan
Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Capital Medical University;Key Laboratory of Remodeling-related Cardiovascular Diseases, Ministry of Education;Key Laboratory of Metabolic Disorders, Beijing 100069, China
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Affiliation:

1.Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Capital Medical University;2.Key Laboratory of Remodeling-related Cardiovascular Diseases, Ministry of Education;3.Key Laboratory of Metabolic Disorders, Beijing 100069, China)

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摘要:

急性冠状动脉综合征是世界范围内发病率和死亡率较高的一组临床综合征。目前,越来越多的证据表明,带有完整纤维帽的斑块侵蚀是导致急性冠状动脉综合征的主要原因之一。基础实验已经揭示了斑块侵蚀的独特分子特征,已有研究表明,血流紊乱会引起内皮细胞损伤,从而导致基底膜丧失其完整性以及内皮细胞脱落,继而形成中性粒细胞胞外陷阱和血栓,导致斑块侵蚀。文章将讨论动脉粥样硬化斑块侵蚀的分子特征以及对斑块侵蚀患者未来精准医疗所需的转化研究。

关键词:动脉粥样硬化;急性冠状动脉综合征;斑块侵蚀;内皮细胞;中性粒细胞;细胞外基质

Abstract:

Acute coronary syndrome (ACS) is a group of clinical syndromes with high morbidity and mortality worldwide. Increasing evidence suggest that plaque erosion with an intact fibrous cap is one of the major causes responsible for ACS. Basic experiments have shed light on the unique molecular characteristics of plaque erosion. It has been indicated that plaque erosion starts with the changes of blood flow disturbance-induced endothelial cell damage, resulting in loss of basement membrane integrity and endothelial cell desquamation, with consequent formation of neutrophil extracellular traps and thrombosis. This review will discuss the molecular characteristics of atherosclerotic plaque erosion and translational research needed for future precision medicine in patients with plaque erosion.

Key words:atherosclerosis; acute coronary syndrome; plaque erosion; endothelial cells; neutrophil; extracellular matrix

参考文献

[1] 朱心忻, 乔虹.斑块侵蚀的诊疗进展.中国动脉硬化杂志, 2,0(7):628-632.ZHU X X, QIAO H.Progress in the diagnosis and treatment of plaque erosion.Chin J Arterioscler, 2,0(7):628-632.

[2] SATHYAMURTHY I, SENGOTTUVELU G.Can OCT change the therapeutic strategy in ACS due to plaque erosion?.Indian Heart J, 1,3(3):259-263.

[3] LUO X, LV Y, BAI X, et al.Plaque erosion:a distinctive pathological mechanism of acute coronary syndrome .Front Cardiovasc Med, 1,8:711453.

[4] ARAKI M, YONETSU T, KURIHARA O, et al.Age and phenotype of patients with plaque erosion.J Am Heart Assoc, 1,0(19):e020691.

[5] FAHED A C, JANG I K.Plaque erosion and acute coronary syndromes:phenotype, molecular characteristics and future directions.Nat Rev Cardiol, 1,8(10):724-734.

[6] KIM H O, KIM C J, KURIHARA O, et al.Angiographic features of patients with coronary plaque erosion.Int J Cardiol, 9,8:12-16.

[7] KRAMER M C, RITTERSMA S Z, DE WINTER R J, et al.Relationship of thrombus healing to underlying plaque morphology in sudden coronary death.J Am Coll Cardiol, 0,5(2):122-132.

[8] KAREL M, HECHLER B, KUIJPERS M, et al.Atherosclerotic plaque injury-mediated murine thrombosis models:advantages and limitations.Platelets, 0,1(4):439-446.

[9] SUMI T, YAMASHITA A, MATSUDA S, et al.Disturbed blood flow induces erosive injury to smooth muscle cell-rich neointima and promotes thrombus formation in rabbit femoral arteries.J Thromb Haemost, 0,8(6):1394-1402.

[10] QUILLARD T, ARAUJO H A, FRANCK G, et al.TLR2 and neutrophils potentiate endothelial stress, apoptosis and detachment:implications for superficial erosion.Eur Heart J, 5,6(22):1394-1404.

[11] GREGORY F.Role of mechanical stress and neutrophils in the pathogenesis of plaque erosion.Atherosclerosis, 1,8:60-69.

[12] BROWN D I, GRIENDLING K K.Regulation of signal transduction by reactive oxygen species in the cardiovascular system.Circ Res, 5,6(3):531-549.

[13] APENBERG S, FREYBERG M A, FRIEDL P.Shear stress induces apoptosis in vascular smooth muscle cells via an autocrine Fas/FasL pathway.Biochem Biophys Res Commun, 3,0(2):355-359.

[14] FULTON D, GRATTON J P, MCCABE T J, et al.Regulation of endothelium-derived nitric oxide production by the protein kinase Akt.Nature, 9,9(6736):597-601.

[15] URSCHEL K, TAUCHI M, ACHENBACH S, et al.Investigation of wall shear stress in cardiovascular research and in clinical practice:from bench to bedside.Int J Mol Sci, 1,2(11):5635.

[16] QIN W D, MI SH, LI C, et al.Low shear stress induced HMGB1 translocation and release via PECAM-1/PARP-1 pathway to induce inflammation response.PLoS One, 5,0(3):e0120586.

[17] ESHTEHARDI P, BROWN A J, BHARGAVA A, et al.High wall shear stress and high-risk plaque:an emerging concept.Int J Cardiovasc Imaging, 7,3(7):1089-1099.

[18] VERGALLO R, PAPAFAKLIS M I, D'AMARIO D, et al.Coronary plaque erosion developing in an area of high endothelial shear stress:insights from serial optical coherence tomography imaging.Coron Artery Dis, 9,0(1):74-75.

[19] KURIHARA O, TAKANO M, YAMAMOTO E, et al.Seasonal variations in the pathogenesis of acute coronary syndromes.J Am Heart Assoc, 0,9(13):e015579.

[20] YAMAMOTO E, THONDAPU V, POON E, et al.Endothelial shear stress and plaque erosion:a computational fluid dynamics and optical coherence tomography study.JACC Cardiovasc Imaging, 9,2(2):374-375.

[21] THONDAPU V, MAMON C, POON E W, et al.High spatial endothelial shear stress gradient independently predicts site of acute coronary plaque rupture and erosion.Cardiovasc Res, 1,7(8):1974-1985.

[22] FRANCK G, MAWSON T, SAUSEN G, et al.Flow perturbation mediates neutrophil recruitment and potentiates endothelial injury via TLR2 in mice:implications for superficial erosion.Circ Res, 7,1(1):31-42.

[23] MULLICK A E, SOLDAU K, KIOSSES W B, et al.Increased endothelial expression of Toll-like receptor 2 at sites of disturbed blood flow exacerbates early atherogenic events.J Exp Med, 8,5(2):373-383.

[24] LU B L, WILLIAMS G M, BRIMBLE M A.TLR2 agonists and their structure-activity relationships.Org Biomol Chem, 0,8(27):5073-5094.

[25] GRECHOWA I, HORKE S, WALLRATH A, et al.Human neutrophil elastase induces endothelial cell apoptosis by activating the PERK-CHOP branch of the unfolded protein response.FASEB J, 7,1(9):3681-3868.

[26] 范骎, 陶蓉, 张瑞岩, 等.炎症反应在易损斑块中的作用及其机制研究进展.中国动脉硬化杂志, 9,7(4):301-306.FAN Q, TAO R, ZHANG R Y, et al.Research progress on the role of inflammatory response in vulnerable plaque and its mechanism.Chin J Arterioscler, 9,7(4):301-306.

[27] DORING Y, DRECHSLER M, SOEHNLEIN O, et al.Neutrophils in atherosclerosis:from mice to man.Arterioscler Thromb Vasc Biol, 5,5(2):288-295.

[28] FERRANTE G, NAKANO M, PRATI F, et al.High levels of systemic myeloperoxidase are associated with coronary plaque erosion in patients with acute coronary syndromes:a clinicopathological study.Circulation, 0,2(24):2505-2513.

[29] 唐锴, 帅壮, 李宗宇, 等.急性冠状动脉综合征生物标志物的研究现状.中国动脉硬化杂志, 1,9(5):451-455.TANG K, SHUAI Z, LING Z Y, et al.Research status of biomarkers for the acute coronary syndrome.Chin J Arterioscler, 1,9(5):451-455.

[30] 王慧洁, 丁世芳.髓过氧化物酶与急性冠状动脉综合征的关系.中国动脉硬化杂志, 3,1(10):955-960.WANG H J, DING S F.Research progress of myeloperoxidase and acute coronary syndrome.Chin J Arterioscler, 3,1(10):955-960.

[31] NDREPEPA G.Myeloperoxidase-A bridge linking inflammation and oxidative stress with cardiovascular disease.Clin Chim Acta, 9,3:36-51.

[32] PRUENSTER M, KURZ A R, CHUNG K J, et al.Extracellular MRP8/14 is a regulator of beta2 integrin-dependent neutrophil slow rolling and adhesion .Nat Commun, 5,6:6915.

[33] FOLCO E J, MAWSON T L, VROMMAN A, et al.Neutrophil extracellular traps induce endothelial cell activation and tissue factor production through interleukin-1alpha and cathepsin G.Arterioscler Thromb Vasc Biol, 8,8(8):1901-1912.

[34] HIDALGO A, LIBBY P, SOEHNLEIN O, et al.Neutrophil extracellular traps:from physiology to pathology .Cardiovasc Res, 2,8(13):2737-2753.

[35] LEE K H, KRONBICHLER A, PARK D D, et al.Neutrophil extracellular traps (NETs) in autoimmune diseases:a comprehensive review.Autoimmun Rev, 7,6(11):1160-1173.

[36] MOSTAFA M N, OSAMA M.The implications of neutrophil extracellular traps in the pathophysiology of atherosclerosis and atherothrombosis.Exp Biol Med (Maywood), 0,5(15):1376-1384.

[37] LIU X, ARFMAN T, WICHAPONG K, et al.PAD4 takes charge during neutrophil activation:impact of PAD4 mediated NET formation on immune-mediated disease.J Thromb Haemost, 1,9(7):1607-1617.

[38] FRANCK G, MAWSON T L, FOLCO E J, et al.Roles of PAD4 and NETosis in experimental atherosclerosis and arterial injury:implications for superficial erosion.Circ Res, 8,3(1):33-42.

[39] PAPAYANNOPOULOS V.Neutrophil extracellular traps in immunity and disease.Nat Rev Immunol, 8,8(2):134-147.

[40] DORING Y, SOEHNLEIN O, WEBER C.Neutrophil extracellular traps in atherosclerosis and atherothrombosis.Circ Res, 7,0(4):736-743.

[41] LIBBY P, PASTERKAMP G, CREA F, et al.Reassessing the mechanisms of acute coronary syndromes.Circ Res, 9,4(1):150-160.

[42] LI J, TAN Y, SHENG Z, et al.The association between plasma hyaluronan level and plaque types in ST-segment-elevation myocardial infarction patients .Front Cardiovasc Med, 1,8:628529.

[43] PEDICINO D, VINCI R, GIGLIO A F, et al.Alterations of hyaluronan metabolism in acute coronary syndrome:implications for plaque erosion .J Am Coll Cardiol, 8,2(13):1490-1503.

[44] LEE-SAYER S S, DONG Y, ARIF A A, et al.The where, when, how, and why of hyaluronan binding by immune cells .Front Immunol, 5,6:150.

[45] GRANDOCH M, BOLLYKY P L, FISCHER J W.Hyaluronan:a master switch between vascular homeostasis and inflammation.Circ Res, 8,2(10):1341-1343.

[46] KROLIKOSKI M, MONSLOW J, PURE E.The CD44-HA axis and inflammation in atherosclerosis:a temporal perspective .Matrix Biol, 9,8-79:201-218.

[47] WIGHT T N.A role for extracellular matrix in atherosclerotic plaque erosion.J Am Coll Cardiol, 8,2(13):1504-1505.

[48] PEDICINO D, VINCI R, GIGLIO A F, et al.Alterations of hyaluronan metabolism in acute coronary syndrome:implications for plaque erosion .J Am Coll Cardiol, 8,2(13):1490-1503.

[49] SOLTES L, MENDICHI R, KOGAN G, et al.Degradative action of reactive oxygen species on hyaluronan.Biomacromolecules, 6,7(3):659-668.

[50] JIA H, DAI J, HOU J, et al.Effective anti-thrombotic therapy without stenting:intravascular optical coherence tomography-based management in plaque erosion (the EROSION study) .Eur Heart J, 7,8(11):792-800.

引用本文

陈芸儿,张琦,于宝琪,曲爱娟.斑块侵蚀在急性冠状动脉综合征中的作用及机制研究进展[J].中国动脉硬化杂志,2023,31(3):190~198.

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收稿日期:2022-05-07
最后修改日期:2022-08-14
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在线发布日期: 2023-03-24

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