The new progress of the role of oxidative stress and autophagy in atherosclerosis

Home > Archive>Volume 25, Issue 4, 2017 >404-410

The new progress of the role of oxidative stress and autophagy in atherosclerosis
DOI:
                        
                    
CSTR:
                        [cstr]
                    
Author:
                        HAO Yang1HAO Yang
Graduate School, Tianjin University of Traditional Chinese Medicine, Tianjin 300193, China
Find this author on All Journals
Find this author on BaiDu
Search for this author on this site
GUO Xiao-Chen2GUO Xiao-Chen
Department of Cardiology, the First Affiliated Hospital, Tianjin University of Traditional Chinese Medicine, Tianjin 300193, China
Find this author on All Journals
Find this author on BaiDu
Search for this author on this site
ZHANG Jun-Ping2ZHANG Jun-Ping
Department of Cardiology, the First Affiliated Hospital, Tianjin University of Traditional Chinese Medicine, Tianjin 300193, China
Find this author on All Journals
Find this author on BaiDu
Search for this author on this site

                    
Affiliation:1.Graduate School, Tianjin University of Traditional Chinese Medicine, Tianjin 300193, China;2.Department of Cardiology, the First Affiliated Hospital, Tianjin University of Traditional Chinese Medicine, Tianjin 300193, China)
Clc Number:R363
Fund Project:

Article

Figures

Metrics

Reference [19]

Related [20]

Cited by

Materials

Comments

Abstract:

Atherosclerosis, the pathological basis of various kinds of cardiovascular diseases, is a kind of disease of multifactorial and multistep disorder involving the whole-body large- and medium-sized arteries. The pathogenesis of atherosclerosis is still not fully understood. There is growing evidence that oxidative stress and autophagy are two key factors in the formation and development of atherosclerosis in recent years at home and abroad. Oxidative stress accelerates the occurrence and development of atherosclerosis through direct oxidative damage and indirect signal mediated injury; Autophagy possesses double functions of resisting and promoting the atherosclerosis. While there is a complicated relationship of cross-linking between them. This paper, specified in the following three aspects separately, that is, the roles of oxidative stress, autophagy, and the complicated relationship of cross-linking between them in atherosclerosis, will provide a new way of thinking in understanding and treatment of the disease.

Key words:Oxidative stress; Autophagy; Atherosclerosis

Reference

[1] 叶锦霞, 梁日欣, 王岚.氧化应激与心血管疾病的关系研究进展.中国实验方剂学杂志, 8,4(10):68-70.

[2] Holmstrom KM, Finkel T.Cellular mechanisms and physiological consequences of redox-dependent signalling.Nat Rev Mol Cell Biol, 4,5(6):411-421.

[3] Maurya AK, Vinayak M.Anticarcinogenic action of quercetin by downregulation of phosphatidylinositol 3-kinase (PI3K) and protein kinase C (PKC) via induction of p53 in hepatocellular carcinoma (HepG2) cell line.Mol Biol Rep, 5,2(9):1 419-429.

[4] Lin P, Liu J, Ren M, et al.Idebenone protects against oxidized low density lipoprotein induced mitochondrial dysfunction in vascular endothelial cells via GSK3 beta/beta-catenin signalling pathways.Biochem Biophys Res Commun, 5,5(3):548-555.

[5] Yang HY, Bian YF, Zhang HP, et al.LOX1 is implicated in oxidized lowdensity lipoproteininduced oxidative stress of macrophages in atherosclerosis.Mol Med Rep, 5,2(4):5 335-341.

[6] Hu Y, Liu K, Yan M, et al.Effects and mechanisms of icariin on atherosclerosis.Int J Clin Exp Med, 5,8(3):3 585-589.

[7] 徐瑞霞, 李建军.氧化型低密度脂蛋白胆固醇与动脉粥样硬化.中国循环杂志, 2,7(3):223.

[8] Liu S, Hou W, Qin H, et al.Oxidized LDL stimulates lipid peroxidation-derived DNA and protein adducts in human vascular endothelial and smooth muscle cells.J Huazhong Univ Sci Technolog Med Sci, 5,5(2):200-205.

[9] Bernardes FP, Batista AT, Porto ML, et al.Protective effect of sildenafil on the genotoxicity and cytotoxicity in apolipoprotein E-deficient mice bone marrow cells.Lipids Health Dis, 6,5(1):1-7.

[10] Tang D, Kang R, Rd ZH, et al.High-mobility group box-1, oxidative stress, and disease.Antioxid Redox Signal, 1,4(7):1 315-335.

[11] Chen Z, Wen L, Martin M, et al.Oxidative stress activates endothelial innate immunity via sterol regulatory element binding protein 2 (SREBP2) transactivation of microRNA-92a.Circulation, 5,1(9):805-814.

[12] Byon CH, Heath JM, Chen Y.Redox signaling in cardiovascular pathophysiology:A focus on hydrogen peroxide and vascular smooth muscle cells.Redox Biol, 6,9:244-253.

[13] Paudel KR, Panth N, Kim DW.Circulating endothelial microparticles:A key hallmark of atherosclerosis progression.Scientifica (Cairo), 6,6(2):1-9.

[14] Ovrevik J, Refsnes M, Lag M, et al.Activation of proinflammatory responses in cells of the airway mucosa by particulate matter:oxidant- and non-oxidant-mediated triggering mechanisms.Biomolecules, 5,5(3):1 399-440.

[15] Konior A, Schramm A, Czesnikiewicz-Guzik M, et al.NADPH oxidases in vascular pathology.Antioxid Redox Signal, 4,0(17):2 794-814.

[16] Madamanchi NR, Runge MS.NADPH oxidases and atherosclerosis:unraveling the details.Am J Physiol Heart Circ Physiol, 0,8(1):H1-H2.

[17] Gorlach A, Bertram K, Hudecova S, et al.Calcium and ROS:A mutual interplay.Redox Biol, 5,6:260-271.

[18] Gray SP, Di Marco E, Kennedy K, et al.Reactive oxygen species can provide atheroprotection via NOX4-dependent inhibition of inflammation and vascular remodeling.Arterioscler Thromb Vasc Biol, 6,6(2):295-307.

[19] Schroder K, Zhang M,椠潂湥?慫湨摯?慦琠瑓攬渠略慴琠敡摬?慎瑯桸攴爠潩杳攠湡攠獰楲獯?楥湣?慩灶潥氠楲灥潡灣牴潩瑶敥椠湯???摥敮映楳捰楥散湩瑥?洠楧捥敮??牡瑴敩牮楧漠獶捡汳散牵?呡桲爠潎流扄?噈愠獯捸??楡潳汥??????????????????戱爠????嬲??崮?呢潲爾椊猊甊????匠楒湹杴桥?????吠潌牥楥猠畓?听??敭瑩?慨氠??渠瑥慴挠瑡?攮湁摵潴瑯桰敨污楧慹氠?慮甠瑶潡灳档慵杬祡?椠獤?牳敥煡畳楥爮敐摲?瑣漠?浭愠楔湨瑯慲楡湣?癓慯獣挬甠氰愬爷?氱椩瀺椴搰?栴漷洮攼潢獲琾愊猊椊獛??杝椠湍来??教氬氠??????????????????戠牒????孴??嵬?佁畵楴浯数瑨?????牮慤渠歯汸楩湤?噴???愠歳????敳琠?慮氠??畲瑤潩灯桶慡杳祣?牬敡杲甠汤慩瑳敥獡?捥桳漮求敩獯瑣敨物潭氠?敩景晰汨畹硳?晁牣潴浡?洠愵挬爲漨瀲栩愺朲攴″昭漲愵洱?挼敢汲氾猊?瘊楛愲′汝礠獇潡獴潩浣慡氠?愬挠楃摨?汯楮灧愠獍攬??敡汶污??敥瑲慯戠??ㄠ???????????????戠牭????孮??嵭?丠畯獦猠敡湵穴睯数楨条?卹???嘠整牨浥愠?卡???楯湶歡敳汣?呬?呲栠敳?牳潴汥敭?潃晩?慣甠瑒潥灳栬愠朵礬?椨渳?瘺愴猵挶甭水愶爷?戼楢潲氾漊朊礊??椳牝挠?剡敲獴???????????き??????扒爮????孰??嵧?圠慩湮朠?呴???敯楳?婬???畳????攠瑣?慬汬??獵瑲??灶慡牬琠楡据楤瀠慤瑥敡獴?椠湰?瑥桮敯?慥瑮桯敮爠潷獩捴汨攠牴潨獥楲獡?灥牵潴杩牣攠獰獯楴潥湮?瑩桡牬漮畃杩桲?洠慒捥牳漬瀠根愬朴攨″愩町琳漰瀴栭愳朱礷?椼湢桲椾戊椊琊楛漲渴?愠湌摩?洠慘挬爠潔灡桮慧朠教?愠灃潵灩琠潙猬椠獥?攠湡桬愮湁捵整浯数湨瑡????潳氠??敳汯汣??慴牥摤椠潷汩???????????????戠牴????孲??嵥??攠??攠祭敡牣??剰???牥漭潤瑥慲敩牶瑥??佦???椠捣桥楬敬汳猠?????整瑩?慮氠??畤琠潰灲桯慧杲祥?楳渮?瘠慂獩捯畭汥慤爠?摣楩猬攠愶猬攳??椩爺挵?刮攼獢?￣????????????????戬爠????孹??嵡??畹牡穹?呕??呃敵牥浲慶湯?????畸獩瑤慡晴獩獶潥渠????敳瑳?慡汮??祡獵潴獯潰浨敡獧?椮湁?楴物潯湸?浤攠瑒慥扤潯汸椠獓浩??慡杬攬椠渶本?愨渱搭′愩瀺漱瀵琲漭猱椶猲??楢獲琾漊挊栊敛洲??攠汓污??楢潥汩??????????????ね???扣牡????孳??嵦??敵湴杯?婨??塹甠????婶桡慳湣杵?奡??楳剭??????灵?浣敬摥椠慣瑥敬摬??敵据汣楴湩??猠畡灮灤爠数獬獡楳潴湩?楩湴桹椮扆楲瑥獥?敒湡摤潩瑣栠敂汩楯慬氠?捥敤氬氠″愬电琨漶瀩栺愶朹礳?椷渰″愮琼桢敲爾漊猊挊汛攲爷潝猠楄獥??浥???吠片慒測猠汍?割整獩????????????????????扨牥????孤?は嵶?坳慣湵杬????婹桳潴湥杭?奂???畨慩湭朠????敨瑹?愠汁??慡挬爠漹瀬栳愨朹攩?愱甠琴漸瀵栭愴朹礵?爼敢杲甾氊愊琊敛搲?扝礠?浩楡剮??????灡?洠敒搬椠慗瑡敮摧?捗漬渠瑥牴漠污?漮晓??敔挱氯楁湴?‵瀯污慵祴獯?慨?牧潹氠敡?楥渠?瑮桶敯?摶敥癤攠汩潮瀠浴敨湥琠?潮晴?慡瑴桨敥牲潯獳捣汬敥牲潯獳楩獳??浦???呴牳愠湯獦氠?割敳獯??????????は???????扂物????孭?ㄠ崶??椨氱漩洺攱渷椱?????攼?婲椾漊???′?敝挠捗潡湮楧???传硓極摮愠瑘椬瘠敊?獡瑮牧攠獌猬?慥湴搠?慬甮琶漭灇桩慮杧祥?瑯桬攠?据汤慵獣桥?戠敡瑵睴敯数湨?摧慹洠慴杯攠?慲湯摴?浣整琠慈払潖汅楃捳?湳敵敲摶獩??敬氠汦??敭愠瑡桰??楴景晳敩牳??????????????????扴爬????嬺?名崹??攵搶瘮攼摢敲瘾?刊??倳氰潝攠湍?????楬汳搠瑃?????噲?慩渠摁?漠硔楩摭慭瑥楲癭敡?獳琠牊敐猬猠??洠灡汬椮捓慰瑥楲潭湩獤?普潥爠???噵?汥楳映敬?捰祩捤氠敡?慣湵摭???噴?慯獮猠潡据楤愠瑮敥摣?灯慴瑩档漠杣敯湲敥猠楦獯?佭硡楴摩??攠摩??敡汴汨??潯湳杣敬癥???????????????扩牡????孵??嵩??椠??????楯湰?塡???婁桴慨湥杲????敥瑲?慳汩?伬砠??瀱?愳??琭爳愲渷献椼敢湲琾氊礊?楛渳搱畝挠敚獨??啋嘬???愠畍琬漠灂桡慩朠祊?瘠楥慴?慡湬?剑併卥?摣敩灴敲湩摮攠湴瑲?偡?偭剥??????????偳??浮呤佯剴?灥慬瑩桡睬愠祰??瑧桥敮物潴獯捲氠散牥潬獬楳猠??????????????????扡牧????孡??嵮??楣????奡畵????污敧癹愠瑴楨潲湯?潧晨?灥牸潴瑲敡捣瑥楬癬敵?慡畲琠潳灩桧慮条祬?慲獥?慵?灡潴瑥敤渠瑫楩慮污?睥愮祁?晧潩牯?灥牮敥癳敩湳琬椠渶本?搨攳瘩攺氳漱瀱洭攳渲琴愮氼?湲放甊爊漊瑛漳砲楝挠楄瑵礠?漬映?杵攠湆攬爠慗污?慧渠教猬琠桥整琠楡捬献??散摲??祎灁漭琱栵攵猠敤獥???????????????び??扮爠????孥??嵥??業湡杣?婯???楧略?卩??坬慡湭杭?塴??攀琀?愀氀?伀砀椀搀愀渀琀?猀琀爀攀猀猀?椀渀?洀椀琀漀挀栀漀渀搀爀椀愀氀??一??搀愀洀愀最攀??愀甀琀漀瀀栀愀最礀?愀渀搀?椀渀昀氀愀洀洀愀琀椀漀渀?椀渀?愀琀栀攀爀漀猀挀氀攀爀漀猀椀猀?匀挀椀?刀攀瀀??????????????????戀爀????嬀??崀?匀眀椀愀搀攀爀????一愀栀愀瀀攀琀礀愀渀?????愀挀挀椀渀椀????攀琀?愀氀??椀琀漀瀀栀愀最礀?愀挀琀猀?愀猀?愀?猀愀昀攀最甀愀爀搀?洀攀挀栀愀渀椀猀洀?愀最愀椀渀猀琀?栀甀洀愀渀?瘀愀猀挀甀氀愀爀?猀洀漀漀琀栀?洀甀猀挀氀攀?挀攀氀氀?愀瀀漀瀀琀漀猀椀猀?椀渀搀甀挀攀搀?戀礀?愀琀栀攀爀漀最攀渀椀挀?氀椀瀀椀搀猀?伀渀挀漀琀愀爀最攀琀???????　??????????????戀爀????嬀??崀??愀渀最?刀??吀愀渀最?????漀琀稀攀??吀??攀琀?愀氀?刀????爀攀最甀氀愀琀攀猀?愀甀琀漀瀀栀愀最礀?愀渀搀?愀瀀漀瀀琀漀猀椀猀?昀漀氀氀漀眀椀渀最?漀砀椀搀愀琀椀瘀攀?椀渀樀甀爀礀??甀琀漀瀀栀愀最礀??????????????????戀爀????嬀??崀??椀渀最?娀??圀愀渀最?堀??匀挀栀渀愀挀欀攀渀戀攀爀最????攀琀?愀氀?刀攀最甀氀愀琀椀漀渀?漀昀?愀甀琀漀瀀栀愀最礀?愀渀搀?愀瀀漀瀀琀漀猀椀猀?椀渀?爀攀猀瀀漀渀猀攀?琀漀?漀砀?????椀渀?瘀愀猀挀甀氀愀爀?猀洀漀漀琀栀?洀甀猀挀氀攀?挀攀氀氀猀??愀渀搀?琀栀攀?洀漀搀甀氀愀琀漀爀礀?攀昀昀攀挀琀猀?漀昀?琀栀攀?洀椀挀爀漀刀一??栀猀愀?氀攀琀???最??渀琀????愀爀搀椀漀氀????????????????????戀爀????嬀??崀??漀氀氀愀挀攀?嘀???氀椀漀稀稀椀?????甀猀漀氀椀渀漀?嘀??攀琀?愀氀?伀砀椀搀椀稀攀搀?????愀琀琀攀渀甀愀琀攀猀?瀀爀漀琀攀挀琀椀瘀攀?愀甀琀漀瀀栀愀最礀?愀渀搀?椀渀搀甀挀攀猀?愀瀀漀瀀琀漀琀椀挀?挀攀氀氀?搀攀愀琀栀?漀昀?攀渀搀漀琀栀攀氀椀愀氀?挀攀氀氀猀?刀漀氀攀?漀昀?漀砀椀搀愀琀椀瘀攀?猀琀爀攀猀猀?愀渀搀??伀堀???爀攀挀攀瀀琀漀爀?攀砀瀀爀攀猀猀椀漀渀??渀琀????愀爀搀椀漀氀??????????????????戀爀????嬀?　崀??椀渀最?娀???椀甀?匀??圀愀渀最?堀??攀琀?愀氀??伀堀????漀砀椀搀愀渀琀?猀琀爀攀猀猀??洀琀?一??搀愀洀愀最攀??愀甀琀漀瀀栀愀最礀??愀渀搀?椀洀洀甀渀攀?爀攀猀瀀漀渀猀攀?椀渀?愀琀栀攀爀漀猀挀氀攀爀漀猀椀猀??愀渀???倀栀礀猀椀漀氀?倀栀愀爀洀愀挀漀氀???????????????　??戀爀????嬀??崀??椀愀漀?堀??匀氀甀椀洀攀爀?????圀愀渀最?夀??攀琀?愀氀??愀挀爀漀瀀栀愀最攀?愀甀琀漀瀀栀愀最礀?瀀氀愀礀猀?愀?瀀爀漀琀攀挀琀椀瘀攀?爀漀氀攀?椀渀?愀搀瘀愀渀挀攀搀?愀琀栀攀爀漀猀挀氀攀爀漀猀椀猀??攀氀氀??攀琀愀戀??????????????????戀爀????戀爀?

Get Citation

HAO Yang, GUO Xiao-Chen, ZHANG Jun-Ping. The new progress of the role of oxidative stress and autophagy in atherosclerosis[J]. Editorial Office of Chinese Journal of Arteriosclerosis,2017,25(4):404-410.

Copy

Article Metrics

Abstract:1003
PDF: 1062
HTML: 0
Cited by: 0

History

Received:June 30,2016
Revised:September 08,2016
Adopted:
Online: May 18,2017
Published:

Policies & Instructions

Get Citation

Share

Article Metrics

History

Article QR Code