Literature DB >> 27130675

Heat shock protein 70 inhibits cardiomyocyte necroptosis through repressing autophagy in myocardial ischemia/reperfusion injury.

Xiaojuan Liu1,2, Chao Zhang2,3, Chi Zhang2,3, Jingjing Li2,3, Wanwan Guo2,3, Daliang Yan2,4, Chen Yang2,4, Jianhua Zhao2,4, Tian Xia1, Yuqing Wang1, Rong Xu1, Xiang Wu5,6, Jiahai Shi7,8.   

Abstract

Irreversible damage of cardiac function arisen from myocardial ischemia/reperfusion injury (MIRI) leads to an emerging challenge in the treatments of cardiac ischemic diseases. Molecular chaperone heat shock protein 70 (HSP70) attenuates heat-stimulated cell autophagy, apoptosis, and damage in the heart. Under specific conditions, autophagy may, directly or indirectly, induce cell death including necroptosis. Whether HSP70 inhibits cardiomyocyte necroptosis via suppressing autophagy during MIRI is unknown. In our study, HSP70 expression was opposite to necroptosis marker RIP1 and autophagy marker LC3A/B expression after myocardial ischemia/reperfusion (MIR) in vivo. Furthermore, in vitro primary rat cardiomyocytes mimicked MIRI by hypoxia/reoxygenation (H/R) treatment. Knockdown of HSP70 expression promoted cardiomyocyte autophagy and necroptosis following H/R treatment, while the increase tendency was downregulated by autophagy inhibitor 3-MA, showing that autophagy-induced necroptosis could be suppressed by HSP70. In summary, HSP70 downregulates cardiomyocyte necroptosis through suppressing autophagy during myocardial IR, revealing the novel protective mechanism of HSP70 and supplying a novel molecular target for the treatment of heart ischemic diseases.

Entities:  

Keywords:  Autophagy; HSP70; Myocardial ischemia/reperfusion injury; Necroptosis

Mesh:

Substances:

Year:  2016        PMID: 27130675     DOI: 10.1007/s11626-016-0039-8

Source DB:  PubMed          Journal:  In Vitro Cell Dev Biol Anim        ISSN: 1071-2690            Impact factor:   2.416


  36 in total

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Journal:  J Cell Mol Med       Date:  2008-09-13       Impact factor: 5.310

2.  Berberine alleviates cardiac ischemia/reperfusion injury by inhibiting excessive autophagy in cardiomyocytes.

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Journal:  Eur J Pharmacol       Date:  2015-05-21       Impact factor: 4.432

Review 3.  Cardioprotection and myocardial reperfusion: pitfalls to clinical application.

Authors:  Richard S Vander Heide; Charles Steenbergen
Journal:  Circ Res       Date:  2013-08-02       Impact factor: 17.367

4.  RIPK1 maintains epithelial homeostasis by inhibiting apoptosis and necroptosis.

Authors:  Marius Dannappel; Katerina Vlantis; Snehlata Kumari; Apostolos Polykratis; Chun Kim; Laurens Wachsmuth; Christina Eftychi; Juan Lin; Teresa Corona; Nicole Hermance; Matija Zelic; Petra Kirsch; Marijana Basic; Andre Bleich; Michelle Kelliher; Manolis Pasparakis
Journal:  Nature       Date:  2014-08-17       Impact factor: 49.962

5.  c-Cbl inhibition improves cardiac function and survival in response to myocardial ischemia.

Authors:  Khadija Rafiq; Mikhail A Kolpakov; Rachid Seqqat; Jianfen Guo; Xinji Guo; Zhao Qi; Daohai Yu; Bhopal Mohapatra; Neha Zutshi; Wei An; Hamid Band; Archana Sanjay; Steven R Houser; Abdelkarim Sabri
Journal:  Circulation       Date:  2014-02-28       Impact factor: 29.690

6.  Hydrogen Sulfide Attenuates Myocardial Hypoxia-Reoxygenation Injury by Inhibiting Autophagy via mTOR Activation.

Authors:  Jian Xiao; Xiaoyan Zhu; Bo Kang; Jibin Xu; Lihui Wu; Jiang Hong; Yufeng Zhang; Xin Ni; Zhinong Wang
Journal:  Cell Physiol Biochem       Date:  2015-12-11

7.  Upregulation of Atg5 and AIF gene expression in synchronization with programmed cellular death events in integumental epithelium of Bombyx mori induced by a dipteran parasitoid infection.

Authors:  J Anitha; A R Pradeep; V Sivaprasad
Journal:  Bull Entomol Res       Date:  2014-09-23       Impact factor: 1.750

Review 8.  Mechanisms underlying acute protection from cardiac ischemia-reperfusion injury.

Authors:  Elizabeth Murphy; Charles Steenbergen
Journal:  Physiol Rev       Date:  2008-04       Impact factor: 37.312

9.  Resistance to hypoxia-induced necroptosis is conferred by glycolytic pyruvate scavenging of mitochondrial superoxide in colorectal cancer cells.

Authors:  C-Y Huang; W-T Kuo; Y-C Huang; T-C Lee; L C H Yu
Journal:  Cell Death Dis       Date:  2013-05-02       Impact factor: 8.469

10.  Bauhinia championii flavone inhibits apoptosis and autophagy via the PI3K/Akt pathway in myocardial ischemia/reperfusion injury in rats.

Authors:  Jie Jian; Feifei Xuan; Feizhang Qin; Renbin Huang
Journal:  Drug Des Devel Ther       Date:  2015-11-06       Impact factor: 4.162
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  14 in total

1.  Temporal Pattern and Crosstalk of Necroptosis Markers with Autophagy and Apoptosis Associated Proteins in Ischemic Hippocampus.

Authors:  Fari Ryan; Fariba Khodagholi; Leila Dargahi; Dariush Minai-Tehrani; Abolhassan Ahmadiani
Journal:  Neurotox Res       Date:  2018-01-08       Impact factor: 3.911

Review 2.  Implications of Necroptosis for Cardiovascular Diseases.

Authors:  Zhao-Hui Ruan; Zi-Xuan Xu; Xue-Yun Zhou; Xian Zhang; Lei Shang
Journal:  Curr Med Sci       Date:  2019-07-25

3.  Ethanol exposure in prenatal and early postnatal induced cardiac injury in rats: involvement of oxidative stress, Hsp70, ERK 1/2, JNK, and apoptosis in a 3-month follow-up study.

Authors:  Alireza Shirpoor; Reza Gaderi; Roya Naderi
Journal:  Cell Stress Chaperones       Date:  2019-08-13       Impact factor: 3.667

4.  Thioredoxin-2 protects against oxygen-glucose deprivation/reperfusion injury by inhibiting autophagy and apoptosis in H9c2 cardiomyocytes.

Authors:  Yan-Yan Li; Yin Xiang; Song Zhang; Yan Wang; Jie Yang; Wei Liu; Feng-Tai Xue
Journal:  Am J Transl Res       Date:  2017-03-15       Impact factor: 4.060

Review 5.  The regulation of necroptosis and perspectives for the development of new drugs preventing ischemic/reperfusion of cardiac injury.

Authors:  Leonid N Maslov; Sergey V Popov; Natalia V Naryzhnaya; Alexandr V Mukhomedzyanov; Boris K Kurbatov; Ivan A Derkachev; Alla A Boshchenko; Igor Khaliulin; N Rajendra Prasad; Nirmal Singh; Alexei Degterev; Evgenia A Tomilova; Ekaterina V Sapozhenkova
Journal:  Apoptosis       Date:  2022-08-20       Impact factor: 5.561

6.  The role of the LncRNA-FA2H-2-MLKL pathway in atherosclerosis by regulation of autophagy flux and inflammation through mTOR-dependent signaling.

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Journal:  Cell Death Differ       Date:  2019-01-25       Impact factor: 15.828

7.  Sirtuin 1 and Autophagy Attenuate Cisplatin-Induced Hair Cell Death in the Mouse Cochlea and Zebrafish Lateral Line.

Authors:  Jiaqi Pang; Hao Xiong; Ting Zhan; Gui Cheng; Haiying Jia; Yongyi Ye; Zhongwu Su; Hongyu Chen; Hanqing Lin; Lan Lai; Yongkang Ou; Yaodong Xu; Suijun Chen; Qiuhong Huang; Maojin Liang; Yuexin Cai; Xueyuan Zhang; Xiaoding Xu; Yiqing Zheng; Haidi Yang
Journal:  Front Cell Neurosci       Date:  2019-01-14       Impact factor: 5.505

Review 8.  The Role of Necroptosis in Cardiovascular Disease.

Authors:  Shi Zhe-Wei; Ge Li-Sha; Li Yue-Chun
Journal:  Front Pharmacol       Date:  2018-07-06       Impact factor: 5.810

Review 9.  The Role of O-GlcNAcylation for Protection against Ischemia-Reperfusion Injury.

Authors:  Rebekka Vibjerg Jensen; Ioanna Andreadou; Derek J Hausenloy; Hans Erik Bøtker
Journal:  Int J Mol Sci       Date:  2019-01-18       Impact factor: 5.923

Review 10.  Programmed necrosis in cardiomyocytes: mitochondria, death receptors and beyond.

Authors:  Junxia Zhang; Dairu Liu; Mao Zhang; Yan Zhang
Journal:  Br J Pharmacol       Date:  2018-06-25       Impact factor: 8.739
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