Journal ArticleDOI
Cell Death in the Pathogenesis of Heart Disease: Mechanisms and Significance
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TLDR
Pharmacological and genetic inhibition of apoptosis and necrosis lessens infarct size and improves cardiac function in these disorders and a better understanding of these processes and their interrelationships may allow for the development of novel therapies for the major heart syndromes.Abstract:
Cell death was once viewed as unregulated. It is now clear that at least a portion of cell death is a regulated cell suicide process. This type of death can exhibit multiple morphologies. One of these, apoptosis, has long been recognized to be actively mediated, and many of its underlying mechanisms have been elucidated. Moreover, necrosis, the traditional example of unregulated cell death, is also regulated in some instances. Autophagy is usually a survival mechanism but can occur in association with cell death. Little is known, however, about how autophagic cells die. Apoptosis, necrosis, and autophagy occur in cardiac myocytes during myocardial infarction, ischemia/reperfusion, and heart failure. Pharmacological and genetic inhibition of apoptosis and necrosis lessens infarct size and improves cardiac function in these disorders. The roles of autophagy in ischemia/reperfusion and heart failure are unresolved. A better understanding of these processes and their interrelationships may allow for the development of novel therapies for the major heart syndromes.read more
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Book ChapterDOI
Cell Biology of Ischemia/Reperfusion Injury
TL;DR: It is apparent that a combination of molecular and cellular approaches targeting multiple pathologic processes to limit the extent of I/R injury must be adopted to enhance resistance to cell death and increase regenerative capacity in order to effect long-lasting repair of ischemic tissues.
Journal ArticleDOI
Ferroptosis as a target for protection against cardiomyopathy.
Xuexian Fang,Hao Wang,Hao Wang,Dan Han,Enjun Xie,Xiang Yang,Jiayu Wei,Shanshan Gu,Feng Gao,Nali Zhu,Xiangju Yin,Qi Cheng,Pan Zhang,Wei Dai,Jinghai Chen,Fuquan Yang,Huang-Tian Yang,Andreas Linkermann,Wei Gu,Junxia Min,Fudi Wang,Fudi Wang +21 more
TL;DR: It is discovered and demonstrated that ferroptosis, a programmed iron-dependent cell death, as a mechanism in murine models of doxorubicin (DOX)- and ischemia/reperfusion (I/R)-induced cardiomyopathy and Mitochondria-targeted antioxidant MitoTEMPO significantly rescued DOX cardiopathy, supporting oxidative damage of mitochondria as a major mechanism in ferroPTosis-induced heart damage.
Journal Article
IS103 Loss of a gp130 Cardiac Muscle Cell Survival Pathway Is a Critical Event in the Onset of Heart Failure During Biomechanical Stress
Hisao Hirota,Kenneth R. Chien +1 more
TL;DR: Cardiac myocyte apoptosis is a critical point in the transition between compensatory cardiac hypertrophy and heart failure and gp130-dependent cytokines may represent a novel therapeutic strategy for preventing in vivo heart failure.
Journal ArticleDOI
Anti-apoptosis and cell survival: A review
TL;DR: This work discusses the different strategies that are used to prevent cell death and illustrates that although anti-apoptosis and cellular survival serve to counteract PCD, they are nevertheless mechanistically distinct from the processes that regulate cell death.
Journal ArticleDOI
CaMKII is a RIP3 substrate mediating ischemia- and oxidative stress-induced myocardial necroptosis
Ting Zhang,Yan Zhang,Mingyao Cui,Li Jin,Yimei Wang,Fengxiang Lv,Yuli Liu,Wen Zheng,Haibao Shang,Jun Zhang,Mao Zhang,Hong-Kun Wu,Jiaojiao Guo,Xiuqin Zhang,Xinli Hu,Chun-Mei Cao,Rui-Ping Xiao +16 more
TL;DR: It is shown that receptor-interacting protein 3 (RIP3) triggers myocardial necroptosis, in addition to apoptosis and inflammation, through activation of Ca2+-calmodulin–dependent protein kinase (CaMKII) rather than through the well-established RIP3 partners RIP1 and MLKL.
References
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Journal ArticleDOI
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Journal ArticleDOI
Apoptosis in the Failing Human Heart
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