BACKGROUND: There is increasing evidence documenting the capacity of myocardial cells exposed to a variety of insults to mount a cardioprotective response. Although this cardioprotection has been most well characterized with respect to ischemic preconditioning, other chemical and metabolic stressors have been shown to share features of the ischemic preconditioning model, including the involvement of mitochondria in the triggering, signaling, and mediation of the cardioprotective response. METHODS: In this article, we review the evidence showing that mitochondria play a critical role in cardioprotection from multiple (often interrelated) standpoints: its primary function in producing the cellular bioenergetic supply, its control over events in apoptosis, its contribution to myocardial signal transducing processes, and its role in producing reactive oxidative species and in providing an appropriate antioxidant response to a variety of cellular insults. CONCLUSIONS: Although our understanding of cytoprotection has increased substantially within the last few years, the mechanisms mediating mitochondrial resistance to insults leading to cardiac protection remain to be fully delineated, and represents a significant approach in the clinical treatment of heart disease.
BACKGROUND: There is increasing evidence documenting the capacity of myocardial cells exposed to a variety of insults to mount a cardioprotective response. Although this cardioprotection has been most well characterized with respect to ischemic preconditioning, other chemical and metabolic stressors have been shown to share features of the ischemic preconditioning model, including the involvement of mitochondria in the triggering, signaling, and mediation of the cardioprotective response. METHODS: In this article, we review the evidence showing that mitochondria play a critical role in cardioprotection from multiple (often interrelated) standpoints: its primary function in producing the cellular bioenergetic supply, its control over events in apoptosis, its contribution to myocardial signal transducing processes, and its role in producing reactive oxidative species and in providing an appropriate antioxidant response to a variety of cellular insults. CONCLUSIONS: Although our understanding of cytoprotection has increased substantially within the last few years, the mechanisms mediating mitochondrial resistance to insults leading to cardiac protection remain to be fully delineated, and represents a significant approach in the clinical treatment of heart disease.
Authors: Soh-Hyun Lee; Hani A Jouihan; Robert C Cooksey; Deborah Jones; Hyung J Kim; Dennis R Winge; Donald A McClain Journal: Endocrinology Date: 2013-01-31 Impact factor: 4.736
Authors: Hani A Jouihan; Paul A Cobine; Robert C Cooksey; Emily A Hoagland; Sihem Boudina; E Dale Abel; Dennis R Winge; Donald A McClain Journal: Mol Med Date: 2008 Mar-Apr Impact factor: 6.354
Authors: Edward T Chouchani; Carmen Methner; Guido Buonincontri; Chou-Hui Hu; Angela Logan; Stephen J Sawiak; Michael P Murphy; Thomas Krieg Journal: PLoS One Date: 2014-04-04 Impact factor: 3.240