Cellular and molecular pathways to myocardial necrosis and replacement fibrosis
- نوع فایل : کتاب
- زبان : انگلیسی
- مؤلف : Malay S. Gandhi German Kamalov Atta U. Shahbaz Syamal K. Bhattacharya Robert A. Ahokas Yao Sun Ivan C. Gerling Karl T. Weber
- چاپ و سال / کشور: 2010
Description
Fibrosis is a fundamental component of the adverse structural remodeling of myocardium present in the failing heart. Replacement fibrosis appears at sites of previous cardiomyocyte necrosis to preserve the structural integrity of the myocardium, but not without adverse functional consequences. The extensive nature of this microscopic scarring suggests cardiomyocyte necrosis is widespread and the loss of these contractile elements, combined with fibrous tissue deposition in the form of a stiff in-series and in-parallel elastic elements, contributes to the progressive failure of this normally efficient muscular pump. Cellular and molecular studies into the signaltransducer- effector pathway involved in cardiomyocyte necrosis have identified the crucial pathogenic role of intracellular Ca2? overloading and subsequent induction of oxidative stress, predominantly confined within its mitochondria, to be followed by the opening of the mitochondrial permeability transition pore that leads to the destruction of these organelles and cells. It is now further recognized that Ca2? overloading of cardiac myocytes and mitochondria serves as a prooxidant and which is counterbalanced by an intrinsically coupled Zn2? entry serving as antioxidant. The prospect of raising antioxidant defenses by increasing intracellular Zn2? with adjuvant nutriceuticals can, therefore, be preferentially exploited to uncouple this intrinsically coupled Ca2?–Zn2? dyshomeostasis. Hence, novel yet simple cardioprotective strategies may be at hand that deserve to be further explored
Heart Fail Rev (2011) 16:23–34 DOI 10.1007/s10741-010-9169-3 Published online: 20 April 2010