Critical Role for Nitric Oxide Signaling in Cardiac and Neuronal Ischemic Preconditioning and Tolerance

摘要

Preconditioning to ischemic tolerance is a phenomenon in which brief episodes of a subtoxic insult induce a robust pro- tection against the deleterious effects of subsequent, pro- longed, lethal ischemia. The subtoxic stimuli that constitute the preconditioning event are quite diverse, ranging from brief isch- emic episodes, spreading depression or potassium depolariza- tion, chemical inhibition of oxidative phosphorylation, exposure to excitotoxins and cytokines. The beneficial effects of precon- ditioning were first demonstrated in the heart; it is now clear that preconditioning can induce ischemic tolerance in a variety of organ systems including brain, heart, liver, small intestine, skeletal muscle, kidney, and lung. There are two temporally and mechanistically distinct types of protection afforded by precon- ditioning stimuli, acute and delayed preconditioning. The signaling cascades that initiate the acute and delayed precondi- tioning responses may have similar biochemical components. However, the protective effects of acute preconditioning are pro- tein synthesis-independent, mediated by post-translational pro- tein modifications, and are short-lived. The effects of delayed preconditioning require new protein synthesis and are sustained for days to weeks. Elucidation of the molecular mechanisms that are involved in preconditioning and ischemic tolerance and iden- tification of drugs that mimic this protective response have the potential to improve the prognosis of patients at risk for ischemic injury. This article focuses on recent findings on the effects of ischemic preconditioning in the cardiac and nervous systems and discusses potential targets for a successful therapeutic approach to limit ischemia-reperfusion injury.