Role of Sestrin2 in Prevention of Age-related Cardiomyopathy
University Of Mississippi Med Ctr, Jackson MS
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Abstract
DESCRIPTION (provided by applicant): The overall goal is to elucidate the molecular and physiological mechanisms in the heart that promote cardioprotection against myocardial ischemia and ischemia/reperfusion (I/R) injury in the elderly. With aging, the ability of the myocardium to tolerate ischemic stress becomes compromised. Consequently, there is more morbidity and mortality in patients that are over 70 years of age receiving current interventions for myocardial infarction. Yet the mechanisms responsible for this age-related impairment in the adaptive response to I/R remains incompletely understood. Therefore, understanding the alteration of these mechanisms within the aging heart is fundamental for improving therapeutic strategies targeted against such cardiovascular pathologies. Our group and others have provided extensive evidence suggesting that activation of the AMP- activated protein kinase (AMPK) signaling pathway is highly advantageous to the heart. Moreover, we have recently demonstrated that during myocardial ischemia, AMPK activation is significantly impaired in the aged heart and that this is directly associated with increased myocardial infarction and cardiac dysfunction. However, how AMPK is activated during myocardial ischemia in addition to the endogenous mechanisms explaining the differences observed in impaired AMPK activation between young and aged hearts remains largely elusive. Recently, a novel group of proteins that lack kinase activity, known as the sestrins, particularly Sestrin2, have been demonstrated to increase the activation of AMPK in vitro and in vivo. Sestrin2 also limits cell death against hypoxic insults, limits oxidative stress, and increases the autophagic flux, all of which are important in age-related cardiac dysfunction. Accordingly, we hypothesize that Sestrin2 may be an integral part of the stress response that occurs during myocardial I/R and that its cooperation with the AMPK signaling pathway is altered with cardiac senescence. This hypothesis will be tested with two aims. First, we aim to define sestrin2 as a critical component of the adaptive response during I/R injury. Second, we aim to characterize how Sestrin2 is involved in the impaired AMPK signaling pathway during I/R in the aged heart. The proposed research takes an interdisciplinary approach encompassing physiologically relevant in vivo and ex vivo models of aging and I/R injury. In this manner, the proposed research will highlight new therapeutic targets and further our understanding about how specific stress-activated cardioprotective pathways are impaired with aging.
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