Abstract
Heart failure is the leading cause of death in diabetic patients. Recently we showed that apelin gene therapy attenuates heart failure following myocardial infarction. This study further explored the potential mechanisms by which apelin may reduce cardiac injury in Postmyocardial infarction (MI)) model of diabetes. Wild type and Sirt3 knockout (Sirt3 KO) mice were induced into diabetes by intra-peritoneal (i.p.) Streptozotocin (STZ). STZ mice were then subjected to MI followed by immediate intramyocardial injection with Adenovirus-apelin (Ad-apelin). Ad-apelin treatment resulted in over expression of apelin in the ischemic hearts of STZ mice. Apelin over expression led to a significant increase in Sirt3 expression. Apelin over expression significantly reduced gp91phox expression. This was accompanied by a significant reduction of reactive oxygen species formation. Ad-apelin treatment also dramatically reduced NF-κb-p65 expression in WT-STZ mice. Over expression of apelin further enhanced autophagy markers (LC3-II and beclin-1) expression in post-MI heart. Most intriguingly, knockout of Sirt3 in STZ mice abolished these beneficial effects of apelin treatment. In vitro, knockout of Sirt3 in EPCs significantly enhanced high glucose-induced ROS formation. Conversely, treatment of Sirt3 KO-EPCs with NADPH oxidase inhibitor led to two fold increase in LC3-II levels. Our studies demonstrate that apelin increases autophagy via up regulation of Sirt3 and suppression of ROS-NF-κb pathway in diabetic heart.
Highlights
CopyrightLong known to augment the risk for cardiovascular disease, Diabetes Mellitus (DM) increases mortality of patients with Heart Failure (HF) over that observed in HF patients without DM.[1]
Wild type and Sirt[3] knockout (Sirt[3] KO) mice were treated with streptozotocin (STZ) to induced hyperglycemic DM model followed by myocardial infarction by ligation of Left Anterior Descendant (LAD) artery. Using this ischemic STZ mouse model, we have examined the effects of apelin gene therapy on the autophagy and ROS formation in ischemic hearts of diabetes
Ad-apelin treatment significantly reduced ROS formation in the hearts of WT-STZ mice when compared with Ad-β-gal treatment
Summary
CopyrightLong known to augment the risk for cardiovascular disease, Diabetes Mellitus (DM) increases mortality of patients with Heart Failure (HF) over that observed in HF patients without DM.[1]. We have reported that over expression of apelin promoted myocardial angiogenesis and improved cardiac function in post-MI diabetic STZ mice and these beneficial effects of apelin were mediated through activation of Sirt3.9 Sirt[3] is a member of a highly conserved family
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