Nitai Gelber scite author profile

Remote ischemic preconditioning (rIPC) induced by cycles of transient limb ischemia and reperfusion is a powerful cardioprotective strategy with additional pleiotropic effects. However, our understanding of its underlying mediators and mechanisms remains incomplete. We examined the role of miR-144 in the cardioprotection induced by rIPC. Microarray studies first established that rIPC increases, and IR injury decreases miR-144 levels in mouse myocardium, the latter being rescued by both rIPC and intravenous administration of miR-144. Going along with this systemic treatment with miR-144 increased P-Akt, P-GSK3β and P-p44/42 MAPK, decreased p-mTOR level and induced autophagy signaling, and induced early and delayed cardioprotection with improved functional recovery and reduction in infarct size similar to that achieved by rIPC. Conversely, systemic administration of a specific antisense oligonucleotide reduced myocardial levels of miR-144 and abrogated cardioprotection by rIPC. We then showed that rIPC increases plasma miR-144 levels in mice and humans, but there was no change in plasma microparticle (50-400 nM) numbers or their miR-144 content. However, there was an almost fourfold increase in miR-144 precursor in the exosome pellet, and a significant increase in miR-144 levels in exosome-poor serum which, in turn, was associated with increased levels of the miR carriage protein Argonaute-2. Systemic release of microRNA 144 plays a pivotal role in the cardioprotection induced by rIPC. Future studies should assess the potential for plasma miR-144 as a biomarker of the effectiveness of rIPC induced by limb ischemia, and whether miR-144 itself may represent a novel therapy to reduce clinical ischemia-reperfusion injury.

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Acute, Delayed and Chronic Remote Ischemic Conditioning Is Associated with Downregulation of mTOR and Enhanced Autophagy Signaling

Rohailla

Clarizia

Sourour

et al. 2014

PLoS ONE

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BackgroundRemote ischemic conditioning (RIC), induced by brief periods of limb ischemia has been shown to decrease acute myocardial injury and chronic responses after acute coronary syndromes. While several signaling pathways have been implicated, our understanding of the cardioprotection and its underlying mediators and mechanisms remains incomplete. In this study we examine the effect of RIC on pro-autophagy signaling as a possible mechanism of benefit.Methods and ResultsWe examined the role of autophagy in the acute/first window (15 minutes after RIC), delayed/second window (24 hours after RIC) and chronic (24 hours after 9 days of repeated RIC) phases of cardioprotection. C57BL/6 mice (N = 69) were allocated to each treatment phase and further stratified to receive RIC, induced by four cycles of 5 minutes of limb ischemia followed by 5 minutes of reperfusion, or control treatment consisting solely of handling without transient ischemia. The groups included, group 1 (1W control), group 2 (1W RIC), group 3 (2W control), group 4 (2W RIC), group 5 (3W control) and group 6 (3W RIC). Hearts were isolated for assessment of cardiac function and infarct size after global ischemia using a Langendorff preparation. Infarct size was reduced in all three phases of cardioprotection, in association with improvements in post-ischemic left ventricular end diastolic pressure (LVEDP) and developed pressure (LVDP) (P<0.05). The pattern of autophagy signaling varied; 1W RIC increased AMPK levels and decreased the activation of mammalian target of rapamycin (mTOR), whereas chronic RIC was associated with persistent mTOR suppression and increased levels of autophagosome proteins, LC3II/I and Atg5.ConclusionsCardioprotection following transient ischemia exists in both the acute and delayed/chronic phases of conditioning. RIC induces pro-autophagy signaling but the pattern of responses varies depending on the phase, with the most complete portfolio of responses observed when RIC is administered chronically.

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Virtual education revolution during the COVID-19 pandemic: The introduction of national educational rounds in sport and exercise medicine

et al. 2020

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Nitai Gelber

MicroRNA-144 is a circulating effector of remote ischemic preconditioning

Acute, Delayed and Chronic Remote Ischemic Conditioning Is Associated with Downregulation of mTOR and Enhanced Autophagy Signaling

Virtual education revolution during the COVID-19 pandemic: The introduction of national educational rounds in sport and exercise medicine

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