Adenosine-mediated cardioprotection in the aging myocardium

doi:10.1016/j.cardiores.2004.11.008

Cardiovascular Research 2005 66(2):245-255; doi:10.1016/j.cardiores.2004.11.008

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Adenosine-mediated cardioprotection in the aging myocardium

Laura Willems, Kevin J. Ashton and John P. Headrick^*

Heart Foundation Research Centre, School of Health Science, Griffith University, Southport, QLD 4217, Australia

^* Corresponding author. Tel.: +61 7 5552 8292; fax: +61 7 5552 8802. Email address: J.Headrick{at}griffith.edu.au

With aging, it appears the heart's ability to withstand injurydeclines markedly. Unfortunately, the incidence of ischemicdisorders increases dramatically with age. Though the genesisof the ischemia-intolerant phenotype is incompletely understood(and likely multi-factorial), it may involve changes in intrinsiccardioprotective responses. In this respect we and others haveinterrogated the role of the adenosine receptor (AR) systemin dictating ischemic tolerance and the impact of age on AR-mediatedcardioprotection. It is intriguing to note ARs impact on manyprocesses implicated in myocardial ‘aging’: adenosinecounters Ca²⁺ influx and oxidant injury, modifies substratemetabolism to improve tolerance, is pro-angiogenic, inhibitsmyocardial fibrosis, and can limit apoptosis. Thus, dysregulationof the AR system could contribute to many features of aged hearts(including ischemic intolerance). The latter is borne out byobservations that AR-mediated protective responses decline withintrinsic tolerance and that transgenic manipulation of theAR system restores intrinsic tolerance and protective responsesin aged hearts. Mechanisms underlying failure in adenosinergicprotection remain undefined. Here we review data on the effectsof aging on cardiovascular AR transcription and expression,generation of signal (adenosine formation), and protective signalingcoupled to ARs.

KEYWORDS Adenosine; Adenosine receptors; Aging; Cardioprotection; Cellular Signalling; Ischemia

Time for primary review 19 days

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