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  • Title: The obligate role of protein kinase C in mediating clinically accessible cardiac preconditioning.
    Author: Cleveland JC, Meldrum DR, Rowland RT, Sheridan BC, Banerjee A, Harken AH.
    Journal: Surgery; 1996 Aug; 120(2):345-52; discussion 352-3. PubMed ID: 8751603.
    Abstract:
    BACKGROUND: Cardiac preconditioning is an adaptation of cardiomyocytes that promotes tolerance to a subsequent ischemic insult. Adenosine receptor signaling is proposed as a mediator of preconditioning, but its mechanism of protection remains unknown. We hypothesized that protection against hypoxia-reoxygenation (H/R) injury could be conferred in a rat ventricle by adenosine-mediated protein kinase C (PKC) activation and that adenosine-mediated cardioprotection could be extended to human ventricular muscle. METHODS: Isolated rat and human ventricular muscle (VM) strips were subjected to 30 minutes of hypoxia and 60 minutes of reoxygenation (H/R control). The VM was pretreated with 125 mumol/L adenosine, an adenosine antagonist ((p-Sulfophenyl) theophylline [SPT] 50 mumol/L) and adenosine (adenosine + SPT), or with a PKC inhibitor (chelerythrine, 10 mumol/L) and adenosine (adenosine + chelerythrine) before H/R Developed force (DF) and tissue creatine kinase (CK) activity were assessed at end reoxygenation. Human trabeculae were obtained from diseased explanted hearts at cardiac transplantation and were also subjected to H/R injury. Human VM was pretreated with adenosine (125 mumol/L) before H/R injury. Results are expressed as mean +/- standard error of mean. RESULTS: In the rat, adenosine pretreatment conferred protection of DF against H/R injury (adenosine, 62% +/- 6%; H/R control, 27% +/- 2%, p < 0.05). Adenosine + SPT or adenosine + chelerythrine eliminated the functional recovery conferred by adenosine. This recovery of contractile function was associated with greater tissue CK activity (adenosine, 415 +/- 40 units/gm; H/R control, 78 +/- 13 units/gm, p < 0.05). The protective effects of adenosine against H/R were present in the human ventricle and with recovery of DF in adenosine (66% +/- 5%) and H/R control (24% +/- 4%), p < 0.05. CONCLUSIONS: Adenosine, a clinically accessible agonist, induces protection against H/R injury through a PKC-mediated mechanism in the rat ventricle. Further, the protection conferred by adenosine against H/R extends to the human ventricle.
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