Adenosine Receptor Specificity in Preconditioning of Isolated Rabbit Cardiomyocytes: Evidence of a₃ Receptor Involvement

Armstrong, Stephen, Ganote, Charles E.

01 January 1994

Objective: The aim was to further characterise an experimental model of preconditioning of isolated rabbit cardiomyocytes and to determine the role of adenosine receptor subtypes in initiation of the protective response. Methods: Isolated myocytes were subjected to 5 min preincubation in the presence or absence of glucose and various agonists and antagonists of adenosine receptors. Ischaemic pelleting was preceded by a 30 min postincubation period. Rate and extent of injury during ischaemia was determined by sequential sampling of the pelleted cells and assessment of trypan blue permeability following 85 mOsm swelling. Results: Myocytes were preconditioned with a 30-50% reduction of injury by a 5 min glucose-free preincubation. Substitution of 5 mM pyruvate for glucose during preincubation did not prevent the protective response. Protection was maintained over a 60-180 min postincubation period. Protection was blocked by 100 μM of the non-specific adenosine A1A2, antagonist SPT, both when added only during preincubation or only into the ischaemic pellet. Calphostin C, a specific protein kinase C inhibitor at 200 nM, added to the ischaemic pellet blocked protection. Preincubation with R-PIA, the adenosine A1 agonist, did not precondition at an A1 selective dose of 1 μM, but did at 100 μM. The selective A2 agonist CGS 12680 (1 μM) did not precondition. The selective A1/A3 adenosine agonist, APNEA, preconditioned at 1 μM and 200 nM dose levels. Preconditioning induced either by 200 nM APNEA or by glucose-free preincubation was not blocked by 200 nM or 10 μM of the A1 antagonist DPCPX, which has extremely low affinity for A3 receptors, but was blocked by 1 μM of the A1/A3 adenosine antagonist BW 1433U83. Conclusions: Preconditioning can be induced in isolated myocytes by a 5 min preincubation/30 min postincubation protocol, and a similar protection induced by adenosine agonists with A3, but not A1 selectivity. Preconditioning is blocked by non-selective or selective A1/A3 adenosine antagonists and a specific protein kinase C inhibitor, but not by A1 antagonists with little affinity for A3 receptors. The results suggest that preconditioning in isolated rabbit myocytes requires participation of adenosine receptors with agonist/antagonist binding characteristics of the A3 subtype, and is likely to be mediated by activation of protein kinase C.Cardiovascular Research 1994;28:1049-1056.

adenosine agonists

adenosine receptors

heart

ischaemic injury

ischaemic preconditioning

isolated myocyte

Adenosine and a₁ Selective Agonists Offer Minimal Protection Against Ischaemic Injury to Isolated Rat Cardiomyocytes

Ganote, Charles E., Armstrong, Stephen, Downey, James M.

01 January 1993

Objective: The aim was to determine if isolated rat cardiomycytes could be protected from ischaemic cell death by preincubation with adenosine or adenosine agonists. Methods: Cardiomyocytes isolated from rat hearts were preincubated in the presence of adenosine, CCPA (2-chloro-N6-cyclopentyladenosine), or carbachol prior to concentration into an ischaemic slurry. Effects of glycolysis and of isoprenaline were determined by addition of iodoacetic acid or isoprenaline to the ischaemic incubates and by exclusion of glucose from all media. Rates of ischaemic contracture were determined and survival of the myocytes versus paired control preparations was determined after various times of ischaemia, following resuspension of the cells in isotonic or hypotonic media. Results: Adenosine and CCPA produced only a small reduction of the rates of contracture and death of isolated myocytes. Carbachol gave no significant protection. Neither the degree of injury of control cells nor the amount of protection by CCPA was altered in the presence of added isoprenaline. Protection was abolished by the A1 receptor blocker sulphophenyl theophylline, iodoacetic acid, and exclusion of glucose. Conclusions: Adenosine and adenosine agonists afford a minimal degree of protection to ischaemic isolated myocytes by a glucose dependent mechanism. This protection does not appear to account for the larger degree of protection seen in intact hearts, following similar preconditioning protocols. The failure of adenosine to protect may be related to the quiescent state of isolated cardiomyocytes, or be species specific in that adenosine may not be the trigger for preconditioning in rats.Cardiovascular Research 1993;27:1670-1676.

adenosine agonists

adenosine antagonists

adenosine receptors

glycolysis

heart

ischaemic injury

ischaemic preconditioning

reperfusion

Preconditioning of Isolated Rabbit Cardiomyocytes: Induction by Metabolic Stress and Blockade by the Adenosine Antagonist SPT and Calphostin C, a Protein Kinase C Inhibitor

Armstrong, Stephen, Downey, James M., Ganote, Charles E.

01 January 1994

Objective: The aim was to determine if isolated rabbit cardiomyocytes could be preconditioned. Methods: Cardiomyocytes isolated from rabbit hearts were subjected to 15 min oxygenated preincubation, with and without substrate, prior to concentration into an ischaemic slurry, with or without glucose present. The effects of an adenosine agonist (CCPA), an adenosine receptor blocker (SPT), and the protein kinase C blocker, calphostin C, on rates of ischaemic contracture and survival of the myocytes were determined after various times of ischaemia, following resuspension of the cells in hypotonic media. Results: A glucose-free preincubation period protected myocytes from subsequent ischaemic injury, with a 40% reduction of cell death at 90-120 min and 1-2 h delay in cell death. CCPA added during preincubation and during the ischaemic period also tended to protect from injury, but the differences were not significant and protection was less than with a glucose-free preincubation. Although preincubation with CCPA did not precondition, SPT added to the preincubation medium only, or to both the preincubation medium and the ischaemic pellet, inhibited the preconditioning effect of a glucose-free preincubation period. Calphostin C, added only into the ischaemic pellet, inhibited the preconditioning effect of glucose-free preincubation. Conclusions: Glucose-free preincubation protects ischaemic isolated myocytes from subsequent ischaemia. The degree of protection is great enough to account for protection seen in intact hearts, following preconditioning protocols. Protection is blocked by SPT and a highly specific protein kinase C inhibitor, calphostin C. Protection from ischaemic injury that seems to mimic ischaemic preconditioning can be induced in isolated cardiomyocytes, and appears dependent on adenosine receptors and activation of protein kinase C.Cardiovascular Research 1994;28:72-77.

adenosine agonists

adenosine antagonists

adenosine receptors

calphostin C

heart

ischaemic injury

ischaemic preconditioning

protein kinase C

reperfusion