Antagonism between (–)‐N6‐phenylisopropyl‐adenosine and the calcium channel facilitator Bay K 8644, on guinea‐pig isolated atria

Abstract

Antagonism between (–)‐N⁶‐phenylisopropyladenosine (PIA) and the dihydropyridine calcium channel facilitator Bay K 8644 was investigated in guinea‐pig spontaneously beating or electrically driven isolated atria, taken from normal and from reserpine‐treated animals. PIA (3–100 nm) produced a dose‐dependent decrease in contractile tension and frequency in spontaneously beating atria being more effective in reserpinized preparations. Bay K 8644 (5–200 nm) produced an increase in contractile tension in both normal and reserpinized atria. In electrically driven left atria the positive inotropic effect of Bay K 8644 was similar to that in spontaneously beating preparations. The positive chronotropic effect of Bay K 8644 was slight and variable. PIA produced a rightward parallel shift of the concentration‐response curves for the positive inotropic effects of Bay K 8644 in all experimental conditions. In spontaneously beating atria from normal guinea‐pigs, the Schild regression plot was linear and its slope near to unity; pA₂ of PIA 8.63 ± 0.05 (IC₅₀ 2.35 ± 0.25 nm). In electrically driven atria the antagonism by PIA of the effects of Bay K 8644 was apparently competitive, and the IC₅₀ of PIA was 18.6 ± 0.4 nM. PIA antagonized the positive chronotropic effect of Bay K 8644 in spontaneously beating preparations, both from normal and from reserpine‐treated animals. Carbachol did not modify the positive inotropic effects of Bay K 8644. These data indicate that PIA may interact with Bay K 8644 at the level of the slow calcium channels, and may decrease the transmembrane calcium flux into the cell.