Facilitation of T‐type calcium current in bullfrog atrial cells: voltage‐dependent relief of a G protein inhibitory tone.

1. The properties of the low‐threshold calcium current, ICa,T, were investigated in bullfrog isolated atrial cardiomyocytes using the whole‐cell, patch‐clamp technique under control conditions and during beta‐adrenergic stimulation. 2. The intracellular application of GTP gamma S or adenosine‐5'‐O‐3‐thiotriphosphate (ATP gamma S), poorly hydrolysable analogues of GTP and ATP, respectively, barely affected ICa,T amplitude in control conditions. beta‐Adrenergic stimulation effects were more marked in the presence of ATP gamma S. 3. The intracellular application of GDP beta S and ADP reduced ICa,T amplitude. In cells pretreated with pertussis toxin, ICa,T amplitude was significantly increased. In both conditions, the addition of isoprenaline was without effect. 4. Under both control and beta‐adrenergic‐stimulated conditions, a conditioning prepulse to +70 mV did not fully inactivate ICa,T; rather ICa,T facilitation often occurred after beta‐adrenergic stimulation. 5. In GTP gamma S‐ and ATP gamma S‐dialysed cells, ICa,T facilitation was generally observed after a prepulse; it was larger in the ATP gamma S dialysis. Facilitation was sustained but ended immediately upon cessation of conditioning prepulses. After beta‐adrenergic stimulation, facilitation was more marked in GTP gamma S‐ than in ATP gamma S‐dialysed cells. 6. ICa,T facilitation was prevented by the intracellular application of GDP beta S and by pertussis toxin pretreatment. 7. ICa,T facilitation developed markedly in the presence of intracellular cyclic AMP. This effect was prevented by pertussis toxin pretreatment of the cells. 8. It is thus proposed that ICa,T is under a double antagonistic control by both a Gs and a Gi protein. Furthermore, the double‐pulse‐induced facilitation of ICa,T results from a voltage‐dependent relief of the Gi protein inhibitory tone. Such an effect is increased by protein kinase A‐dependent phosphorylation, presumably of the Gi protein.