beta-adrenergic and cholinergic modulation of the inwardly rectifying K+ current in guinea-pig ventricular myocytes.

AUTOR(ES)

Koumi, S

RESUMO

1. Whole-cell patch-clamp technique was used to study the beta-adrenergic and cholinergic regulation of the inwardly rectifying K+ conductance (gK1) in isolated guinea-pig ventricular myocytes. 2. In Cl(-)-free solutions or in the presence of 9-anthracenecarboxylic acid or Co2+, bath-applied isoprenaline (Iso) partially inhibited the steady-state whole-cell conductance (gss) calculated from the steady-state current (Iss)-voltage (Iss-V) curve at membrane voltages (Vm) negative to the equilibrium potential for potassium (EK). Iss was also inhibited at Vm positive to EK when the extracellular [K+] was 20 mM. The Iso-sensitive component of gss exhibited the characteristics of the inwardly rectifying K+ conductance (gK1). 3. The Iso-induced inhibition of gK1 was reversible, concentration dependent, blocked by propranolol, mimicked by both forskolin and dibutyryl cAMP, and prevented by including a cAMP-dependent protein kinase (PKA) inhibitor in the pipette solution. These findings suggest that PKA mediates the Iso-induced inhibition of gK1. 4. The apparent dissociation constant (KD) for the concentration dependence of Iso-induced inhibition was 0.035 microM and the Hill coefficient was approximately 1.0. A maximal Iso concentration (1 microM) inhibited gK1 by 40 +/- 4.1% (mean +/- S.E.M.; n = 13). 5. Bath application of acetylcholine (ACh, 0.1 microM or more) antagonized the Iso-induced (1 microM) inhibition of gK1; [ACh] > 1.0 microM antagonized 88 +/- 2.1% (n = 10) of the inhibition. ACh increased the KD for Iso to inhibit Iso-sensitive gK1 and also reduced the maximal Iso-induced inhibition. 6. ACh-induced antagonism could be abolished by pre-incubating myocytes with pertussis toxin (PTX), suggesting that a muscarinic receptor-coupled, PTX-sensitive G protein, Gi, is involved. 7. ACh (10 microM) also antagonized approximately 70% of the dibutyryl cyclic AMP (1 mM)-induced inhibition of gK1 (n = 3), suggesting that the ACh-induced antagonism involves more than simply inhibiting the Iso-mediated activation of adenylyl cyclase via the activated Gi. 8. Intracellularly applied okadaic acid (OkA, 1 microM) did not alter gK1 (control = 134 +/- 5.1 nS vs. OkA = 136 +/- 6.1 nS), but the Iso-induced decrease in gK1 was less (P < 0.001) with OkA present (42.1 +/- 2.4 nS, n = 5) than when absent (54.0 +/- 2.2 nS, n = 10). However, ACh (10 microM) failed to antagonize Iso-induced inhibition with OkA present, suggesting involvement of a protein phosphatase.

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