Negative chronotropic actions of endothelin-1 on rabbit sinoatrial node pacemaker cells

Abstract

1. The effects of endothelin-1 (ET-1) on sinoatrial (SA) node preparations of the rabbit heart were studied by means of whole-cell clamp techniques.

2. ET-1 at 1 nM slowed the spontaneous beating activity and rendered half of the cells quiescent. At a higher concentration of 10 nM, the slowing and cessation of spontaneous activity were accompanied by hyperpolarization.

3. In voltage-clamp experiments, ET-1 decreased the basal L-type Ca²⁺ current (I_Ca(L)) dose-dependently with a half-maximal inhibitory concentration (EC₅₀) of 0.42 nM and maximal inhibitory response (E_max) of 49.5%. The delayed rectifying K⁺ current (I_K) was also reduced by 33.2±11.1% at 1 nM. In addition, an inwardly rectifying K⁺ current was activated by ET-1 at higher concentrations (EC₅₀=4.8 nM). These ET-1-induced changes in membrane currents were abolished by BQ485 (0.3 μM), a highly selective ET_A receptor antagonist.

4. When I_Ca(L) was inhibited by ET-1 (1 nM), subsequent application of 10 μM ACh showed no additional decrease in I_Ca(L), suggesting the involvement of cyclic AMP in the effects of ET-1 on I_Ca(L). In contrast, 1 nM ET-1 further decreased I_Ca(L) in the presence of 10 μM ACh, suggesting that ET-1 activates some additional mechanism(s) which inhibit I_Ca(L). The ET-1-induced I_Ca(L) inhibition was abolished by protein kinase A inhibitory peptide (PKI, 20 μM) or H-89 (5 μM). However, the I_Ca(L) inhibition was not affected by methylene blue (10 μM), suggesting a minor role for cyclic GMP in the effect of ET-1 under basal conditions.

5. ET-1 failed to inhibit I_Ca(L) when the pipette contained GDPβS (200 μM). However, incubation of the cells with pertussis toxin (PTX, 5 μg ml⁻¹, >6 h) only reduced the ET-1-induced inhibition to 21.5±9.5%, whereas it abolished the inhibitory effect of ACh on I_Ca(L).

6. Intracellular perfusion of 8-bromo cyclicAMP (8-Br cyclicAMP, 500 μM) attenuated, but did not abolish the inhibitory effect of ET-1 on I_Ca(L). This 8-Br cyclicAMP-resistant component (17.5±14.4%, n=20) was not affected by combined application of 8-Br cyclicAMP with 8-bromo cyclicGMP (500 μM), ryanodine (1 μM) or phorbol-12-myristate-13-acetate (TPA; 50 nM).

7. In summary, ET-1 exerts negative chronotropic effects on the SA node via ET_A-receptors. ET-1 inhibits both I_Ca(L) and I_K, and increases background K⁺ current. The inhibition of I_Ca(L) by ET-1 is mainly due to reduction of the cyclicAMP levels via PTX-sensitive G protein, but some other mechanism(s) also seems to be operative.

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