AUTHOR=Bragança Bruno , Oliveira-Monteiro Nádia , Ferreirinha Fátima , Lima Pedro A. , Faria Miguel , Fontes-Sousa Ana P. , Correia-de-Sá Paulo 

TITLE=Ion Fluxes through KCa2 (SK) and Cav1 (L-type) Channels Contribute to Chronoselectivity of Adenosine A1 Receptor-Mediated Actions in Spontaneously Beating Rat Atria

JOURNAL=Frontiers in Pharmacology

VOLUME=7

YEAR=2016

URL=https://www.frontiersin.org/journals/pharmacology/articles/10.3389/fphar.2016.00045

DOI=10.3389/fphar.2016.00045

ISSN=1663-9812

ABSTRACT=<p>Impulse generation in supraventricular tissue is inhibited by adenosine and acetylcholine via the activation of A<sub>1</sub> and M<sub>2</sub> receptors coupled to inwardly rectifying GIRK/K<sub>IR</sub>3.1/3.4 channels, respectively. Unlike M<sub>2</sub> receptors, bradycardia produced by A<sub>1</sub> receptors activation predominates over negative inotropy. Such difference suggests that other ion currents may contribute to adenosine chronoselectivity. In isolated spontaneously beating rat atria, blockade of K<sub>Ca</sub>2/SK channels with apamin and Ca<sub>v</sub>1 (L-type) channels with nifedipine or verapamil, sensitized atria to the negative inotropic action of the A<sub>1</sub> agonist, R-PIA, without affecting the nucleoside negative chronotropy. Patch-clamp experiments in the whole-cell configuration mode demonstrate that adenosine, via A<sub>1</sub> receptors, activates the inwardly-rectifying GIRK/K<sub>IR</sub>3.1/K<sub>IR</sub>3.4 current resulting in hyperpolarization of atrial cardiomyocytes, which may slow down heart rate. Conversely, the nucleoside inactivates a small conductance Ca<sup>2+</sup>-activated K<sub>Ca</sub>2/SK outward current, which eventually reduces the repolarizing force and thereby prolong action potentials duration and Ca<sup>2+</sup> influx into cardiomyocytes. Immunolocalization studies showed that differences in A<sub>1</sub> receptors distribution between the sinoatrial node and surrounding cardiomyocytes do not afford a rationale for adenosine chronoselectivity. Immunolabelling of K<sub>IR</sub>3.1, K<sub>Ca</sub>2.2, K<sub>Ca</sub>2.3, and Ca<sub>v</sub>1 was also observed throughout the right atrium. Functional data indicate that while both A<sub>1</sub> and M<sub>2</sub> receptors favor the opening of GIRK/K<sub>IR</sub>3.1/3.4 channels modulating atrial chronotropy, A<sub>1</sub> receptors may additionally restrain K<sub>Ca</sub>2/SK activation thereby compensating atrial inotropic depression by increasing the time available for Ca<sup>2+</sup> influx through Ca<sub>v</sub>1 (L-type) channels.</p>