Spontaneous beating of rabbit sinoatrial node cells (SANCs) is controlled by cAMP-mediated, protein kinase Adependent local subsarcolemmal ryanodine receptor Ca2+ releases (LCRs). LCRs activated an inward Na+/ Ca2+ exchange current that increases the terminal diastolic depolarization rate and, therefore, the spontaneous SANC beating rate. Basal cAMP in SANCs is elevated, suggesting that cAMP degradation by phosphodiesterases (PDEs) may be low. Surprisingly, total suppression of PDE activity with a broad-spectrum PDE inhibitor, 3-isobutylmethylxanthine (IBMX), produced a 9-fold increase in the cAMP level, doubled cAMP-mediated, protein kinase Adependent phospholamban phosphorylation, and increased SANC firing rate by ≈55%, indicating a high basal activity of PDEs in SANCs. A comparison of specific PDE1 to -5 inhibitors revealed that the specific PDE3 inhibitor, milrinone, accelerated spontaneous firing by ≈47% (effects of others were minor) and increased amplitude of L-type Ca2+ current (ICa,L) by ≈46%, indicating that PDE3 was the major constitutively active PDE in the basal state. PDE-dependent control of the spontaneous SANC firing was critically dependent on subsarcolemmal LCRs, ie, PDE inhibition increased LCR amplitude and size and decreased LCR period, leading to earlier and augmented LCR Ca2+ release, Na+/ Ca2+ exchange current, and an increase in the firing rate. When ryanodine receptors were disabled by ryanodine, neither IBMX nor milrinone was able to amplify LCRs, accelerate diastolic depolarization rate, or increase the SANC firing rate, despite preserved PDE inhibitioninduced augmentation of ICa,L amplitude. Thus, basal constitutive PDE activation provides a novel and powerful mechanism to decrease cAMP, limit cAMP-mediated, protein kinase Adependent increase of diastolic ryanodine receptor Ca2+ release, and restrict the spontaneous SANC beating rate. To study how PDE inhibition controls the SR Ca2+ refilling and LCR period we compared kinetics of SR Ca2+ refilling in control and after PDE inhibition. Phosphorylation of phospholamban (PLB) has been used as index of SR pumping rate and SR refilling was estimated by the time to 90% decay of the AP-initiated global cytosolic Ca2+ transient (T-90). Graded PLB phosphorylation by a broad-spectrum phosphodiesterase inhibitor (IBMX), specific phosphodiesterase-3 inhibitor (milrinone), or by specific PKA inhibitor peptide (PKI) were paralleled by proportional changes in T-90. Concomitant changes in T-90 and LCR period were highly correlated with changes in the spontaneous cycle length. Thus, suppression of PDE activity increases cAMP-mediated PKA-dependent phosphorylation, accelerates the SR Ca2+ refilling rate, decreases the LCR period, Ca2+ clock, and increases spontaneous beating rate of SANC.
