Mutation of specific PKA or CaMKII target sites on the ryanodine receptor or phospholamban failed to affect heart rate responses to isoproterenol or spontaneous activity in mice.
Heart rate acceleration depends on a sarcoplasmic reticulum Ca2+ content threshold rather than unique PKA or CaMKII target sites governing Ca2+ uptake or release.
BACKGROUND: Fight or flight heart rate (HR) increases depend on protein kinase A (PKA)- and calmodulin kinase II (CaMKII)-mediated enhancement of Ca(2+) uptake and release from sarcoplasmic reticulum (SR) in sinoatrial nodal cells (SANC). However, the impact of specific PKA and CaMKII phosphorylation sites on HR is unknown. METHODS AND RESULTS: We systematically evaluated validated PKA and CaMKII target sites on phospholamban and the ryanodine receptor using genetically modified mice. We found that knockin alanine replacement of ryanodine receptor PKA (S2808) or CaMKII (S2814) target sites failed to affect HR responses to isoproterenol or spontaneous activity in vivo or in SANC. Similarly, selective mutation of phospholamban amino acids critical for enhancing SR Ca(2+) uptake by PKA (S16) or CaMKII (T17) to alanines did not affect HR in vivo or in SANC. In contrast, CaMKII inhibition by expression of AC3-I has been shown to slow SANC rate responses to isoproterenol and decrease SR Ca(2+) content. Phospholamban deficiency rescued SR Ca(2+) content and SANC rate responses to isoproterenol in mice with AC3-I expression, suggesting that CaMKII affects HR by modulation of SR Ca(2+) content. Consistent with this, mice expressing a superinhibitory phospholamban mutant had low SR Ca(2+) content and slow HR in vivo and in SANC. CONCLUSIONS: SR Ca(2+) depletion reduces HR and SR Ca(2+) repletion restores physiological SANC rate responses, despite CaMKII inhibition. PKA and CaMKII do not affect HR by a unique target site governing SR Ca(2+) uptake or release. HR acceleration may require an SR Ca(2+) content threshold.
Wu et al. (Mon,) reported a other. Genetic mutation of PKA or CaMKII target sites was evaluated on Heart rate responses to isoproterenol or spontaneous activity. Mutation of specific PKA or CaMKII target sites on the ryanodine receptor or phospholamban failed to affect heart rate responses to isoproterenol or spontaneous activity in mice.