Beat-to-beat Ca(2+)-dependent regulation of sinoatrial nodal pacemaker cell rate and rhythm |
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| Authors: | Yaniv Yael Maltsev Victor A Escobar Ariel L Spurgeon Harold A Ziman Bruce D Stern Michael D Lakatta Edward G |
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| Affiliation: | aLaboratory of Cardiovascular Science, Gerontology Research Center, Intramural Research Program, National Institute on Aging, NIH, Baltimore, MD, USA;bSchool of Engineering, Univ. of California-Merced, Merced, CA, USA |
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| Abstract: | Whether intracellular Ca2+ regulates sinoatrial node cell (SANC) action potential (AP) firing rate on a beat-to-beat basis is controversial. To directly test the hypothesis of beat-to-beat intracellular Ca2+ regulation of the rate and rhythm of SANC we loaded single isolated SANC with a caged Ca2+ buffer, NP-EGTA, and simultaneously recorded membrane potential and intracellular Ca2+. Prior to introduction of the caged Ca2+ buffer, spontaneous local Ca2+ releases (LCRs) during diastolic depolarization were tightly coupled to rhythmic APs (r2 = 0.9). The buffer markedly prolonged the decay time (T50) and moderately reduced the amplitude of the AP-induced Ca2+ transient and partially depleted the SR load, suppressed spontaneous diastolic LCRs and uncoupled them from AP generation, and caused AP firing to become markedly slower and dysrhythmic. When Ca2+ was acutely released from the caged compound by flash photolysis, intracellular Ca2+ dynamics were acutely restored and rhythmic APs resumed immediately at a normal rate. After a few rhythmic cycles, however, these effects of the flash waned as interference with Ca2+ dynamics by the caged buffer was reestablished. Our results directly support the hypothesis that intracellular Ca2+ regulates normal SANC automaticity on a beat-to-beat basis. |
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| Keywords: | Pacemaker cell automaticity Ca2+ cycling Pacemaker Ca2+ clock Ca2+-excitation contraction coupling Arrhythmia |
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