2006
DOI: 10.1254/jphs.cr0060018
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The Emergence of a General Theory of the Initiation and Strength of the Heartbeat

Abstract: Abstract. Sarcoplasmic reticulum (SR) Ca2+ cycling, that is, the Ca 2+ clock, entrained by externally delivered action potentials has been a major focus in ventricular myocyte research for the past 5 decades. In contrast, the focus of pacemaker cell research has largely been limited to membrane-delimited pacemaker mechanisms (membrane clock) driven by ion channels, as the immediate cause for excitation. Recent robust experimental evidence, based on confocal cell imaging, and supported by numerical modeling sug… Show more

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Cited by 127 publications
(135 citation statements)
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“…Furthermore, because NCX is activated by intracellular Ca 2+ , a broad interpretation of the results of this study is that pacemaker failure during simulated ischemia is not caused solely by ion channel failure, but also by altered SR Ca 2+ cycling and/or a compromised intracellular Ca 2+ integration with the membrane excitation due to the deficiency of NCX function. This interpretation supports the novel hypothesis [7] that normal cardiac pacemaker function requires functional integration of internal Ca 2+ cycling with membrane-delimited electrogenic proteins. According to this Ca 2+ integrated pacemaker concept, spontaneous local Ca 2+ releases emerging during the late DD activate an ensemble of local inward NCX currents; this accelerates DD and ignites I CaL to generate an AP (Fig.…”
Section: Discussionsupporting
confidence: 84%
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“…Furthermore, because NCX is activated by intracellular Ca 2+ , a broad interpretation of the results of this study is that pacemaker failure during simulated ischemia is not caused solely by ion channel failure, but also by altered SR Ca 2+ cycling and/or a compromised intracellular Ca 2+ integration with the membrane excitation due to the deficiency of NCX function. This interpretation supports the novel hypothesis [7] that normal cardiac pacemaker function requires functional integration of internal Ca 2+ cycling with membrane-delimited electrogenic proteins. According to this Ca 2+ integrated pacemaker concept, spontaneous local Ca 2+ releases emerging during the late DD activate an ensemble of local inward NCX currents; this accelerates DD and ignites I CaL to generate an AP (Fig.…”
Section: Discussionsupporting
confidence: 84%
“…This major divergence of the DD from its normal shape thus ought to be produced by the reduction of I NCX found by Du and Nathan in the ischemic solution. The corollary of the demonstration that I NCX is markedly reduced by simulated ischemia is that I NCX must be also critical to normal pacemaker function, thus providing a new additional piece of evidence for the fundamental importance of the NCX for SANC function suggested previously by different research groups [7,17,23].…”
Section: The Key Role Of the Ncx In Pacemaker Cell Failure During Iscmentioning
confidence: 72%
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