Activation of calcium release assessed by calcium release-induced inactivation of calcium current in rat cardiac myocytes

doi:10.1152/ajpcell.00272.2003

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Am J Physiol Cell Physiol 286: C330-C341, 2004. First published October 1, 2003; doi:10.1152/ajpcell.00272.2003
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MEMBRANE TRANSPORTERS, ION CHANNELS, AND PUMPS

Activation of calcium release assessed by calcium release-induced inactivation of calcium current in rat cardiac myocytes

Alexandra Zahradníková,¹^,* Zuzana Kubalová,¹^,* Jana Pavelková,¹ Sándor Györke,² and Ivan Zahradník¹

¹Institute of Molecular Physiology and Genetics, Slovak Academy of Sciences, 833 34 Bratislava, Slovakia; and ²Department of Physiology, Texas Tech University Health Sciences Center, Lubbock, Texas 79430

Submitted 30 June 2003 ; accepted in final form 29 September 2003

In mammalian cardiac myocytes, calcium released into the dyadicspace rapidly inactivates calcium current (I_Ca). We used thisCa²⁺ release-dependent inactivation (RDI) of I_Ca as a localprobe of sarcoplasmic reticulum Ca²⁺ release activation. Inwhole cell patch-clamped rat ventricular myocytes, Ca²⁺ entryinduced by short prepulses from —50 mV to positive voltagescaused suppression of peak I_Ca during a test pulse. The negativecorrelation between peak I_Ca suppression and I_Ca inactivationduring the test pulse indicated that RDI evoked by the prepulseaffected only calcium channels in those dyads in which calciumrelease was activated. Ca²⁺ ions injected during the prepulseand during the subsequent tail current suppressed peak I_Ca inthe test pulse to a different extent. Quantitative analysisindicated that equal Ca²⁺ charge was 3.5 times less effectivein inducing release when entering during the prepulse than whenentering during the tail. Tail Ca²⁺ charge injected by the firstvoltage-dependent calcium channel (DHPR) openings was threetimes less effective than that injected by DHPR reopenings.These findings suggest that calcium release activation can beprofoundly influenced by the recent history of L-type Ca²⁺ channelactivity due to potentiation of ryanodine receptors (RyRs) byprevious calcium influx. This conclusion was confirmed at thelevel of single RyRs in planar lipid bilayers: using flash photolysisof the calcium cage NP-EGTA to generate two sequential calciumstimuli, we showed that RyR activation in response to the secondstimulus was four times higher than that in response to thefirst stimulus.

excitation-contraction coupling

Address for reprint requests and other correspondence: I. Zahradník, Institute of Molecular Physiology and Genetics, Slovak Academy of Sciences, Vlárska 5, 833 34 Bratislava, Slovakia (E-mail: Ivan.Zahradnik{at}savba.sk).

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