On the source of Ca2+ activating the tonic component of contraction of myocytes of guinea pig heart

doi:10.1016/S0008-6363(01)00363-7

Cardiovascular Research 2001 52(1):76-83; doi:10.1016/S0008-6363(01)00363-7
© 2001 by European Society of Cardiology

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On the source of Ca²⁺ activating the tonic component of contraction of myocytes of guinea pig heart

Krzysztof Emanuel, Urszula Mackiewicz and Bohdan Lewartowski^*

Department of Clinical Physiology, Medical Centre of Postgraduate Education, Marymoncka 99, 01-813 Warsaw, Poland

blew{at}cmkp.edu

^* Corresponding author. Tel.: +48-22-834-0367; fax: +48-22-864-0834

Objective: Contractions of isolated, single myocytes of guineapig heart stimulated at 37°C consist of a phasic componentand a voltage dependent tonic component. In this study we investigatedthe source of Ca²⁺ activating the tonic component. Methods:Experiments were performed at 37°C in ventricular myocytesof guinea pig heart. Voltage-clamped cells were stimulated bythe pulses from the holding potential of –40 to +5 mV.[Ca²⁺]_i was monitored as fluorescence of Indo 1-AM and contractionswere recorded with the TV edge-tracking system. Results: Superfusionof 5 mmol/l Ni²⁺ during 30 s pause did not inhibit subsequentbiphasic Ca²⁺ transients and contractions despite inhibitionof Ca²⁺ current and Na⁺/Ca²⁺ exchange. KB-R7943 (5 µmol/l)or intracellular dialysis with 0 Na⁺ solution, both of whichinhibit reversed Na⁺/Ca²⁺ exchange, decreased amplitude of Ca²⁺transients and contractions by $~$ 40%. The ratio of amplitudesof tonic to phasic component was increased by Ni²⁺ and was notchanged by KB-R7943 or 0 Na⁺_i. Ryanodine (200 µmol/l)inhibited both components of contractions in cells superfusedwith Ni²⁺. The phasic component but not the tonic componentwas inhibited by 20 µmol/l nifedipine in cells superfusedwith Ni²⁺. Conclusions: Tonic component of contraction of singlemyocytes of guinea pig heart is not activated by Ca²⁺ currentor by the reverse mode Na⁺/Ca²⁺ exchange as currently proposedin literature. Rather, it is activated by Ca²⁺ released fromthe sarcoplasmic reticulum. However, kinetics and mechanismof release seem to be quite different from those of Ca²⁺ fractionactivating the phasic component of contraction.

KEYWORDS Myocytes; Contractile function; e–c Coupling; Calcium (cellular)

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