Stephen C. Tovey scite author profile

Ca2+ oscillations have been considered to obey deterministic dynamics for almost two decades. We show for four cell types that Ca2+ oscillations are instead a sequence of random spikes. The standard deviation of the interspike intervals (ISIs) of individual spike trains is similar to the average ISI; it increases approximately linearly with the average ISI; and consecutive ISIs are uncorrelated. Decreasing the effective diffusion coefficient of free Ca2+ using Ca2+ buffers increases the average ISI and the standard deviation in agreement with the idea that individual spikes are caused by random wave nucleation. Array-enhanced coherence resonance leads to regular Ca2+ oscillations with small standard deviation of ISIs.

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Functional InsP3 receptors that may modulate excitation–contraction coupling in the heart

Lipp

et al. 2000

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The roles of the Ca2+-mobilising messenger inositol 1,4,5-trisphosphate (InsP3) in heart are unclear, although many hormones activate InsP3 production in cardiomyocytes and some of their inotropic, chronotropic and arrhythmogenic effects may be due to Ca2+ release mediated by InsP3 receptors (InsP3Rs) [1-3]. In the present study, we examined the expression and subcellular localisation of InsP3R isoforms, and investigated their potential role in modulating excitation-contraction coupling (EC coupling). Western, PCR and InsP3-binding analysis indicated that both atrial and ventricular myocytes expressed mainly type II InsP3Rs, with approximately sixfold higher levels of InsP3Rs in atrial cells. Co-immunostaining of atrial myocytes with antibodies against type II ryanodine receptors (RyRs) and type II InsP3Rs revealed that the latter were arranged in the subsarcolemmal space where they largely co-localised with the junctional RyRs. Stimulation of quiescent or electrically paced atrial myocytes with a membrane-permeant InsP3 ester, which enters cells and directly activates InsP3Rs, caused the appearance of spontaneous Ca2+-release events. In addition, in paced cells, the InsP3 ester evoked an increase in the amplitudes of action potential-evoked Ca2+ transients. These data indicate that atrial cardiomyocytes express functional InsP3Rs, and that these channels could modulate EC coupling.

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A comparison of fluorescent Ca2+indicator properties and their use in measuring elementary and global Ca2+signals

et al. 2000

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Ca ²⁺ Entry Through Plasma Membrane IP ₃ Receptors

Dellis

Dedos

Tovey

et al. 2006

Science

170

191

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Inositol 1,4,5-trisphosphate receptors (IP3Rs) release calcium ions, Ca2+, from intracellular stores, but their roles in mediating Ca2+ entry are unclear. IP3 stimulated opening of very few (1.9 +/- 0.2 per cell) Ca2+-permeable channels in whole-cell patch-clamp recording of DT40 chicken or mouse B cells. Activation of the B cell receptor (BCR) in perforated-patch recordings evoked the same response. IP3 failed to stimulate intracellular or plasma membrane (PM) channels in cells lacking IP3R. Expression of IP3R restored both responses. Mutations within the pore affected the conductances of IP3-activated PM and intracellular channels similarly. An impermeant pore mutant abolished BCR-evoked Ca2+ signals, and PM IP3Rs were undetectable. After introduction of an alpha-bungarotoxin binding site near the pore, PM IP3Rs were modulated by extracellular alpha-bungarotoxin. IP(3)Rs are unusual among endoplasmic reticulum proteins in being also functionally expressed at the PM, where very few IP3Rs contribute substantially to the Ca2+ entry evoked by the BCR.

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Stephen C. Tovey

Calcium signalling—an overview

How Does Intracellular Ca2+ Oscillate: By Chance or by the Clock?

Functional InsP3 receptors that may modulate excitation–contraction coupling in the heart

A comparison of fluorescent Ca2+indicator properties and their use in measuring elementary and global Ca2+signals

Ca ²⁺ Entry Through Plasma Membrane IP ₃ Receptors

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Stephen C. Tovey

Calcium signalling—an overview

How Does Intracellular Ca2+ Oscillate: By Chance or by the Clock?

Functional InsP3 receptors that may modulate excitation–contraction coupling in the heart

A comparison of fluorescent Ca2+indicator properties and their use in measuring elementary and global Ca2+signals

Ca 2+ Entry Through Plasma Membrane IP 3 Receptors

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Ca ²⁺ Entry Through Plasma Membrane IP ₃ Receptors