Modulation of the Local SR Ca2+ Release by Intracellular Mg2+ in Cardiac Myocytes

doi:10.1085/jgp.200810119

Published online
doi:10.1085/jgp.200810119
The Journal of General Physiology, Vol. 132, No. 6, 721-730
The Rockefeller University Press, 0022-1295 $30.00
© Gusev et al.

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ARTICLE

Modulation of the Local SR Ca²⁺ Release by Intracellular Mg²⁺ in Cardiac Myocytes

Konstantin Gusev and Ernst Niggli

Department of Physiology, University of Bern, 3012 Bern, Switzerland

Correspondence to Ernst Niggli: niggli{at}pyl.unibe.ch

In cardiac muscle, Ca²⁺-induced Ca²⁺ release (CICR) from thesarcoplasmic reticulum (SR) defines the amplitude and time courseof the Ca²⁺ transient. The global elevation of the intracellularCa²⁺ concentration arises from the spatial and temporal summationof elementary Ca²⁺ release events, Ca²⁺ sparks. Ca²⁺ sparksrepresent the concerted opening of a group of ryanodine receptors(RYRs), which are under the control of several modulatory proteinsand diffusible cytoplasmic factors (e.g., Ca²⁺, Mg²⁺, and ATP).Here, we examined by which mechanism the free intracellularMg²⁺ ([Mg²⁺]_free) affects various Ca²⁺ spark parameters in permeabilizedmouse ventricular myocytes, such as spark frequency, duration,rise time, and full width, at half magnitude and half maximalduration. Varying the levels of free ATP and Mg²⁺ in specificallydesigned solutions allowed us to separate the inhibition ofRYRs by Mg²⁺ from the possible activation by ATP and Mg²⁺-ATPvia the adenine binding site of the channel. Changes in [Mg²⁺]_freegenerally led to biphasic alterations of the Ca²⁺ spark frequency.For example, lowering [Mg²⁺]_free resulted in an abrupt increaseof spark frequency, which slowly recovered toward the initiallevel, presumably as a result of SR Ca²⁺ depletion. Fittingthe Ca²⁺ spark inhibition by [Mg²⁺]_free with a Hill equationrevealed a K_i of 0.1 mM. In conclusion, our results supportthe notion that local Ca²⁺ release and Ca²⁺ sparks are modulatedby Mg²⁺ in the intracellular environment. This seems to occurpredominantly by hindering Ca²⁺-dependent activation of theRYRs through competitive Mg²⁺ occupancy of the high-affinityactivation site of the channels. These findings help to characterizeCICR in cardiac muscle under normal and pathological conditions,where the levels of Mg²⁺ and ATP can change.

© 2008 Gusev and Niggli This article is distributed underthe terms of an Attribution–Noncommercial–ShareAlike–No Mirror Sites license for the first six monthsafter the publication date (see http://www.jgp.org/misc/terms.shtml).After six months it is available under a Creative Commons License(Attribution–Noncommercial–Share Alike 3.0 Unportedlicense, as described at http://creativecommons.org/licenses/by-nc-sa/3.0/).

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