Influence of Ca2+ on force redevelopment kinetics in skinned rat myocardium.

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Influence of Ca2+ on force redevelopment kinetics in skinned rat myocardium.

W O Hancock, D A Martyn, L L Huntsman and A M Gordon

Center for Bioengineering, University of Washington, Seattle 98195, USA.

ABSTRACT

The influence of Ca2+ on isometric force kinetics was studiedin skinned rat ventricular trabeculae by measuring the kineticsof force redevelopment after a transient decrease in force.Two protocols were employed to rapidly detach cycling myosincross-bridges: a large-amplitude muscle length ramp followedby a restretch back to the original length or a 4% segment lengthstep. During the recovery of force, the length of the centralregion of the muscle was controlled by using a segment markertechnique and software feedback control. Tension redevelopmentwas fit by a rising exponential governed by the rate constantktr for the ramp/restretch protocol and kstep for the step protocol.ktr and kstep averaged 7.06 s-1 and 15.7 s-1, respectively,at 15 degrees C; neither ktr nor kstep increased with the levelof Ca2+ activation. Similar results were found at submaximumCa2+ levels when sarcomere length control by laser diffractionwas used. The lack of activation dependence of ktr contrastswith results from fast skeletal fibers, in which ktr varies10-fold from low to high activation levels, and suggests thatCa2+ does not modulate the kinetics of cross-bridge attachmentor detachment in mammalian cardiac muscle.

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