Calmidazolium alters Ca2+ regulation of tension redevelopment rate in skinned skeletal muscle.

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Calmidazolium alters Ca2+ regulation of tension redevelopment rate in skinned skeletal muscle.

M Regnier, D A Martyn and P B Chase

Department of Physiology and Biophysics, University of Washington, Seattle 98195, USA. mregnier@u.washington.edu

ABSTRACT

To examine if the Ca2(+)-binding kinetics of troponin C (TnC)can influence the rate of cross-bridge force production, westudied the effects of calmidazolium (CDZ) on steady-state forceand the rate of force redevelopment (ktr) in skinned rabbitpsoas muscle fibers. CDZ increased the Ca2(+)-sensitivity ofsteady-state force and ktr at submaximal levels of activation,but increased ktr to a greater extent than can be explainedby increased force alone. This occurred in the absence of anysignificant effects of CDZ on solution ATPase or in vitro motilityof fluorescently labeled F-actin, suggesting that CDZ did notdirectly influence cross-bridge cycling. CDZ was strongly boundto TnC in aqueous solutions, and its effects on force productioncould be reversed by extraction of CDZ-exposed native TnC andreplacement with purified (unexposed) rabbit skeletal TnC. Theseexperiments suggest that the method of CDZ action in fibersis to bind to TnC and increase its Ca2(+)-binding affinity,which results in an increased rate of force production at submaximal[Ca2+]. The results also demonstrate that the Ca2(+)-bindingkinetics of TnC influence the kinetics of ktr.

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