BASAL MYOSIN LIGHT CHAIN PHOSPHORYLATION IS A DETERMINANT OF Ca2+ SENSITIVITY OF FORCE AND ACTIVATION DEPENDENCE OF THE KINETICS OF MYOCARDIAL FORCE DEVELOPMENT

doi:10.1152/ajpheart.01067.2003

BASAL MYOSIN LIGHT CHAIN PHOSPHORYLATION IS A DETERMINANT OF Ca²⁺ SENSITIVITY OF FORCE AND ACTIVATION DEPENDENCE OF THE KINETICS OF MYOCARDIAL FORCE DEVELOPMENT

M. Charlotte Olsson¹, Jitandrakumar R Patel¹^*, Daniel P Fitzsimons¹, Jeffery W Walker¹, and Richard L Moss¹

¹ Physiology and UW Cardiovascular Research Center, University of Wisconsin Medical School, Madison, Wisconsin, USA

^* To whom correspondence should be addressed. E-mail: jrpatel{at}physiology.wisc.edu.

It is generally recognized that ventricular RLC is ~40% phosphorylatedunder basal conditions and there is little change in RLC phosphorylationwith agonist stimulation of myocardium or altered stimulationfrequency. To establish the functional consequences of basalRLC phosphorylation in the heart, we measured mechanical propertiesof rat skinned trabeculae in which ~7% or ~58% of total RLCwas phosphorylated. The protocol for achieving ~7% phosphorylationof RLC involved isolating trabeculae in the presence of 2, 3-butanedionemonoxime (BDM) to dephosphorylate RLC from its baseline level. Subsequent phosphorylation to ~58% of total was achieved byincubating BDM-treated trabeculae in solution containing smoothmuscle myosin light chain kinase, calmodulin and Ca²⁺ (i.e.,MLCK treatment). After MLCK treatment, Ca²⁺ sensitivity offorce increased by 0.06 pCa units and maximum force increasedby 5%. The rate constant of force development (k_tr) increasedas a function of Ca²⁺ concentration in the range between pCa5.8 and pCa 4.5. When expressed vs. pCa, the activation dependenceof k_tr appeared to be unaffected by MLCK treatment; however,when activation was expressed in terms of isometric force generatingcapability (as a fraction of maximum), MLCK treatment slowedk_tr at submaximal activations. These results suggest that basalphosphorylation of RLC plays a role in setting the kineticsof force development and the Ca²⁺ sensitivity of force in cardiacmuscle. Our results also argue that changes in RLC phosphorylationin the range examined here influence actin-myosin interactionkinetics differently in heart muscle than was previously reportedfor skeletal muscle.

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