Evidence for cooperative interactions of myosin heads with thin filament in the force generation of vertebrate skeletal muscle fibers.

To examine the possibility of cooperative interactions between the two myosin heads in muscle contraction, Ca2+-activated force development, K+-EDTA-and Mg2+-ATPase activities, muscle fiber stiffness, and the velocity of unloaded shortening were measured on partially p-phenylenedimaleimide (p-PDM)-treated glycerinated muscle fibers, which contained a mixture of myosin molecules with zero, one, and two of their heads inactivated, and the relationships among these values (expressed relative to the control values) were studied. It was found that the magnitude of the Ca2+-activated isometric force development was proportional to the square of both K+-EDTA- and Mg2+-ATPase activities and also to the square of muscle fiber stiffness. If the two myosin heads in the glycerinated fibers are assumed to react independently with p-PDM, the above results strongly suggest that each myosin molecule in the thick filaments can generate force only when its two heads do not react with p-PDM, muscle fiber stiffness is determined by the total number of native heads, and there is no cooperative interaction between the two myosin heads in catalyzing ATP hydrolysis.