Myosin alkali light chain and heavy chain variations correlate with altered shortening velocity of isolated skeletal muscle fibers.

This study examines the myosin isozyme heterogeneity (in terms of both alkali light chains and myosin heavy chains) among skeletal muscle fibers of the rabbit and correlates these isozyme differences with the differences in a contractile property, the velocity of unloaded shortening, of the fibers. The mean velocities of unloaded shortening (pCa 4.3; 12 degrees C) were as follows: psoas IIb fibers, 2.07 fiber lengths/s (n = 25); tibialis anterior (IIb) fibers, 1.63 fiber lengths/s (n = 18); vastus intermedius IIa fibers, 0.98 fiber lengths/s (n = 15); fibers (IIa) from chronically stimulated tibialis anterior, 0.86 fiber lengths/s (n = 16). Peptide maps of the myosins showed that the myosin heavy chains of the two groups of IIb fibers were indistinguishable from each other, but different from the heavy chains of the IIa fibers. However, the difference in maximal shortening velocity of the two groups of IIb fibers was correlated with a difference in the alkali light chain ratio deduced from the intensity ratio of myosin isoforms separated by gel electrophoresis under nondenaturing conditions. The vastus intermedius (IIa) and chronically stimulated tibialis anterior (IIa) fibers were indistinguishable in terms of either velocities of unloaded shortening or myosin isozyme contents. Soleus fibers contained only slow-twitch myosin. Thus, among fibers that contained a variety of myosin isozymes, differences in shortening velocities were correlated with the alkali light chain ratio, myosin heavy chain type, or a combination of both.