Nickel Substitution for Calcium in Excitation-Contraction Coupling of Skeletal Muscle

In 1962 Frank (22) reported that the addition of any one of a number of divalent cations, including Ni, to a Ca-free Ringer solution prevented the rapid loss of contractility seen in the absence of external Ca. To investigate further the Ni-Ca substitution, studies were made of ⁴⁵Ca and ⁶³Ni exchange during contraction and at rest using frog striated muscle. In contrast to ⁴⁵Ca, it was found that there is no increase of ⁶³Ni uptake associated with a K contracture of the sartorius muscle. The rates of loss of ⁶³Ni and ⁴⁵Ca from resting toe muscles previously bathed in the respective radioisotopes are not significantly different. Resting and action potentials, after 1 hr in a Ringer solution with Ni replacing Ca, closely resemble these potentials in normal Ca-Ringer's solution. Studies on the syneresis of isolated myofibrils indicate that Ni cannot replace Ca in activating this reaction. It is suggested that Ca is required for at least two steps in E-C coupling: one is the spread of excitation at the sarcolemma and transverse tubular system; the second is the activation of actomyosin ATPase. Conceivably Ni can substitute for Ca in the former but not in the latter.