The mechanism underlying transient weakness in myotonia congenita

In addition to the hallmark muscle stiffness, patients with recessive myotonia congenita (Becker disease) experience debilitating bouts of transient weakness that remain poorly understood despite years of study. We made intracellular recordings from muscle of both genetic and pharmacologic mouse models of Becker disease to identify the mechanism underlying transient weakness. Our recordings reveal transient depolarizations (plateau potentials) of the membrane potential to −25 to −35 mV in the genetic and pharmacologic models of Becker disease. Both Na⁺and Ca²⁺currents contribute to plateau potentials. Na⁺persistent inward current (NaPIC) through Naγ1.4 channels is the key trigger of plateau potentials and current through Ca_v1.1 Ca²⁺channels contributes to the duration of the plateau. Inhibiting NaPIC with ranolazine prevents the development of plateau potentials and eliminates transient weaknessin vivo.These data suggest that targeting NaPIC may be an effective treatment to prevent transient weakness in myotonia congenita.