OBJECTIVE: Patients with myotonia congenita have muscle hyperexcitability due to loss-of-function mutations in the chloride channel in skeletal muscle, which causes spontaneous firing of muscle action potentials (myotonia), producing muscle stiffness. In patients, muscle stiffness lessens with exercise, a change known as the warmup phenomenon. Our goal was to identify the mechanism underlying warmup and to use this information to guide development of novel therapy. METHODS: To determine the mechanism underlying warmup, we used a recently discovered drug to eliminate muscle contraction, thus allowing prolonged intracellular recording from individual muscle fibers during induction of warmup in a mouse model of myotonia congenita. RESULTS: Changes in action potentials suggested slow inactivation of sodium channels as an important contributor to warmup. These data suggested that enhancing slow inactivation of sodium channels might offer effective therapy for myotonia. Lacosamide and ranolazine enhance slow inactivation of sodium channels and are approved by the US Food and Drug Administration for other uses in patients. We compared the efficacy of both drugs to mexiletine, a sodium channel blocker currently used to treat myotonia. In vitro studies suggested that both lacosamide and ranolazine were superior to mexiletine. However, in vivo studies in a mouse model of myotonia congenita suggested that side effects could limit the efficacy of lacosamide. Ranolazine produced fewer side effects and was as effective as mexiletine at a dose that produced none of mexiletine's hypoexcitability side effects. INTERPRETATION: We conclude that ranolazine has excellent therapeutic potential for treatment of patients with myotonia congenita.
OBJECTIVE:Patients with myotonia congenita have muscle hyperexcitability due to loss-of-function mutations in the chloride channel in skeletal muscle, which causes spontaneous firing of muscle action potentials (myotonia), producing muscle stiffness. In patients, muscle stiffness lessens with exercise, a change known as the warmup phenomenon. Our goal was to identify the mechanism underlying warmup and to use this information to guide development of novel therapy. METHODS: To determine the mechanism underlying warmup, we used a recently discovered drug to eliminate muscle contraction, thus allowing prolonged intracellular recording from individual muscle fibers during induction of warmup in a mouse model of myotonia congenita. RESULTS: Changes in action potentials suggested slow inactivation of sodium channels as an important contributor to warmup. These data suggested that enhancing slow inactivation of sodium channels might offer effective therapy for myotonia. Lacosamide and ranolazine enhance slow inactivation of sodium channels and are approved by the US Food and Drug Administration for other uses in patients. We compared the efficacy of both drugs to mexiletine, a sodium channel blocker currently used to treat myotonia. In vitro studies suggested that both lacosamide and ranolazine were superior to mexiletine. However, in vivo studies in a mouse model of myotonia congenita suggested that side effects could limit the efficacy of lacosamide. Ranolazine produced fewer side effects and was as effective as mexiletine at a dose that produced none of mexiletine's hypoexcitability side effects. INTERPRETATION: We conclude that ranolazine has excellent therapeutic potential for treatment of patients with myotonia congenita.
Authors: Nesrine El-Bizri; Kristopher M Kahlig; John C Shyrock; Alfred L George; Luiz Belardinelli; Sridharan Rajamani Journal: Channels (Austin) Date: 2011-03-01 Impact factor: 2.581
Authors: Thomas Stöhr; Harvey J Kupferberg; James P Stables; Daeock Choi; Robert H Harris; Harold Kohn; Nancy Walton; H Steve White Journal: Epilepsy Res Date: 2007-04-12 Impact factor: 3.045
Authors: Samantha Lorusso; David Kline; Amy Bartlett; Miriam Freimer; Julie Agriesti; Ahmed A Hawash; Mark M Rich; John T Kissel; W David Arnold Journal: Muscle Nerve Date: 2018-12-21 Impact factor: 3.217
Authors: W David Arnold; David Kline; Alan Sanderson; Ahmed A Hawash; Amy Bartlett; Kevin R Novak; Mark M Rich; John T Kissel Journal: Neurology Date: 2017-07-14 Impact factor: 9.910
Authors: Bas C Stunnenberg; Samantha LoRusso; W David Arnold; Richard J Barohn; Stephen C Cannon; Bertrand Fontaine; Robert C Griggs; Michael G Hanna; Emma Matthews; Giovanni Meola; Valeria A Sansone; Jaya R Trivedi; Baziel G M van Engelen; Savine Vicart; Jeffrey M Statland Journal: Muscle Nerve Date: 2020-05-27 Impact factor: 3.217
Authors: Anders Riisager; Frank Vincenzo de Paoli; Wei-Ping Yu; Thomas Holm Pedersen; Tsung-Yu Chen; Ole Baekgaard Nielsen Journal: J Physiol Date: 2016-03-20 Impact factor: 5.182
Authors: Ahmad Khedraki; Eric J Reed; Shannon H Romer; Qingbo Wang; William Romine; Mark M Rich; Robert J Talmadge; Andrew A Voss Journal: J Neurosci Date: 2017-07-19 Impact factor: 6.167
Authors: Chris Dupont; Kevin Novak; Kirsten Denman; Jessica H Myers; Jeremy M Sullivan; Phillip V Walker; Nicklaus L Brown; David R Ladle; Laurent Bogdanik; Cathleen M Lutz; Andrew A Voss; Charlotte J Sumner; Mark M Rich Journal: Ann Neurol Date: 2020-06-22 Impact factor: 10.422