Abstract
Paramyotonia congenita (PMC) is a rare hereditary skeletal muscle disorder. The major symptom, muscle stiffness, is frequently induced by cold exposure and repetitive exercise. Mutations in human SCN4A gene, which encodes the α-subunit of Nav1.4 channel, are responsible for PMC. Mutation screening of SCN4A gene from two PMC families identified two missense mutations, p.T1313M and p.R1448H. To elucidate the electrophysiological abnormalities caused by the mutations, the p.T1313M, p.R1448H, and wild-type (WT) SCN4A genes were transient expressed on Chinese hamster ovary (CHO-K1) cells. The detailed study on the gating defects of the mutant channels using the whole-cell patch clamping technique was performed. The mutant Nav1.4 channels impaired the basic gating properties with increasing sustained and window currents during membrane depolarization and facilitated the genesis of resurgent currents during repolarization. The mutations caused a hyperpolarization shift in the fast inactivation and slightly enhanced the slow inactivation with an increase in half-maximal inactivation voltage. No differences were found in the decay kinetics of the tail current between mutant and WT channels. In addition to generating the larger resurgent sodium current, the time to peak in the mutant channels was longer than that in the WT channels. In conclusion, our results demonstrated that the mutations p.T1313M and p.R1448H in Nav1.4 channels can enhance fast inactivation, slow inactivation, and resurgent current, revealing that subtle changes in gating processes can influence the clinical phenotype.
Highlights
Myotonia is a condition characterized by hyperexcitability of muscle fibers after voluntary contraction or mechanical stimulation [1,2]
Two sequence variants c.3938C>T (p.T1313M) and c.4343G>A (p.R1448H) were identified from the patients, which fulfilled the diagnosis of paramyotonia congenita (PMC)
The inactivation curves moved toward hyperpolarization in the p.T1313M and p.R1448H mutant channels
Summary
Myotonia is a condition characterized by hyperexcitability of muscle fibers after voluntary contraction or mechanical stimulation [1,2]. It manifests as spontaneous voluntary electrical activity of the skeletal muscle membrane, which is recorded as a “myotonic run” in electromyography (EMG) [1]. The voltage-gated Na+ channel (VGSC), Nav 1.4, which is expressed on the skeletal muscle membrane, is a transmembrane complex. The human SCN4A gene, located on chromosome 17, encodes the α subunit of the Nav 1.4 channel in skeletal muscles [3]. The Nav 1.4 channel in the skeletal muscle is a heterodimer consisting of a pore-forming α-subunit and regulatory β1–4 subunits [4,5].
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