Abstract
ObjectiveTo identify the genetic and physiologic basis for recessive myasthenic congenital myopathy in 2 families, suggestive of a channelopathy involving the sodium channel gene, SCN4A.MethodsA combination of whole exome sequencing and targeted mutation analysis, followed by voltage-clamp studies of mutant sodium channels expressed in fibroblasts (HEK cells) and Xenopus oocytes.ResultsMissense mutations of the same residue in the skeletal muscle sodium channel, R1460 of NaV1.4, were identified in a family and a single patient of Finnish origin (p.R1460Q) and a proband in the United States (p.R1460W). Congenital hypotonia, breathing difficulties, bulbar weakness, and fatigability had recessive inheritance (homozygous p.R1460W or compound heterozygous p.R1460Q and p.R1059X), whereas carriers were either asymptomatic (p.R1460W) or had myotonia (p.R1460Q). Sodium currents conducted by mutant channels showed unusual mixed defects with both loss-of-function (reduced amplitude, hyperpolarized shift of inactivation) and gain-of-function (slower entry and faster recovery from inactivation) changes.ConclusionsNovel mutations in families with myasthenic congenital myopathy have been identified at p.R1460 of the sodium channel. Recessive inheritance, with experimentally established loss-of-function, is a consistent feature of sodium channel based myasthenia, whereas the mixed gain of function for p.R1460 may also cause susceptibility to myotonia.
Highlights
MethodsA combination of whole exome sequencing and targeted mutation analysis, followed by voltageclamp studies of mutant sodium channels expressed in fibroblasts (HEK cells) and Xenopus oocytes
Novel mutations in families with myasthenic congenital myopathy have been identified at p.R1460 of the sodium channel
Funding information and disclosures deemed relevant by the authors, if any, are provided at the end of the article
Summary
A combination of whole exome sequencing and targeted mutation analysis, followed by voltageclamp studies of mutant sodium channels expressed in fibroblasts (HEK cells) and Xenopus oocytes. Editorial Muscle at the junction: Where generation sequencing is sending us Page 591. Clinical examination The proband (III-3) and 6 of her relatives were examined in a Finnish family (F1, figure 1A). One of her aunts (II-6) and her maternal grandfather (I-1) had similar symptoms (larynx spasms) but were not available for further studies. The patients underwent neurologic examination, EMG, and DNA extraction. A single unrelated Finnish patient (P2) with myotonia was examined. Muscle histology was available for 2 patients and muscle MRI for 1 patient. The proband from family 2 and her parents were examined neurologically and whole blood was collected for DNA analysis
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