Temperature-sensitive Mutations in the Iii-iv-cytoplasmic Loop Region of the Skeletal-muscle Sodium-channel Gene in Paramyotonia-congenita

Paramyotonia congenita (PMC), a dominant disorder featuring cold-induced myotonia (muscle stiffness), has recently been genetically linked to a candidate gene, the skeletal muscle sodium channel gene SCN4A. We have now established that SCN4A is the disease gene in PMC by identifying two different single-base coding sequence alterations in PMC families. Both mutations affect highly conserved residues in the III-IV cytoplasmic loop, a portion of the sodium channel thought to pivot in response to membrane depolarization, thereby blocking and inactivating the channel. Abnormal function of this cytoplasmic loop therefore appears to produce the Na+ current abnormality and the unique temperature-sensitive clinical phenotype in this disorder

Dinucleotide Repeat Polymorphisms At the Scn4a Locus Suggest Allelic Heterogeneity of Hyperkalemic Periodic Paralysis and Paramyotonia-congenita

Two polymorphic dinucleotide repeats - one (dGdA)n and one (dGdT)n - have been identified at the SCN4A locus, encoding the alpha-subunit of the adult skeletal muscle sodium channel. When typed using PCR, the dinucleotide repeats display 4 and 10 alleles, respectively, with a predicted heterozygosity of .81 for the combined haplotype. We have applied these polymorphisms to the investigation of hyperkalemic periodic paralysis and paramyotonia congenita, distinct neuromuscular disorders both of which are thought to involve mutation at SCN4A. Our data confirm the genetic linkage of both disorders with SCN4A. Haplotype analysis also indicates the strong likelihood of allelic heterogeneity in both disorders