To define numerically the clinical severity of facioscapulohumeral muscular dystrophy (FSHD), we developed a protocol that quantifies muscle weakness by combining the functional evaluation of six muscle groups affected in this disease. To validate reproducibility of the protocol, 69 patients were recruited. Each patient was evaluated by at least five neurologists, and an FSHD severity score was given by each examiner. The degree of agreement among clinicians' evaluations was measured by kappa-statistics. Nineteen subjects received a score between 0 and 1, 9 had a score between 2 and 4, 20 received a score between 5 and 10, and 8 had a score between 11 and 15. Of the 13 subjects with D4Z4 alleles within the normal range (ranging from 10 to 150 repeats), 12 obtained a score of 0 and only 1 had a score of 1. Kappa-statistics showed a very high concordance for all muscle groups. We developed a simple, reliable, easily used tool to define the clinical expression of FSHD. Longitudinal studies will assess its sensitivity and utility in measuring changes for widespread use.
MELAS, MERRF, LHON and NARP, are well-established mitochondrial syndromes associated with specific point mutations of mitochondrial DNA (mtDNA). However, these recurrent mtDNA mutations account for only a minority of mitochondrial disease cases. To evaluate the impact of novel mtDNA mutations, we performed mtDNA sequence analysis in muscle and other tissues of 240 patients with different mitochondrial neuromuscular syndromes. We identified a total of 33 subjects with novel, private or uncommon mutations. Among these, five novel mutations were found in both paediatric and adult cases. We here report on the clinical description of these patients, as well as the biochemical and molecular genetic characterization of the corresponding mutations. Patients 1 and 2 showed changes in ND genes, patient 3 carried a heteroplasmic deletion in the COI gene, patients 4 and 5 carried heteroplasmic mutations in tRNA(Trp) and tRNA(Phe), respectively. Altogether, these data indicate that mtDNA analysis must become part of the routine screening for mitochondrial disorders.
Myotonia congenita is a genetic disease characterized by impaired muscle relaxation after forceful contraction (myotonia) and caused by mutations in the chloride channel voltage-sensitive 1 (CLCN1) gene, encoding the voltage-gated chloride channel of skeletal muscle (ClC-1). In a large cohort of clinically diagnosed unrelated probands, we identified 75 different CLCN1 mutations in 106 individuals, among which 29 were novel mutations and 46 had already been reported. Despite the newly described mutations being scattered throughout the gene, in our patients, mutations were mostly found in exons 4 and 5. Most of the novel mutations located in the region comprising the intramembrane helices are involved in the ion-conducting pathway and predicted to affect channel function. We report for the first time that two mutations, inherited on the same allele as a heterozygous trait, abrogate disease expression, although when inherited singularly they were pathogenic. Such a mode of inheritance might explain the incomplete penetrance reported for autosomal dominant mutations in particular families.
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