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Frontiers in Neurology 2022Myotonia congenita is a rare neuromuscular disorder caused by mutations resulting in delayed muscle relaxation. Extramuscular manifestations are not considered to be...
Myotonia congenita is a rare neuromuscular disorder caused by mutations resulting in delayed muscle relaxation. Extramuscular manifestations are not considered to be present in chloride skeletal channelopathies, although recently some cardiac manifestations have been described. We report a family with autosomal dominant myotonia congenita and Brugada syndrome. Bearing in mind the previously reported cases of cardiac arrhythmias in myotonia congenita patients, we discuss the possible involvement of the CLCN1-gene mutations in primary cardiac arrhythmia.
PubMed: 36212636
DOI: 10.3389/fneur.2022.1011956 -
Journal of Equine Veterinary Science Nov 2022Deleterious genetic variants are an important cause of skeletal muscle disease. Immunohistochemical evaluation of muscle biopsies is standard for the diagnosis of muscle...
Deleterious genetic variants are an important cause of skeletal muscle disease. Immunohistochemical evaluation of muscle biopsies is standard for the diagnosis of muscle disorders. The prevalence of alleles causing hyperkalemic periodic paralysis (HYPP), malignant hyperthermia (MH), polysaccharide storage myopathy 1 (PSSM1), glycogen branching enzyme deficiency (GBED), myotonia congenita (MC), and myosin heavy chain myopathy (MYHM) in horses with muscle disease is unknown. Archived slides processed for immunohistochemical analysis from 296 horses with muscle disease were reviewed blinded and clinical information obtained. DNA isolated from stored muscle samples from these horses were genotyped for disease variants. Histological findings were classified as myopathic in 192, neurogenic in 41, and normal in 63 horses. A third of the population had alleles that explained disease which constituted 45% of the horses with confirmed histological myopathic process. Four of six muscle disease alleles were identified only in Quarter horse breeds. The allele causing PSSM1 was detected in other breeds, and MC was not detected in these samples. The My allele, associated with susceptibility for MYHM, was the most common (62%) with homozygotes (16/27) presenting a more severe phenotype compared to heterozygotes (6/33). All cases with the MH allele were fatal upon triggering by anesthesia, stress or concurrent myopathy. Both, muscle histological and genetic analyses are essential in the investigation of muscle disease, since 10% of the horses with muscle disease and normal histology had a muscle disease causing genetic variant, and 63% of histologically confirmed muscle with alterations had no known genetic variants.
Topics: Horses; Animals; Horse Diseases; Prevalence; Muscular Diseases; Neuromuscular Diseases; Mutation; Polysaccharides; Muscles
PubMed: 36150530
DOI: 10.1016/j.jevs.2022.104129 -
Frontiers in Neurology 2022Non-dystrophic myotonias (NDM) encompass chloride and sodium channelopathy. Mutations in lead to either the autosomal dominant form or the recessive form of myotonia...
Non-dystrophic myotonias (NDM) encompass chloride and sodium channelopathy. Mutations in lead to either the autosomal dominant form or the recessive form of myotonia congenita (MC). The main symptom is stiffness worsening after rest and improving by physical exercise. Patients with recessive mutations often show muscle hypertrophy, and transient weakness mostly in their lower limbs. Mutations in can lead to Hyper-, Hypo- or Normo-kalemic Periodic Paralysis or to different forms of myotonia (Paramyotonia Congenita-PMC and Sodium Channel Myotonia-SCM and severe neonatal episodic laryngospasm-SNEL). SCM often presents facial muscle stiffness, cold sensitivity, and muscle pain, whereas myotonia worsens in PMC patients with the repetition of the muscle activity and cold. Patients affected by chloride or sodium channelopathies may show similar phenotypes and symptoms, making the diagnosis more difficult to reach. Herein we present a woman in whom sodium and chloride channelopathies coexist yielding a complex phenotype with features typical of both MC and PMC. Disease onset was in the second decade with asthenia, weakness, warm up and limb stiffness, and her symptoms had been worsening through the years leading to frequent heavy retrosternal compression, tachycardia, stiffness, and symmetrical pain in her lower limbs. She presented severe lid lag myotonia, a hypertrophic appearance at four limbs and myotonic discharges at EMG. Her symptoms have been triggered by exposure to cold and her daily life was impaired. All together, clinical signs and instrumental data led to the hypothesis of PMC and to the administration of mexiletine, then replaced by acetazolamide because of gastrointestinal side effects. Analysis of revealed a new variant, p.Glu1607del. Nonetheless the severity of myotonia in the lower limbs and her general stiffness led to hypothesize that the impairment of sodium channel, Nav1.4, alone could not satisfactorily explain the phenotype and a second genetic "factor" was hypothesized. was targeted, and p.Met485Val was detected in homozygosity. This case highlights that proper identification of signs and symptoms by an expert neurologist is crucial to target a successful genetic diagnosis and appropriate therapy.
PubMed: 36081873
DOI: 10.3389/fneur.2022.845383 -
Neuromuscular Disorders : NMD Oct 2022The non-dystrophic myotonias are inherited skeletal muscle disorders characterized by skeletal muscle stiffness after voluntary contraction, without muscle atrophy.... (Comparative Study)
Comparative Study
The non-dystrophic myotonias are inherited skeletal muscle disorders characterized by skeletal muscle stiffness after voluntary contraction, without muscle atrophy. Based on their clinical features, non-dystrophic myotonias are classified into myotonia congenita, paramyotonia congenita, and sodium channel myotonia. Using whole-exome next-generation sequencing, we identified a L703P mutation (c.2108T>C, p.L703P) in SCN4A in a Chinese family diagnosed with non-dystrophic myotonias. The clinical findings of patients in this family included muscle stiffness and hypertrophy. The biophysical properties of wildtype and mutant channels were investigated using whole-cell patch clamp. L703P causes both gain-of-function and loss-of-function changes in Nav1.4 properties, including decreased current density, impaired recovery, enhanced activation and slow inactivation. Our study demonstrates that L703P is a pathogenic variant for myotonia, and provides additional electrophysiological information for understanding the pathogenic mechanism of SCN4A-associated channelopathies.
Topics: Humans; Mutation; Myotonia; Myotonia Congenita; Myotonic Disorders; NAV1.4 Voltage-Gated Sodium Channel
PubMed: 36050252
DOI: 10.1016/j.nmd.2022.08.004 -
Frontiers in Pharmacology 2022Myotonia congenita (MC) is an inherited rare disease characterized by impaired muscle relaxation after contraction, resulting in muscle stiffness. It is caused by...
Myotonia congenita (MC) is an inherited rare disease characterized by impaired muscle relaxation after contraction, resulting in muscle stiffness. It is caused by loss-of-function mutations in the skeletal muscle chloride channel ClC-1, important for the stabilization of resting membrane potential and for the repolarization phase of action potentials. Thanks to functional studies, the molecular mechanisms by which ClC-1 mutations alter chloride ion influx into the cell have been in part clarified, classifying them in "gating-defective" or "expression-defective" mutations. To date, the treatment of MC is only palliative because no direct ClC-1 activator is available. An ideal drug should be one which is able to correct biophysical defects of ClC-1 in the case of gating-defective mutations or a drug capable to recover ClC-1 protein expression on the plasma membrane for trafficking-defective ones. In this study, we tested the ability of niflumic acid (NFA), a commercial nonsteroidal anti-inflammatory drug, to act as a pharmacological chaperone on trafficking-defective MC mutants (A531V, V947E). Wild-type (WT) or MC mutant ClC-1 channels were expressed in HEK293 cells and whole-cell chloride currents were recorded with the patch-clamp technique before and after NFA incubation. Membrane biotinylation assays and western blot were performed to support electrophysiological results. A531V and V947E mutations caused a decrease in chloride current density due to a reduction of ClC-1 total protein level and channel expression on the plasma membrane. The treatment of A531V and V947E-transfected cells with 50 µM NFA restored chloride currents, reaching levels similar to those of WT. Furthermore, no significant difference was observed in voltage dependence, suggesting that NFA increased protein membrane expression without altering the function of ClC-1. Indeed, biochemical experiments confirmed that V947E total protein expression and its plasma membrane distribution were recovered after NFA incubation, reaching protein levels similar to WT. Thus, the use of NFA as a pharmacological chaperone in trafficking defective ClC-1 channel mutations could represent a good strategy in the treatment of MC. Because of the favorable safety profile of this drug, our study may easily open the way for confirmatory human pilot studies aimed at verifying the antimyotonic activity of NFA in selected patients carrying specific ClC-1 channel mutations.
PubMed: 36034862
DOI: 10.3389/fphar.2022.958196 -
European Journal of Medical Genetics Oct 2022The Bailey-Bloch congenital myopathy, also known as Native American myopathy (NAM), is an autosomal recessive congenital myopathy first reported in the Lumbee tribe...
The Bailey-Bloch congenital myopathy, also known as Native American myopathy (NAM), is an autosomal recessive congenital myopathy first reported in the Lumbee tribe people settled in North Carolina (USA), and characterized by congenital weakness and arthrogryposis, cleft palate, ptosis, short stature, kyphoscoliosis, talipes deformities, and susceptibility to malignant hyperthermia (MH) triggered by anesthesia. NAM is linked to STAC3 gene coding for a component of excitation-contraction coupling in skeletal muscles. A homozygous missense variant (c.851G > C; p.Trp284Ser) in STAC3 segregated with NAM in the Lumbee families. Non-Native American patients with STAC3 related congenital myopathy, and with other various variants of STAC3 have been reported. Here, we present seven patients from the Comoros Islands (located in the Mozambique Channel) diagnosed with STAC3 related congenital myopathy and having the recurrent variant identified in the Lumbee people. The series is the second largest series of patients having STAC3 related congenital myopathy with a shared ethnicity after le Lumbee series. Local history and geography may explain the overrepresentation of NAM in the Comorian Archipelago with a founder effect. Further researches would be necessary for the understanding of the onset of the NAM in Comorian population as search of the "classical" STAC3 variant in East African population, and haplotypes comparison between Comorian and Lumbee patients.
Topics: Adaptor Proteins, Signal Transducing; Excitation Contraction Coupling; Humans; Malignant Hyperthermia; Muscular Diseases; Myotonia Congenita
PubMed: 36030003
DOI: 10.1016/j.ejmg.2022.104598 -
Neuromuscular Disorders : NMD Oct 2022This pilot study explored the feasibility and effectiveness of vibration therapy (VT) on muscle and bone health, motor performance, and respiratory function in patients...
This pilot study explored the feasibility and effectiveness of vibration therapy (VT) on muscle and bone health, motor performance, and respiratory function in patients with congenital myopathy (CM). Eleven participants with CM (11.5 ± 2.8 years) underwent 12 weeks of side-alternating VT at 20 Hz for nine minutes per session, four days a week. VT was preceded by a 12-week control period. Assessments included dual-energy X-ray absorptiometry scans, 6-minute walk and 10-meter run tests, muscle function and motor performance assessment, dynamometry, and pulmonary function. VT was well-tolerated, with occasional mild itchiness reported. The median compliance level with VT treatment was 75%. 12 weeks of VT improved the total score of motor function performance by 2.4 units (p=0.006) and velocity rise maximum of the chair rising test by 0.11 m/s (p=0.029). VT was shown to be feasible, safe, and associated with improving motor function performance. Our findings support further exploration of VT's potential health benefits to patients with CM in larger studies involving a longer intervention period.
Topics: Child; Humans; Adolescent; Vibration; Pilot Projects; Feasibility Studies; New Zealand; Muscular Diseases; Myotonia Congenita
PubMed: 35973877
DOI: 10.1016/j.nmd.2022.07.398 -
Journal of Neurology Dec 2022Non-dystrophic myotonias (NDM) are rare skeletal muscle channelopathies, mainly linked to two voltage-gated ion channel genes, CLCN1 and SCN4A. The aim of this study is...
Non-dystrophic myotonias (NDM) are rare skeletal muscle channelopathies, mainly linked to two voltage-gated ion channel genes, CLCN1 and SCN4A. The aim of this study is to identify the clinical and genetic features of patients with NDM in Japan. We collected a Japanese nationwide case series of patients with clinical diagnosis of NDM (1999-2021). Among 71 out of 88 pedigrees, using Sanger and next-generation sequencing targeting both CLCN1 and SCN4A genes, variants classified as pathogenic/likely pathogenic/unknown significance were detected from CLCN1 (31 probands), SCN4A (36 probands), or both genes (4 probands), and 11 of them were novel. Pedigrees carrying mono-allelic CLCN1 variants were more commonly seen than that with bi-allelic/double variants (24:7). Compared to patients with CLCN1 variants, patients harboring SCN4A variants showed younger onset age (5.64 ± 4.70 years vs. 9.23 ± 5.21 years), fewer warm-up phenomenon, but more paramyotonia, hyperCKemia, transient muscle weakness, and cold-induced myotonia. Haplotype analysis verified founder effects of the hot spot variants in both CLCN1 (p.T539A) and SCN4A (p.T1313M). This study reveals variants in CLCN1 and SCN4A from 80.7% of our case series, extending genetic spectrum of NDM, and would further our understanding of clinical similarity/diversity between CLCN1- and SCN4A-related NDM, as well as the genetic racial differences.
Topics: Humans; Infant; Child, Preschool; Child; Myotonia; Founder Effect; NAV1.4 Voltage-Gated Sodium Channel; Japan; Chloride Channels; Mutation; Myotonia Congenita
PubMed: 35907044
DOI: 10.1007/s00415-022-11305-6 -
Anasthesiologie, Intensivmedizin,... Jul 2022Myotonia congenita Thomsen is a rare genetic disease caused by mutations in the skeletal muscle chloride channel gene (CLCN1). Although this channelopathy may cause...
Myotonia congenita Thomsen is a rare genetic disease caused by mutations in the skeletal muscle chloride channel gene (CLCN1). Although this channelopathy may cause disabling muscle symptoms, patient's daily routine can be almost inconspicuous. Nevertheless, during illness or acute diseases this neuromuscular disease may worsen and get clinically apparent up to severe rhabdomyolysis. Within this case report we describe and discuss the treatment of a patient with Myotonia congenita Thomsen treated at our hospital's intensive care unit. Rhabdomyolysis with acute renal failure and necessity of dialysis during the ICU stay was attributed to the initial reason for emergency hospitalization - an aortic dissection. Nevertheless, in this case the patient's myotonia caused rhabdomyolysis and initially led us on a wrong path. Diagnosis of the real cause of rhabdomyolysis is often difficult, although an early and adequate therapy may prevent complications. This case report demonstrates the importance of a thorough anamnesis with all aspects of the patient's history.
Topics: Animals; Chloride Channels; Humans; Intensive Care Units; Lizards; Myotonia Congenita; Rhabdomyolysis
PubMed: 35896388
DOI: 10.1055/a-1872-9968 -
Medicine Jul 2022This study aimed to characterize the genetic, pathological, and clinical alterations of 17 patients in China presenting with nondystrophic myotonia (NDM) and to analyze...
BACKGROUND
This study aimed to characterize the genetic, pathological, and clinical alterations of 17 patients in China presenting with nondystrophic myotonia (NDM) and to analyze the relationship between genotype and clinical phenotype.
METHODS
CLCN1 and SCN4A genes in patients with clinical features and muscle pathology indicative of NDM were sequenced. Furthermore, KCNE3 and CACNA1S genes were assessed in patients with wild-type CLCN1 and SCN4A.
RESULTS
Patients may have accompanying atypical myopathy as well as muscle hypertrophy, secondary dystonia, and joint contracture as determined by needle electromyography. All the study participants were administered mexiletine in combination with carbamazepine and showed significant improvements in myotonia symptoms in response to this therapy. CLCN1 gene mutation was detected in 8 cases diagnosed with myotonia congenital using gene screening. The detected mutations included 5 missense, 2 nonsense, 1 deletion, and 2 insertions. Further gene analysis showed 4 mutations in the SCN4A gene in patients diagnosed with paramyotonia congenita.
CONCLUSIONS
Myotonia congenita and paramyotonia congenita are the predominant forms of NDM in China. NDM may be best diagnosed using genetic analysis in associated with clinical features.
Topics: Chloride Channels; Humans; Mutation; Myotonia; Myotonic Disorders; NAV1.4 Voltage-Gated Sodium Channel
PubMed: 35866763
DOI: 10.1097/MD.0000000000029591