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1.
Brain ; 142(6): 1547-1560, 2019 06 01.
Article in English | MEDLINE | ID: mdl-31081514

ABSTRACT

Next generation sequencing techniques were recently used to show mutations in COL13A1 cause synaptic basal lamina-associated congenital myasthenic syndrome type 19. Animal studies showed COL13A1, a synaptic extracellular-matrix protein, is involved in the formation and maintenance of the neuromuscular synapse that appears independent of the Agrin-LRP4-MuSK-DOK7 acetylcholine receptor clustering pathway. Here, we report the phenotypic spectrum of 16 patients from 11 kinships harbouring homozygous or heteroallelic mutations in COL13A1. Clinical presentation was mostly at birth with hypotonia and breathing and feeding difficulties often requiring ventilation and artificial feeding. Respiratory crisis related to recurrent apnoeas, sometimes triggered by chest infections, were common early in life but resolved over time. The predominant pattern of muscle weakness included bilateral ptosis (non-fatigable in adulthood), myopathic facies and marked axial weakness, especially of neck flexion, while limb muscles were less involved. Other features included facial dysmorphism, skeletal abnormalities and mild learning difficulties. All patients tested had results consistent with abnormal neuromuscular transmission. Muscle biopsies were within normal limits or showed non-specific changes. Muscle MRI and serum creatine kinase levels were normal. In keeping with COL13A1 mutations affecting both synaptic structure and presynaptic function, treatment with 3,4-diaminopyridine and salbutamol resulted in motor and respiratory function improvement. In non-treated cases, disease severity and muscle strength improved gradually over time and several adults recovered normal muscle strength in the limbs. In summary, patients with COL13A1 mutations present mostly with severe early-onset myasthenic syndrome with feeding and breathing difficulties. Axial weakness is greater than limb weakness. Disease course improves gradually over time, which could be consistent with the less prominent role of COL13A1 once the neuromuscular junction is mature. This report emphasizes the role of collagens at the human muscle endplate and should facilitate the recognition of this disorder, which can benefit from pharmacological treatment.


Subject(s)
Collagen Type XIII/genetics , Muscle Proteins/genetics , Myasthenic Syndromes, Congenital/genetics , Neuromuscular Junction/metabolism , Synaptic Transmission/genetics , Adolescent , Adult , Child , Female , Homozygote , Humans , Male , Muscle, Skeletal/pathology , Mutation/genetics , Myasthenic Syndromes, Congenital/diagnosis , Neuromuscular Junction/genetics , Synapses/genetics , Young Adult
2.
Hum Mutat ; 35(7): 779-90, 2014 Jul.
Article in English | MEDLINE | ID: mdl-24692096

ABSTRACT

Mutations affecting skeletal muscle isoforms of the tropomyosin genes may cause nemaline myopathy, cap myopathy, core-rod myopathy, congenital fiber-type disproportion, distal arthrogryposes, and Escobar syndrome. We correlate the clinical picture of these diseases with novel (19) and previously reported (31) mutations of the TPM2 and TPM3 genes. Included are altogether 93 families: 53 with TPM2 mutations and 40 with TPM3 mutations. Thirty distinct pathogenic variants of TPM2 and 20 of TPM3 have been published or listed in the Leiden Open Variant Database (http://www.dmd.nl/). Most are heterozygous changes associated with autosomal-dominant disease. Patients with TPM2 mutations tended to present with milder symptoms than those with TPM3 mutations, DA being present only in the TPM2 group. Previous studies have shown that five of the mutations in TPM2 and one in TPM3 cause increased Ca(2+) sensitivity resulting in a hypercontractile molecular phenotype. Patients with hypercontractile phenotype more often had contractures of the limb joints (18/19) and jaw (6/19) than those with nonhypercontractile ones (2/22 and 1/22), whereas patients with the non-hypercontractile molecular phenotype more often (19/22) had axial contractures than the hypercontractile group (7/19). Our in silico predictions show that most mutations affect tropomyosin-actin association or tropomyosin head-to-tail binding.


Subject(s)
Genetic Association Studies , Muscular Diseases/congenital , Muscular Diseases/genetics , Mutation , Tropomyosin/genetics , Actins/metabolism , Adolescent , Adult , Amino Acid Sequence , Child , Child, Preschool , Databases, Genetic , Female , Humans , Infant , Male , Molecular Sequence Data , Muscle, Skeletal/metabolism , Muscle, Skeletal/pathology , Muscular Diseases/diagnosis , Phenotype , Phosphorylation , Protein Binding , Sequence Alignment , Tropomyosin/chemistry , Tropomyosin/metabolism , Young Adult
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