OBJECTIVE: To characterize a kindred with a distinctive autosomal dominant neuromuscular disorder. BACKGROUND: The authors studied a large Italian family affected by a progressive neuromyopathy. Ten individuals over three generations were affected. The disease was characterized by onset from the late teens to early 50s with distal leg weakness and atrophy, development of generalized muscle weakness with distal-to-proximal progression sparing facial and ocular muscles, dysphonia and dysphagia, pes cavus and areflexia, variable clinical expression ranging from subclinical myopathy to severely disabling weakness, and mixed neurogenic and myopathic abnormalities on electromyography. METHODS: Morphologic, immunocytochemical, and ultrastructural studies were performed in muscle biopsies from three affected patients. A genomewide linkage analysis through the genotyping of 292 microsatellite markers spanning the 22 autosomes was undertaken to map the disorder segregating in this family. RESULTS: All muscle biopsies showed variation of fiber size, panesterase-positive angular fibers, mild to severe fibrosis, and numerous "rimmed vacuoles." Electron microscopy failed to demonstrate the nuclear or cytoplasmic filamentous inclusions specific of inclusion-body myopathies and, accordingly, immunohistochemistry did not show any positivity with SMI-31 antibodies detecting hyperphosphorylated tau. Preliminary analysis of 292 microsatellite markers provided evidence for linkage to chromosome 19p13. CONCLUSIONS: This distinctive autosomal dominant disorder is characterized by a vacuolar neuromyopathy. Localization to chromosome 19p13 will allow the genetic relationship between this disease and inherited myopathies with rimmed vacuoles, in particular autosomal dominant inclusion-body myopathies, to be defined.
OBJECTIVE: To characterize a kindred with a distinctive autosomal dominant neuromuscular disorder. BACKGROUND: The authors studied a large Italian family affected by a progressive neuromyopathy. Ten individuals over three generations were affected. The disease was characterized by onset from the late teens to early 50s with distal leg weakness and atrophy, development of generalized muscle weakness with distal-to-proximal progression sparing facial and ocular muscles, dysphonia and dysphagia, pes cavus and areflexia, variable clinical expression ranging from subclinical myopathy to severely disabling weakness, and mixed neurogenic and myopathic abnormalities on electromyography. METHODS: Morphologic, immunocytochemical, and ultrastructural studies were performed in muscle biopsies from three affected patients. A genomewide linkage analysis through the genotyping of 292 microsatellite markers spanning the 22 autosomes was undertaken to map the disorder segregating in this family. RESULTS: All muscle biopsies showed variation of fiber size, panesterase-positive angular fibers, mild to severe fibrosis, and numerous "rimmed vacuoles." Electron microscopy failed to demonstrate the nuclear or cytoplasmic filamentous inclusions specific of inclusion-body myopathies and, accordingly, immunohistochemistry did not show any positivity with SMI-31 antibodies detecting hyperphosphorylated tau. Preliminary analysis of 292 microsatellite markers provided evidence for linkage to chromosome 19p13. CONCLUSIONS: This distinctive autosomal dominant disorder is characterized by a vacuolar neuromyopathy. Localization to chromosome 19p13 will allow the genetic relationship between this disease and inherited myopathies with rimmed vacuoles, in particular autosomal dominant inclusion-body myopathies, to be defined.
Authors: Sebahattin Cirak; Florian von Deimling; Shrikesh Sachdev; Wesley J Errington; Ralf Herrmann; Carsten Bönnemann; Knut Brockmann; Stephan Hinderlich; Tom H Lindner; Alice Steinbrecher; Katrin Hoffmann; Gilbert G Privé; Mark Hannink; Peter Nürnberg; Thomas Voit Journal: Brain Date: 2010-06-16 Impact factor: 13.501
Authors: Alessandra Ruggieri; Francesco Brancati; Simona Zanotti; Lorenzo Maggi; Maria Barbara Pasanisi; Simona Saredi; Chiara Terracciano; Carlo Antozzi; Maria Rosaria D Apice; Federica Sangiuolo; Giuseppe Novelli; Christian R Marshall; Stephen W Scherer; Lucia Morandi; Luca Federici; Roberto Massa; Marina Mora; Berge A Minassian Journal: Acta Neuropathol Commun Date: 2015-07-25 Impact factor: 7.801
Authors: Alessandra Ruggieri; Simona Saredi; Simona Zanotti; Maria Barbara Pasanisi; Lorenzo Maggi; Marina Mora Journal: Front Mol Biosci Date: 2016-09-30
Authors: Marco Savarese; Jaakko Sarparanta; Anna Vihola; Per Harald Jonson; Mridul Johari; Salla Rusanen; Peter Hackman; Bjarne Udd Journal: Acta Myol Date: 2020-12-01