OBJECTIVE: Several patients with previously reported titin gene (TTN) mutations causing tibial muscular dystrophy (TMD) have more complex, severe, or unusual phenotypes. This study aimed to clarify the molecular cause of the variant phenotypes in 8 patients of 7 European families. METHODS: Clinical, histopathological, and muscle imaging data of patients and family members were reanalyzed. The titin protein was analyzed by Western blotting and TTN gene by reverse transcription polymerase chain reaction (RT-PCR) and Sanger sequencing. RESULTS: Western blotting showed more pronounced C-terminal titin abnormality than expected for heterozygous probands, suggesting the existence of additional TTN mutations. RT-PCR indicated unequal mRNA expression of the TTN alleles in biopsies of 6 patients, 3 with an limb-girdle muscular dystrophy type 2J (LGMD2J) phenotype. Novel frameshift mutations were identified in 5 patients. A novel A-band titin mutation, c.92167C>T (p.P30723S), was found in 1 patient, and 1 Portuguese patient with a severe TMD phenotype proved to be homozygous for the previously reported Iberian TMD mutation. INTERPRETATION: The unequal expression levels of TTN transcripts in 5 probands suggested severely reduced expression of the frameshift mutated allele, probably through nonsense-mediated decay, explaining the more severe phenotypes. The Iberian TMD mutation may cause a more severe TMD rather than LGMD2J when homozygous. The Finnish patient compound heterozygous for the FINmaj TMD mutation and the novel A-band titin missense mutation showed a phenotype completely different from previously described titinopathies. Our results further expand the complexity of muscular dystrophies caused by TTN mutations and suggest that the coexistence of second mutations may constitute a more common general mechanism explaining phenotype variability.
OBJECTIVE: Several patients with previously reported titin gene (TTN) mutations causing tibial muscular dystrophy (TMD) have more complex, severe, or unusual phenotypes. This study aimed to clarify the molecular cause of the variant phenotypes in 8 patients of 7 European families. METHODS: Clinical, histopathological, and muscle imaging data of patients and family members were reanalyzed. The titin protein was analyzed by Western blotting and TTN gene by reverse transcription polymerase chain reaction (RT-PCR) and Sanger sequencing. RESULTS: Western blotting showed more pronounced C-terminal titin abnormality than expected for heterozygous probands, suggesting the existence of additional TTN mutations. RT-PCR indicated unequal mRNA expression of the TTN alleles in biopsies of 6 patients, 3 with an limb-girdle muscular dystrophy type 2J (LGMD2J) phenotype. Novel frameshift mutations were identified in 5 patients. A novel A-band titin mutation, c.92167C>T (p.P30723S), was found in 1 patient, and 1 Portuguese patient with a severe TMD phenotype proved to be homozygous for the previously reported Iberian TMD mutation. INTERPRETATION: The unequal expression levels of TTN transcripts in 5 probands suggested severely reduced expression of the frameshift mutated allele, probably through nonsense-mediated decay, explaining the more severe phenotypes. The Iberian TMD mutation may cause a more severe TMD rather than LGMD2J when homozygous. The Finnish patient compound heterozygous for the FINmaj TMD mutation and the novel A-band titin missense mutation showed a phenotype completely different from previously described titinopathies. Our results further expand the complexity of muscular dystrophies caused by TTN mutations and suggest that the coexistence of second mutations may constitute a more common general mechanism explaining phenotype variability.
Authors: Marco Savarese; Lorenzo Maggi; Anna Vihola; Per Harald Jonson; Giorgio Tasca; Lucia Ruggiero; Luca Bello; Francesca Magri; Teresa Giugliano; Annalaura Torella; Anni Evilä; Giuseppina Di Fruscio; Olivier Vanakker; Sara Gibertini; Liliana Vercelli; Alessandra Ruggieri; Carlo Antozzi; Helena Luque; Sandra Janssens; Maria Barbara Pasanisi; Chiara Fiorillo; Monika Raimondi; Manuela Ergoli; Luisa Politano; Claudio Bruno; Anna Rubegni; Marika Pane; Filippo M Santorelli; Carlo Minetti; Corrado Angelini; Jan De Bleecker; Maurizio Moggio; Tiziana Mongini; Giacomo Pietro Comi; Lucio Santoro; Eugenio Mercuri; Elena Pegoraro; Marina Mora; Peter Hackman; Bjarne Udd; Vincenzo Nigro Journal: JAMA Neurol Date: 2018-05-01 Impact factor: 18.302
Authors: Daniela Rossi; Johanna Palmio; Anni Evilä; Lucia Galli; Virginia Barone; Tracy A Caldwell; Rachel A Policke; Esraa Aldkheil; Christopher E Berndsen; Nathan T Wright; Edoardo Malfatti; Guy Brochier; Enrico Pierantozzi; Albena Jordanova; Velina Guergueltcheva; Norma Beatriz Romero; Peter Hackman; Bruno Eymard; Bjarne Udd; Vincenzo Sorrentino Journal: PLoS One Date: 2017-10-26 Impact factor: 3.240