Titin copy number variations associated with dominant inherited phenotypes

Perrin, Aurélien; Métay, Corinne; Savarese, Marco; Ben Yaou, Rabah; Demidov, German; Nelson, Isabelle; Solé, Guilhem; Péréon, Yann; Bertini, Enrico Silvio; Fattori, Fabiana; D'Amico, Adele; Ricci, Federica; Ginsberg, Mira; Seferian, Andreea; Boespflug-Tanguy, Odile; Servais, Laurent; Chapon, Françoise; Lagrange, Emmeline; Gaudon, Karen; Bloch, Adrien; Ghanem, Robin; Guyant-Maréchal, Lucie; Johari, Mridul; Van Goethem, Charles; Fardeau, Michel; Morales, Raul Juntas; Genetti, Casie A; Marttila, Minttu; Koenig, Michel; Beggs, Alan H; Udd, Bjarne; Bonne, Gisèle; Cossée, Mireille

doi:10.1136/jmg-2023-109473

J Med Genet

2023

DOI: 10.1136/jmg-2023-109473

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Titin copy number variations associated with dominant inherited phenotypes

Aurélien Perrin,

Corinne Métay,

Marco Savarese

et al.

Abstract: BackgroundTitinopathies are caused by mutations in the titin gene (TTN). Titin is the largest known human protein; its gene has the longest coding phase with 364 exons. Titinopathies are very complex neuromuscular pathologies due to the variable age of onset of symptoms, the great diversity of pathological and muscular impairment patterns (cardiac, skeletal muscle or mixed) and both autosomal dominant and recessive modes of transmission. Until now, only few CNVs inTTNhave been reported without clear genotype–p… Show more

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2024

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Pathomechanisms of Monoallelic variants in TTN causing skeletal muscle disease

Gohlke,

Lindqvist,

Hourani

et al. 2024

Human Molecular Genetics

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Pathogenic variants in the titin gene (TTN) are known to cause a wide range of cardiac and musculoskeletal disorders, with skeletal myopathy mostly attributed to biallelic variants. We identified monoallelic truncating variants (TTNtv), splice site or internal deletions in TTN in probands with mild, progressive axial and proximal weakness, with dilated cardiomyopathy frequently developing with age. These variants segregated in an autosomal dominant pattern in 7 out of 8 studied families. We investigated the impact of these variants on mRNA, protein levels, and skeletal muscle structure and function. Results reveal that nonsense-mediated decay likely prevents accumulation of harmful truncated protein in skeletal muscle in patients with TTNtvs. Splice variants and an out-of-frame deletion induce aberrant exon skipping, while an in-frame deletion produces shortened titin with intact N- and C-termini, resulting in disrupted sarcomeric structure. All variant types were associated with genome-wide changes in splicing patterns, which represent a hallmark of disease progression. Lastly, RNA-seq studies revealed that GDF11, a member of the TGF-β superfamily, is upregulated in diseased tissue, indicating that it might be a useful therapeutic target in skeletal muscle titinopathies.

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Pathomechanisms of Monoallelic variants in TTN causing skeletal muscle disease

Gohlke,

Lindqvist,

Hourani

et al. 2024

Human Molecular Genetics

View full text Add to dashboard Cite

show abstract

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Titin copy number variations associated with dominant inherited phenotypes

Cited by 1 publication

References 39 publications

Pathomechanisms of Monoallelic variants in TTN causing skeletal muscle disease

Pathomechanisms of Monoallelic variants in TTN causing skeletal muscle disease

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