Desmin splice variants causing cardiac and skeletal myopathy

KY Park, MC Dalakas, HH Goebel… - Journal of medical …, 2000 - jmg.bmj.com
KY Park, MC Dalakas, HH Goebel, VJ Ferrans, C Semino-Mora, S Litvak, K Takeda…
Journal of medical genetics, 2000jmg.bmj.com
Desmin myopathy is a hereditary or sporadic cardiac and skeletal myopathy characterised
by intracytoplasmic accumulation of desmin reactive deposits in muscle cells. We have
characterised novel splice site mutations in the gene desmin resulting in deletion of the
entire exon 3 during the pre-mRNA splicing. Sequencing of cDNA and genomic DNA
identified a heterozygous de novo A to G change at the+ 3 position of the splice donor site of
intron 3 (IVS3+ 3A→ G) in a patient with sporadic skeletal and cardiac myopathy. AG to A …
Desmin myopathy is a hereditary or sporadic cardiac and skeletal myopathy characterised by intracytoplasmic accumulation of desmin reactive deposits in muscle cells. We have characterised novel splice site mutations in the gene desminresulting in deletion of the entire exon 3 during the pre-mRNA splicing. Sequencing of cDNA and genomic DNA identified a heterozygous de novo A to G change at the +3 position of the splice donor site of intron 3 (IVS3+3A→G) in a patient with sporadic skeletal and cardiac myopathy. A G to A transition at the highly conserved –1 nucleotide position of intron 2 affecting the splice acceptor site (IVS2-1G→A) was found in an unrelated patient with a similar phenotype. Expression of genomic DNA fragments carrying the IVS3+3A→G and IVS2-1G→A mutations confirmed that these mutations cause exon 3 deletion. Aberrant splicing leads to an in frame deletion of 32 complete codons and is predicted to result in mutant desmin lacking 32 amino acids from the 1B segment of the alpha helical rod. Functional analysis of the mutant desmin in SW13 (vim-) cells showed aggregation of abnormal coarse clumps of desmin positive material dispersed throughout the cytoplasm. This is the first report on the pathogenic potentials of splice site mutations in the desmingene.
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