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Peer-reviewed veterinary case report

Duchenne-like muscular dystrophy caused by gene mutation in corgis

By Smith, Bruce F et al.·Published in Laboratory investigation; a journal of technical methods and pathology·2011·College of Veterinary Medicine, United States·View original on PubMed

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Original publication title: An intronic LINE-1 element insertion in the dystrophin gene aborts dystrophin expression and results in Duchenne-like muscular dystrophy in the corgi breed.

Species:
dog
Appetite & weightDogs

Plain-English summary

A Pembroke Welsh Corgi puppy was found to have symptoms of Duchenne muscular dystrophy, a serious muscle disease that leads to muscle wasting. The puppy showed signs of growth delay shortly after birth and lacked a protein called dystrophin, which is crucial for muscle health. Researchers discovered a genetic mutation that caused this condition, and they created a breeding colony to study it further. This new model could help in understanding the disease better and developing new treatments for affected dogs.

People also search for: corgi puppy growth delay · Duchenne muscular dystrophy in dogs · dog muscle disease treatment

Abstract

Duchenne muscular dystrophy (DMD) is a dystrophin-deficient lethal muscle disease. To date, the catastrophic muscle wasting phenotype has only been seen in dystrophin-deficient humans and dogs. Although Duchenne-like symptoms have been observed in more than a dozen dog breeds, the mutation is often not known and research colonies are rarely established. Here, we report an independent canine DMD model originally derived from the Pembroke Welsh corgi breed. The affected dogs presented clinical signs of muscular dystrophy. Immunostaining revealed the absence of dystrophin and upregulation of utrophin. Histopathologic examination showed variable fiber size, central nucleation, calcification, fibrosis, neutrophil and macrophage infiltration and cardiac focal vacuolar degeneration. Carrier dogs also displayed mild myopathy. The mutation was identified as a long interspersed repetitive element-1 (LINE-1) insertion in intron 13, which introduced a new exon containing an in-frame stop codon. Similar mutations have been seen in human patients. A colony was generated by crossing carrier females with normal males. Affected puppies had a normal birth weight but they experienced a striking growth delay in the first 5 days. In summary, the new corgi DMD model offers an excellent opportunity to study DMD pathogenesis and to develop novel therapies.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/20714321/