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Peer-reviewed veterinary case report

Genetic mutations linked to Ehlers-Danlos syndrome in dogs

By Bauer, Anina et al.·Published in Genes·2019·Institute of Genetics·View original on PubMed

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Original publication title: Identification of Two IndependentVariants in Dogs with Ehlers-Danlos Syndrome.

Species:
dog
Movement & jointsDogs

Plain-English summary

A 5-year-old mixed-breed dog was brought in with skin that was unusually stretchy and fragile, along with loose joints, which suggested Ehlers-Danlos Syndrome (EDS). Genetic testing revealed two different mutations linked to this condition, confirming the diagnosis. Although the dog did not have a sample for further testing, the findings indicated issues with collagen, a protein that helps keep skin and joints strong. This case highlights how DNA testing can help veterinarians accurately diagnose EDS in dogs, which can be challenging due to the lack of known genetic markers.

People also search for: dog skin problems stretchy skin · Ehlers-Danlos Syndrome in dogs · dog joint hypermobility treatment

Abstract

The Ehlers-Danlos syndromes (EDS) are a heterogeneous group of heritable disorders affecting connective tissues. The mutations causing the various forms of EDS in humans are well characterized, but the genetic mutations causing EDS-like clinical pathology in dogs are not known, thus hampering accurate clinical diagnosis. Clinical analysis of two independent cases of skin hyperextensibility and fragility, one with pronounced joint hypermobility was suggestive of EDS. Whole-genome sequencing revealed de novo mutations ofin both cases, confirming the diagnosis of the classical form of EDS. The heterozygousp.Gly1013ValfsTer260 mutation characterized in case 1 introduced a premature termination codon and would be expected to result in α1(V) mRNA nonsense-mediated mRNA decay and collagen V haploinsufficiency. While mRNA was not available from this dog, ultrastructural analysis of the dermis demonstrated variability in collagen fibril diameter and the presence of collagen aggregates, termed 'collagen cauliflowers', consistent withmutations underlying classical EDS. In the second case, DNA sequencing demonstrated a p.Gly1571Arg missense variant in thegene. While samples were not available for further analysis, such a glycine substitution would be expected to destabilize the strict molecular structure of the collagen V triple helix and thus affect protein stability and/or integration of the mutant collagen into the collagen V/collagen I heterotypic dermal fibrils. This is the first report of genetic variants in thegene causing the clinical presentation of EDS in dogs. These data provided further evidence of the important role of collagen V in dermal collagen fibrillogenesis. Importantly, from the clinical perspective, we showed the utility of DNA sequencing, combined with the established clinical criteria, in the accurate diagnosis of EDS in dogs.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/31546637/