Peer-reviewed veterinary case report
Genetic mutation linked to progressive coordination loss in dogs
By Schwarz, Cleo et al.·Published in Genes·2025·Institute of Genetics·View original on PubMed →
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Original publication title: Missense Variant in Dogs with Cerebellar Ataxia.
- Species:
- dog
Plain-English summary
Two sibling dogs were brought in for problems with coordination, showing signs of progressive cerebellar ataxia, which means they had trouble controlling their movements. An MRI scan revealed brain changes typical of a neurodegenerative disorder. Genetic testing identified a specific mutation linked to their symptoms, suggesting a hereditary condition. Unfortunately, there is no treatment to reverse the effects of this condition, but understanding the genetic cause can help in managing their care and informing future breeding decisions.
People also search for: dog coordination problems · hereditary ataxia in dogs · dog brain disease symptoms
Abstract
Hereditary ataxias are a highly heterogenous group of diseases characterized by loss of coordination. In this study, we investigated a family of random-bred dogs, in which two siblings were affected by a slowly progressive ataxia. They presented with clinical signs of progressive cerebellar ataxia, hypermetria, and absent menace response. The MRI revealed generalized brain atrophy, reduced cortical demarcation, hypoplastic corpus callosum, and cerebellar folia thinning, highly suggestive of a neurodegenerative disorder. We sequenced the genomes of the two affected dogs and their unaffected parents. Filtering for protein-changing variants that had homozygous alternate genotypes in the affected dogs, heterozygous genotypes in the parents, and homozygous reference genotypes in 1576 control genomes yielded a single missense variant in thegene, XM_038534663.1:c.239G>T or XP_038390591.1:p.(Gly80Val). Genotypes at this variant showed the expected co-segregation with the ataxia phenotype in the investigated family. The predicted amino acid affects the conserved RabF4 motif. Glycine-80 resides at the protein surface and the introduction of a hydrophobic isopropyl side chain of the mutant valine might impede solvent accessibility. Another missense variant in RAB24, p.Glu38Pro, was previously reported to cause a clinically similar form of cerebellar ataxia in Gordon Setters and Old English Sheepdogs. Taken together, the available data suggest that RAB24:p.Gly80Val represents the causal variant in the studied dogs. To the best of our knowledge, this is only the second report of a potentially pathogenicvariant in any species and further supports thatshould be considered a candidate gene in human ataxia patients with unclear molecular etiology.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/40869982/