Peer-reviewed veterinary case report
Cerebellar degeneration linked to SNX14 gene mutation in Hungarian
By Fenn, Joe et al.·Published in BMC genetics·2016·Department of Clinical Science and Services, United Kingdom·View original on PubMed →
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Original publication title: Genome sequencing reveals a splice donor site mutation in the SNX14 gene associated with a novel cerebellar cortical degeneration in the Hungarian Vizsla dog breed.
- Species:
- dog
Plain-English summary
Two Hungarian Vizsla puppies, both siblings, were brought to the vet because they were showing signs of progressive ataxia, which is a lack of coordination, starting around three months old. They had trouble walking, swayed when standing, and showed tremors, with one puppy also having eye movement issues. Unfortunately, after diagnostic tests and an MRI suggested cerebellar atrophy, the owners chose to euthanize both puppies shortly after their symptoms began. A detailed examination revealed significant neuron loss in the brain, and genetic testing identified a mutation in the SNX14 gene that is linked to this condition. This is the first known case of cerebellar cortical degeneration in Hungarian Vizslas.
People also search for: Hungarian Vizsla ataxia symptoms · puppy cerebellar degeneration · SNX14 gene mutation in dogs
Abstract
BACKGROUND: Cerebellar cortical degeneration (CCD) is an increasingly recognised neurodegenerative disease process affecting many dog breeds. Typical presentation consists of a progressive cerebellar ataxia, with a variable age at onset and rate of progression between different breeds. Cerebellar histopathological findings typically consist of primary Purkinje neuronal degeneration and loss, with variable secondary depletion of the granular and molecular cell layers. Causative genes have been identified associated with CCD in several breeds, allowing screening for selective breeding to reduce the prevalence of these conditions. There have been no previous reports of CCD in Hungarian Vizslas. RESULTS: Two full-sibling Hungarian Vizsla puppies from a litter of nine presented with a history of progressive ataxia, starting around three months of age. Clinical signs included marked hypermetric and dysmetric ataxia, truncal sway, intention tremors and absent menace responses, with positional horizontal nystagmus in one dog. Routine diagnostic investigations were unremarkable, and magnetic resonance imaging performed in one dog revealed mild craniodorsal cerebellar sulci widening, supportive of cerebellar atrophy. Owners of both dogs elected for euthanasia shortly after the onset of signs. Histopathological examination revealed primary Purkinje neuron loss consistent with CCD. Whole genome sequencing was used to successfully identify a disease-associated splice donor site variant in the sorting nexin 14 gene (SNX14) as a strong causative candidate. An altered SNX14 splicing pattern for a CCD case was demonstrated by RNA analysis, and no SNX14 protein could be detected in CCD case cerebellum by western blotting. SNX14 is involved in maintaining normal neuronal excitability and synaptic transmission, and a mutation has recently been found to cause autosomal recessive cerebellar ataxia and intellectual disability syndrome in humans. Genetic screening of 133 unaffected Hungarian Vizslas revealed the presence of three heterozygotes, supporting the presence of carriers in the wider population. CONCLUSIONS: This is the first report of CCD in Hungarian Vizsla dogs and identifies a highly associated splice donor site mutation in SNX14, with an autosomal recessive mode of inheritance suspected.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/27566131/