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Peer-reviewed veterinary case report

Gene deletion causes brain shrinkage and uncoordinated movement

By Christen, Matthias et al.·Published in PLoS genetics·2021·Institute of Genetics·View original on PubMed

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Original publication title: Deletion of the SELENOP gene leads to CNS atrophy with cerebellar ataxia in dogs.

Species:
dog
Movement & jointsDogs

Plain-English summary

A group of Belgian Shepherd puppies developed uncoordinated movements and tremors starting at just two weeks old. This condition, known as cerebellar ataxia, was linked to a genetic deletion that affects selenium transport in the brain, leading to brain atrophy. Blood tests showed that the affected puppies had significantly lower selenium levels compared to their healthy siblings. While one affected dog lived to be 10 years old, the severe symptoms in the puppies highlight the serious impact of this genetic issue. Unfortunately, there is no specific treatment mentioned for this condition, but understanding it may help in managing similar cases in the future.

People also search for: Belgian Shepherd puppy uncoordinated movements · cerebellar ataxia in dogs · selenium deficiency in dogs

Abstract

We investigated a hereditary cerebellar ataxia in Belgian Shepherd dogs. Affected dogs developed uncoordinated movements and intention tremor at two weeks of age. The severity of clinical signs was highly variable. Histopathology demonstrated atrophy of the CNS, particularly in the cerebellum. Combined linkage and homozygosity mapping in a family with four affected puppies delineated a 52 Mb critical interval. The comparison of whole genome sequence data of one affected dog to 735 control genomes revealed a private homozygous structural variant in the critical interval, Chr4:66,946,539_66,963,863del17,325. This deletion includes the entire protein coding sequence of SELENOP and is predicted to result in complete absence of the encoded selenoprotein P required for selenium transport into the CNS. Genotypes at the deletion showed the expected co-segregation with the phenotype in the investigated family. Total selenium levels in the blood of homozygous mutant puppies of the investigated litter were reduced to about 30% of the value of a homozygous wildtype littermate. Genotyping >600 Belgian Shepherd dogs revealed an additional homozygous mutant dog. This dog also suffered from pronounced ataxia, but reached an age of 10 years. Selenop-/- knock-out mice were reported to develop ataxia, but their histopathological changes were less severe than in the investigated dogs. Our results demonstrate that deletion of the SELENOP gene in dogs cause a defect in selenium transport associated with CNS atrophy and cerebellar ataxia (CACA). The affected dogs represent a valuable spontaneous animal model to gain further insights into the pathophysiological consequences of CNS selenium deficiency.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/34339417/