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Peer-reviewed veterinary case report

Genetic Mutation Linked to Neuroaxonal Dystrophy in Papillon Dogs

By Tsuboi, Masaya et al.·Published in PloS one·2017·Graduate School of Agricultural and Life Sciences, Japan·View original on PubMed

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Original publication title: Identification of the PLA2G6 c.1579G>A Missense Mutation in Papillon Dog Neuroaxonal Dystrophy Using Whole Exome Sequencing Analysis.

Species:
dog
Brain & nervesDogs

Plain-English summary

A Papillon dog with neuroaxonal dystrophy (NAD), a serious nerve disease, was studied to find the genetic cause of her condition. Researchers used advanced DNA sequencing to analyze samples from the affected dog and her family, discovering a specific mutation (PLA2G6 c.1579G>A) linked to the disease. This mutation could help explain why some Papillons develop NAD, which causes severe nerve damage. Understanding this genetic link may also help in studying similar conditions in humans.

People also search for: Papillon dog neuroaxonal dystrophy symptoms · genetic testing for Papillon dogs · dog nerve disease treatment

Abstract

Whole exome sequencing (WES) has become a common tool for identifying genetic causes of human inherited disorders, and it has also recently been applied to canine genome research. We conducted WES analysis of neuroaxonal dystrophy (NAD), a neurodegenerative disease that sporadically occurs worldwide in Papillon dogs. The disease is considered an autosomal recessive monogenic disease, which is histopathologically characterized by severe axonal swelling, known as "spheroids," throughout the nervous system. By sequencing all eleven DNA samples from one NAD-affected Papillon dog and her parents, two unrelated NAD-affected Papillon dogs, and six unaffected control Papillon dogs, we identified 10 candidate mutations. Among them, three candidates were determined to be "deleterious" by in silico pathogenesis evaluation. By subsequent massive screening by TaqMan genotyping analysis, only the PLA2G6 c.1579G>A mutation had an association with the presence or absence of the disease, suggesting that it may be a causal mutation of canine NAD. As a human homologue of this gene is a causative gene for infantile neuroaxonal dystrophy, this canine phenotype may serve as a good animal model for human disease. The results of this study also indicate that WES analysis is a powerful tool for exploring canine hereditary diseases, especially in rare monogenic hereditary diseases.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/28107443/