Peer-reviewed veterinary case report
Canine atopic dermatitis genetics and prevention possibilities
By Nuttall, Tim·Published in Veterinary dermatology·2013·The University of Liverpool School of Veterinary Science, United Kingdom·View original on PubMed →
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Original publication title: The genomics revolution: will canine atopic dermatitis be predictable and preventable?
- Species:
- dog
Plain-English summary
A study looked at how genetics might play a role in canine atopic dermatitis (AD), a skin condition that causes itching and inflammation in dogs. Researchers found that multiple genes and environmental factors contribute to this complex condition, which varies between different breeds. While advances in genetic testing could help identify specific genes linked to AD, the results have been inconsistent, making it difficult to predict or prevent the condition through breeding alone. Understanding these genetic factors could lead to better treatment options for affected dogs, but careful use of this information is essential.
Abstract
BACKGROUND: Heritability studies suggest that atopic dermatitis (AD) involves multiple genes and interactions with environmental factors. Advances in genomics have given us powerful techniques to study the genetics of AD. OBJECTIVE: To review the application of these techniques to canine AD. RESULTS: Candidate genes can be studied using quantitative PCR and genomic techniques, but these are hypothesis-dependent techniques and may miss novel genes. Hypothesis-free techniques avoid this limitation. Microarrays quantify expression of large numbers of genes, although false-positive associations are common. In the future, expression profiling could be used to produce a complete tissue transcriptome. Genome-wide linkage studies can detect AD-associated loci if enough affected dogs and unaffected relatives are recruited. Genome-wide association studies can be used to discover AD-associated single nucleotide polymorphisms without relying on related dogs. Genomic studies in dogs have implicated numerous genes in the pathogenesis of AD, including those involved in innate and adaptive immunity, inflammation, cell cycle, apoptosis, skin barrier formation and transcription regulation. These findings, however, have been inconsistent, and problems include low case numbers, inappropriate controls, inconsistent diagnosis, incomplete genome coverage, low-penetrance mutations and environmental factors. CONCLUSIONS: Canine AD has a complex genotype that varies between breeds and gene pools. Breeding programmes to eliminate AD are therefore unlikely to succeed, but this complexity could explain variations in clinical phenotype and response to treatment. Genotyping of affected dogs will identify novel target molecules and enable better targeting of treatment and management options. However, we must avoid misuse of genomic data.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/23331674/