Peer-reviewed veterinary case report
Heart muscle gene mutation linked to Maine Coon cat heart disease
By Meurs, Kathryn M et al.·Published in Human molecular genetics·2005·Department of Veterinary Clinical Sciences, United States·View original on PubMed →
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Original publication title: A cardiac myosin binding protein C mutation in the Maine Coon cat with familial hypertrophic cardiomyopathy.
- Species:
- cat
Plain-English summary
A Maine Coon cat was found to have a genetic mutation linked to hypertrophic cardiomyopathy (HCM), a heart condition that can lead to sudden cardiac death. Researchers discovered a specific change in the MYBPC3 gene that affects the heart muscle's structure, causing it to thicken and function poorly. This mutation is significant because it helps explain why some cats develop HCM, especially in families with a history of the disease. Understanding this mutation could lead to better treatments for affected cats in the future.
People also search for: Maine Coon cat heart disease · hypertrophic cardiomyopathy in cats · cat MYBPC3 gene mutation
Abstract
Hypertrophic cardiomyopathy (HCM) is one of the most common causes of sudden cardiac death in young adults and is a familial disease in at least 60% of cases. Causative mutations have been identified in several sarcomeric genes, including the myosin binding protein C (MYBPC3) gene. Although numerous causative mutations have been identified, the pathogenetic process is still poorly understood. A large animal model of familial HCM in the cat has been identified and may be used for additional study. As the first spontaneous large animal model of this familial disease, feline familial HCM provides a valuable model for investigators to evaluate pathophysiologic processes and therapeutic (pharmacologic or genetic) manipulations. The MYBPC3 gene was chosen as a candidate gene in this model after identifying a reduction in the protein in myocardium from affected cats in comparison to control cats (P<0.001). DNA sequencing was performed and sequence alterations were evaluated for evidence that they changed the amino acid produced, that the amino acid was conserved and that the protein structure was altered. We identified a single base pair change (G to C) in the feline MYBPC3 gene in affected cats that computationally alters the protein conformation of this gene and results in sarcomeric disorganization. We have identified a causative mutation in the feline MYBPC3 gene that results in the development of familial HCM. This is the first report of a spontaneous mutation causing HCM in a non-human species. It should provide a valuable model for evaluating pathophysiologic processes and therapeutic manipulations.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/16236761/