Continued research is needed to identify additional genetic and non-genetic risk factors. Therefore, it is also likely that additional as of yet unidentified variants in these or other genes are involved in disease presentation and progression. Recently it was noted that in a European Doberman Pinschers sample set, the DCM1 mutation was not as correlated with disease risk as it is in the original Doberman study cohort.įurther, not all Doberman Pinschers with dilated cardiomyopathy have either of these mutations. Other factors likely explain the incompletely penetrant nature of this disease, and studies to investigate additional genetic and non-genetic risk factors are ongoing. However, since not all dogs with these mutations go on to develop disease, these mutations are thought to be incompletely penetrant. Since a single copy of either mutation can increase risk for disease, this trait is considered a dominant trait. Dogs with both DCM1 and DCM2 have been reported to be at the highest risk for developing disease.Ī single affected copy of either gene is necessary to develop symptoms, but not all dogs with DCM1, DCM2, or both mutations will develop disease. The relative risk for DCM2 has not been determined. The Ig domains function like springs within a muscle fiber, and the variant is predicted to reduce the elastic nature of the protein, negatively impacting cardiac function.įor DCM1 the risk of developing cardiac disease is 7 fold for animals with one or two copies of this variant. The DCM2 variant, which changes an amino acid conserved across mammals, is predicted to alter one of the gene products (protein) immunoglobulin -like (Ig) domains. The second associated variant is a missense mutation in titin gene (TTN, g.22321955C>T, p. Since mitochondria are one the major sites of energy generation within a cell, the resulting negative impact of reduced energy generation within cardiac tissue is hypothesized to result in cardiomyopathy. The DCM1 variant is predicted to alter the mitochondrial PDK4 protein assembly pattern because it eliminates a splice site. Specifically, a deletion of 16 DNA bases in pyruvate dehydrogenase kinase 4 (PDK4 g.20,829,667_20,829,682del), known as DCM1, results in a gene product suspected to cause cardiac issues. Kate Meurs and colleagues at North Carolina State identified mutations in two independent genes that have been associated with dilated cardiomyopathy. In humans, over 60 different genes have been identified that result in inherited cardiomyopathy. Affected dogs can show progressive deterioration leading to death or can be relatively asymptomatic and then die suddenly. This lack of adequate circulation can lead to fluid accumulation in the lungs as well as other parts of the body. In affected dogs, the left ventricle is often dilated, resulting in a progressive thinning of the wall and irregular heartbeat, thus decreasing overall cardiac function and output. Results of this test can be submitted to the OFA (Orthopedic Foundation for Animals)ĭilated cardiomyopathy is an inherited, potentially fatal heart disorder. All puppies produced from matings of dogs with either of these homozygous genotypes are at risk for developing dilated cardiomyopathy. Dogs with DCM1/DCM1 or DCM2/DCM2 genotypes are at risk to develop cardiomyopathy.Dogs heterozygous for both variants, N/DCM1 and N/DCM2, are at greater risk to develop clinical symptoms relative to those with only one variant. If two heterozygotes with the same mutation are mated, approximately 75% of the puppies are at risk of developing disease. Dogs with N/DCM1 or N/DCM2 genotypes are at risk to develop cardiomyopathy.Dogs with N/N genotype do not have either of the known DCM variants.Mode of Inheritance: Autosomal dominant with incomplete penetranceĪlleles: N = Normal, DCM1 = dilated cardiomyopathy 1 variant present, DCM2 = dilated cardiomyopathy 2 variant presentīreeds appropriate for testing: Doberman Pinscher This can lead to congestive heart failure. Phenotype: Dilated cardiomyopathy is a heart condition in which the muscles degenerate, causing the walls of the heart to become thin, resulting in reduced contractibility.
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