Peer-reviewed veterinary case report
Gene activity in blood cells of dogs with heart failure
By Hulanicka, Magdalena et al.·Published in BMC genomics·2014·Department of Physiological Sciences·View original on PubMed →
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Original publication title: The transcriptomic profile of peripheral blood nuclear cells in dogs with heart failure.
- Species:
- dog
Plain-English summary
A group of dogs with heart failure were studied to understand the genetic changes in their blood cells. The researchers found specific genes that were linked to heart failure, with the most significant changes seen in dogs showing early signs of the disease. This suggests that monitoring these genes could help in diagnosing and managing heart problems in dogs. While the study focused on the genetic aspect, it highlights the importance of recognizing heart failure symptoms early for better treatment outcomes.
People also search for: dog heart failure symptoms · early signs of heart disease in dogs · genetic testing for dog heart problems
Abstract
BACKGROUND: In recent years advances have been made in the investigative methods of molecular background of canine heart disease. Studies have been conducted to identify specific genes which, when pathologically expressed, could lead to the dysfunction of the canine heart or are correlated with heart failure. For this purpose genome wide microarray experiments on tissues from failing hearts have been performed. In the presented study a whole genome microarray analysis was used for the first time to describe the transcription profile of peripheral blood nuclear cells in dogs with heart failure. Dogs with recognized heart disease were classified according the ISACHC (International Small Animal Cardiac Health Council) classification scheme as class 1 (asymptomatic)--13 dogs, class 2 (mild to moderate heart failure)--13 dogs and class 3 (severe heart failure)--12 dogs. The control group consisted of 14 healthy dogs. The clinical picture of the animals included: animal history, clinical examination, echocardiographic examination and where applicable electrocardiographic and radiographic examinations. RESULTS: In the present study we identified four sets of differentially expressed genes, namely heart-failure-specific genes and ISACHC1-specific genes, ISACHC2-sepcific genes and ISACHC-3 specific genes. The most important set consisted of genes differentially expressed in all dogs with heart failure, despite the ISACHC stage. We identified 71 heart-failure-specific genes which were involved in two statistically significant receptor signalling pathways, namely angiotensinR - > CREB/ELK-SRF/TP53 signalling and ephrinR - > actin signalling. The number of ISACHC1-specific genes was 83; ISACHC2-specific genes--1247 and ISACHC3-specific--200. CONCLUSIONS: The transcriptomic profile of peripheral blood nuclear cells in dogs with heart failure seems to reflect the presence of clinical signs of the disease in patients based on the observation that the largest number of differentially expressed genes was identified in ISACHC 2 group of patients. This group consists of dogs just starting to show clinical signs of heart failure. A set of genes was also found to have changed expression in all dogs with heart failure, despite the stage of the disease.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/24952741/