Peer-reviewed veterinary case report
How mitral valve disease develops in dogs through cell changes
By Lu, Chi-Chien et al.·Published in Veterinary journal (London, England : 1997)·2015·Royal (Dick) School of Veterinary Studies and The Roslin Institute, United Kingdom·View original on PubMed →
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Original publication title: Developmental pathways and endothelial to mesenchymal transition in canine myxomatous mitral valve disease.
- Species:
- dog
Plain-English summary
A study found that dogs with myxomatous mitral valve disease (MMVD), a common heart problem, show changes in certain genes linked to heart valve development and inflammation. This means that the disease might involve processes similar to those seen in other chronic conditions. The researchers used advanced techniques to analyze gene expression and found significant changes that could help explain how MMVD develops in dogs. Understanding these mechanisms could lead to better treatments for affected dogs.
People also search for: dog heart disease symptoms · myxomatous mitral valve disease treatment · canine heart problems gene expression
Abstract
Epithelial to mesenchymal transition (EMT) and the cardiovascular equivalent, endothelial to mesenchymal transition (EndoMT), contribute to a range of chronic degenerative diseases and cancer metastasis. Chronic valvulopathies exhibit some features of EndoMT and activation of developmental signalling pathways, such as osteogenesis and chondrogenesis, expression of cell differentiation markers, basement membrane damage and endothelial transformation. The aim of the present study was to investigate the potential role of developmental mechanisms in canine myxomatous mitral valve disease (MMVD) using a combination of transcriptomic array technology, RT-PCR and immunohistochemistry. There was significant differential expression for genes typically associated with valvulogenesis and EndoMT, including markers of inflammation (IL6, IL18 and TLR4), basement membrane disarray (NID1, LAMA2 and CTSS), mesenchymal and endothelial cell differentiation (MYH11 and TAGLN) and EndoMT (ACTA2, SNAI1, CTNNB1, HAS2, CDH5, and NOTCH1), with fold changes from +15.35 (ACTA2) to -5.52 (LAMA2). These changes in gene expression were confirmed using RT-PCR, except for HAS2. In silico analysis identified important gene networks and canonical pathways in MMVD that have associations with development and organogenesis, including inflammation, valve morphogenesis and EMT, as well as components of the basement membrane and extra-cellular matrix. Immunohistochemistry identified changes in the expression of hyaluronic acid synthase (Has2), Snai1, α-smooth muscle actin (α-SMA) and VE-cadherin (CDH5), and co-expression of Has2 with α-SMA. These research findings strongly suggest involvement of developmental signalling pathways and mechanisms, including EndoMT, in the pathogenesis of canine MMVD.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/26586213/