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Influence of the epicardium on cardiac regeneration after cryoinjury during embryonic development - analysis of morphological and physiological changes
Neffeová, Kristýna ; Kolesová, Hana (advisor) ; Hovořáková, Mária (referee)
Millions of people die from myocardial infarction every year. In the heart, damaged cardiomyocytes do not regenerate and fibrotic scar forms. Surface layer of the heart - epicardium, improve heart regeneration processes by producing signalling factors. Epicardial cells undergo epithelial-mesenchymal transition and give rise to various cells involved in heart regeneration (coronary vessel formation and possibly new cardiomyocytes). To study the effect of epicardium on cardiac regeneration, I introduced a novel method of myocardial cryoinjury in avian embryos. In embryonic stages, where the heart is already covered by a layer of epicardium. Probe cooled in liquid nitrogen, injured the left ventricle of the heart and simulate myocardial infarction. Cryoinjury is an appropriate alternative to induce myocardial infarction as the coronary ligation is not feasible in early embryos. After cryoinjury, were observed changes in the epicardium. Epicardium is activated (expression of WT1) and detached from myocardium and form protrusions. In subepicardium we observed a large number of migrating cells. These cells undergo epithelial-mesenchymal transition were detected by cytokeratin and vimentin antibodies. We observed α-SMA positive cells and undifferentiated cardiomyocytes (N2.261 antibody) in the...
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Molecular mechanisms of coronary vasculature development
Neffeová, Kristýna ; Kolesová, Hana (advisor) ; Neckář, Jan (referee)
The cardiovascular system is the first functional system that develops in vertebrates during embryonic development. Its irreplaceable function is the transport of nutrients and the removal of waste products. During the development the heart not only grows, but also acts as a pump that drives the blood circulation of the embryo. With advancing development, it is necessary to ensure an adequate supply of oxygen to the heart, for that reason coronary arteries are formed. Each cardiomyocyte is surrounded by at least one capillary, therefore the interaction between cardiomyocytes and endothelial cells plays an indispensable role in the proper functioning of the heart. Understanding, how cardiomyocytes and endothelial cells communicate, is essential for medical research in cardiac tissue regeneration. A number of factors involved in coronary development are described in the literature. However, these factors are described as separate signaling pathways, not as a system of mutually interacting mechanisms. The main goal of my bachelor thesis is to connect individual signaling cascades important in cardiomyocyte-endothelial cell communication and describe their interactions. The main factors overviewed are VEGF, Notch, PDGF, Angiopoietin and others. Factors function and signalization is reviewed in details....
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