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Intestinal cancer and mouse models of the disease
Baloghová, Nikol ; Janečková, Lucie (advisor) ; Gemperle, Jakub (referee)
Intestinal cancer is a serious and common disease. To understand the mechanisms of its development, it is important to know the structure of the intestinal epithelium, as well as the signalling pathways that maintain the homeostasis and regulate cell proliferation and differentiation. Development of the intestinal cancer is a multistep process in which many molecular events underlie initiation and progression of the disease. Transgenic mice produced by genetic engineering are essential tools in both research of the intestinal cancer initiation and progression and possible treatment strategies. The aim of this work is to describe the intestinal anatomy and the renewal of the intestinal epithelium including the role of multiple signalling pathways, to summarize the most common mutations conditioning human colorectal carcinoma development and to define the existing mouse models of the disease.
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Mesenchymal stem cells for treatment of spinal cord injury
Dubišová, Jana ; Kubinová, Šárka (advisor) ; Hock, Miroslav (referee)
Poranenie miechy a jeho terapia pomocou mezenchymálnych kmeňových buniek Abstract Patients with serious spinal cord injury (SCI) have a little chance of a full return to their original life. This kind of injuries leaves lifelong consequences as on the patients themselves, as well as their surroundings and family. Considerable financial resources are, worldwide, granted for reintegratation of these patients into society. This work focuses on the description of spinal cord injury, its complexity and the possibility of treatment by new therapeutic methods of mesenchymal cells. The first section discusses the severity of spinal cord injury and its pathophysiology with the performance of subsequent clinical phases. The second part is dedicated to new treatment methods and approaches, with an emphasis on cell therapy. The third part presents treatment method using mesenchymal stem cells (MSCs), which immunomodulatory and anti-inflammatory properties, such as their ability to migration to the injured area and the possibility of genetic modification, made them a great candidates for the treatment of serious injuries. Keywords Spinal cord injury, stem cells, mesenchymal stem cells, cell therapy, regenerative medicine
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Nanotechnology and biomaterials for application in cell therapy of spinal cord injury
Vaněček, Václav ; Syková, Eva (advisor) ; Smetana, Karel (referee) ; Haninec, Pavel (referee)
New approaches for the treatment of SCI use advances in the fields of nanotechnology, biomaterial science and cell therapy. The results presented in this thesis showed that superparamagnetic iron oxide nanoparticles coated with a stable dopamine-hyaluronane associate can be used for the safe and effective labeling of MSC. Cell labeling efficiency, viability and the relaxivity of the tested particles were significantly better than those obtained with the commercial particles Endorem®. The DPA-HA coated nanoparticles can be used for the noninvasive monitoring of cell therapy using MRI. Furthermore, we showed that SPION can be used for the targeted delivery of MSC to the site of a spinal cord lesion. The labeled cells can be concentrated in the lesion area by means of a magnetic implant. The process of cell targeting depends on the physical characteristics of the magnetic implant as well as on the biological features of the cells and nanoparticles, as we described with a proposed mathematical model. It is possible to modify the properties of the magnetic system, e.g. by changing the shape or size of the magnet, thus tuning the magnetic force distribution and the gradient of the magnetic field necessary for effective cell targeting. A promising therapeutic strategy for the treatment of spinal cord injury is the...
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Odpověď metastatických buněčných linií karcinomu prostaty na genotoxický stres
Imrichová, Terezie ; Hodný, Zdeněk (advisor) ; Rösel, Daniel (referee)
Prostate cancer is the fourth most frequent cause of cancer-related deaths in men worldwide. One of current successful approaches to treat prostate cancer is radical prostatectomy followed by radiotherapy. However, this treatment is not 100% successful, as 53% patients develop secondary tumors. Our hypothesis is, that ionizing radiation itself contributes to the development of metastases by inducing changes in cell phenotype, particularly in terms of epithelial-to-mesenchymal transition and stemness. To test this hypothesis, we irradiated the cells of metastatic prostate cancer cell line DU145 by fractionated radiation 2 x 10 Gy and we compared the expression of selected epithelial, mesenchymal and stem-cell markers prior to and after irradiation. Besides we focused on a subpopulation of so called floating cells which arise during irradiation. These cells can survive the radiation treatment and after some time they are able to reattach and give rise to readherent population. We wanted to asses what is the cell cycle profile of these cells and whether and how fast they proliferate. In this thesis we have shown that radiation causes only minor changes in epithelial/mesenchymal and stem-like character of adherent fraction of the DU145 cell line. However, we have also described that small population of...
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Targeted differentiation of mesenchymal stem cells and their clinical application
Hámor, Peter ; Kubinová, Šárka (advisor) ; Trošan, Peter (referee)
The goal of this work is to point out possibilities of neuronal differentiation of mesenchymal stem cells and their application for clinical purposes, primary for repairing and regeneration of central nervous system tissues. Because this system works as a control center for functional features of the whole body, and treating this injuries and degenerations often bring many problems and obstacles, the possibility of using autologous cells for a transplantation or inducer of the natural regenerative properties of tissues is worth deeper research. This work progressively focuses on basic characteristics of stem cells and their differentiation potential, characterizing further mesenchymal stem cells together with possibilities of their isolation and cultivation. The main part of the text is formed by studies and methods used for targeted differentiation of mesenchymal stem cells and attempts of their transdifferentiation into neural cell line, together with present and possible future application of these cells in central nervous system therapies.
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Tracing the fate of cell populations from regressive tooth primordia during ontogenesis
Řadová, Marie ; Hovořáková, Mária (advisor) ; Černý, Jan (referee)
(v anglickém jazyce) Development of tooth primordia in mice is an important model for study of odontogenesis. Several dental rudiments develop during the mouse embryogenesis. These structures develop in functional teeth in their phylogenetically older relatives. Similarly, we can initiate growth of teeth from these germs in some mutant mice. In my diploma thesis we have focused on the importance of rudimentary structures with odontogenic potential in postnatal individuals. As a model of development, we have chosen a cell population originating from rudimentary primordia MS (mesial segment) that develops in diastema of the lower jaw during the embryonic day 12.5. Using the inducible Cre-lox technology we have marked the cells which are part of the signal domain of primordia at this time. As a marker of these cells we have used gene Shh. We have found out that these cells persist prenataly and also postnatally. Further we have isolated this cell area and we have tested it using a variety of methods. We have shown that in the cells of postnatal individual are expressed markers of stem cells (Sox2, Bmi1, Gli1) and also genes for major enamel matrix structural proteins: ameloblastin and amelogenin. The same stem cell markers are also expressed in vitro culture of the isolated cells. This cell population...
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3D bioprinting of stem cells and analysis of microscopic images
Kandra, Mário ; Svoboda, Ondřej (referee) ; Kolářová, Jana (advisor)
In this diploma thesis we are discussing about using 3D bioprinting in tissue engineering. We are discribing using biomaterials for construction scaffolder and aplication stem cells in 3D bioprinting. Last section of theoretical part deals with very often used techniques of 3D bioprinting and we are focused on extrusion technique. In the practical part we propose a method for print vasculars structures. We realized prototype of print head, her design and 3D printing of individual parts. To mechanical part we create a control system for printing control. At the end we visualize the organization of the cells using program modules.
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Stem cells in somatic tissues of mammals - past and present view
Hlavatá, Adéla ; Kořínek, Vladimír (advisor) ; Krylov, Vladimír (referee)
The homeostatic self-renewal of tissues in the adult mammal organism is maintained by stem- cell activity. The majority of tissue-specific stem cells are dispersed in a tissue in a low number. The small intestinal epithelium is a suitable model tissue for study of the stem cells because of its regular structure and rapid self-renewal. One of the first knowledge about the intestinal stem cell characteristics was obtained from the experiments with the mice embryonal aggregation chimeras and the transgenic chimeras. There were obtained a crucial role of the Wnt signalization pathway in the control of dynamics of the stem cells and contextual coherent finding of the unique molecular marker protein of the intestinal stem cells Lgr5. Subsequently, the genetically modified mice with "reporter" genes produced from the Lgr5 locus became the main tool in the intestinal epithelial stem cell research. The views on dividing organization and particular identity of the intestinal stem cells are still controversial. keywords: stem cells, crypt base cells, intestinal epithelium, chimera, the Wnt signaling pathway, Lgr5, reporter mouse strains
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Potential and significance of extended embryo culture
Uher, Petr ; Rokyta, Zdeněk (advisor) ; Slípka, Jaroslav (referee) ; Pilka, Ladislav (referee)
The aim of this dissertation thesis is to emphasize the sense of extended cultivation of embryos to the stadium of blastocyst and its influence on success of assisted reproduction and facilitation of pre implantation diagnosis, analysis of cultivation media and derivation of human embryonic stem cells. Author summarizes current literary findings in assisted reproduction and examines the currently used methods. Author also submits his own published experimental works, in which he compares his own results of infertility treatment with usage of extended cultivation to blastocyst with results of other techniques. Furthermore author submits his own published experimental works which are using extended cultivation for pre implantation diagnosis and its improvement. Another experimental works includes possibility of stem cells derivation. Usage of extended cultivation to blastocyst convincingly leads, according to author's own experiments and simultaneously to available literary findings, to higher success of infertility treatment. This is especially significant by middle-aged mothers. Sufficient term of cultivation enables not just selection, but also biopsy and its generic treatment. Long-term cultivation also enables analysis of cultivation media - but these didn't met the expectations for increase of...
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Cell therapy in animal models - preclinical studies
Juhásová, Jana ; Motlík, Jan (advisor) ; Grim, Miloš (referee) ; Jendelová, Pavla (referee)
The progress of cell therapy can be greatly facilitated by using suitable experimental models. It is essential to verify the clinical usefulness of new healing procedures obtained in studies on laboratory animals by using a large animal model. One of suitable models well acceptable in medical community is undoubtedly the miniature pig, which resembles humans in terms of physiology and body proportions. This PhD thesis presents the summary of our experimental studies relating to possible exploitation of mesenchymal and neural stem cells in the healing of locomotive apparatus and neural tissue disorders in humans or animals. The first part of the thesis briefly describes the current issue of cell therapy and animal models, mesenchymal cells and/or their combination with new types of scaffolds, neurogenesis, neural stem cells and their potential application in therapy of spinal cord injury. The second part is focused on the goals and methodology, the individual publications being listed in the third part. Our experiments with iatrogenic physeal defect in rabbits, which served as a model of the occurrence of valgous deformation in the clinical practice, showed the positive preventive and therapeutical effects of a new type of scaffolds seeded with allogeneic mesenchymal stem cells in animals without...
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