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The effect of carbon nanostructures on human cell behavior and the role of fetal bovine serum in cell adhesion
Verdánová, Martina ; Hubálek Kalbáčová, Marie (advisor) ; Brábek, Jan (referee) ; Smetana, Karel (referee)
Graphene (G) and nanocrystalline diamond (NCD) are carbon allotropes and promising nanomaterials with an excellent combination of their properties, such as high mechanical strength, electrical and thermal conductivity, possibility of functionalization and very high surface area to volume ratio. For these reasons, G and NCD are employed next to electronics in biomedical applications, including implant coating, drug and gene delivery and biosensing. For a fundamental characterization of cell behavior on G and NCD, we studied osteoblast adhesion and proliferation on differently treated G and NCD. Generally, both G and NCD exhibited better properties for osteoblast cultivation than control tissue culture polystyrene. Better cell adhesion but lower cell proliferation were observed on NCD compared to G. The most surprising finding was that hydrophobic G with nanowrinkled topography enhanced cell proliferation extensively, in comparison to hydrophilic and flat G and both NCDs (hydrophobic and hydrophilic) with slightly higher roughness. Promoted cell proliferation enables faster cell colonization of G and NCD substrates, meaning faster new tissue formation which is beneficial in biomedical applications. Furthermore, it was shown that osteoblast adhesion was promoted in the initial absence of fetal bovine...
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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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Experimental models of a transfer of stem cells for therapeutic purposes
Faltýsková, Helena ; Krulová, Magdaléna (advisor) ; Indrová, Marie (referee)
Experimental models of a transfer of stem cells for therapeutic purposes Abstract Stem cell therapy currently represents a standard procedure of treating a wide variety of hereditary diseases and serious injuries. Development of the most suitable way of transfer of stem cells into the patient body remains very important question concerning this type of therapy. In our experiments we used nanofiber scaffolds for stem cell cultivation and their subsequent transfer. These nanofibers were prepared by the original needleless electrospun NanospiderTM technology. Allogeneic cornea or skin graft were transplanted from B6 mice to BALB/c mice. The grafts were covered by a nanofibrous scaffold with cultivated stem cells. Stem cells were stained by an imunofluorescent dye to enable us to monitore their migration from nanofibers into tissues and consequent distribution in the body and characterize changes of this distribution in the time. The methods of ELISA and PCR were used to confirm that mesenchymal stem cells support the production of antiinflammatory cytokines IL-4 and IL-10 and contribute to inhibition of production of proinflammatory cytokines IL-1, IFNγ and inducible nitric oxide synthase. We confirmed an important beneficial role of nanofiber scaffolds in transplantation of mesenchymal stem cells. Nanofiber...
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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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Potential of stem cell therapy for diabetic retinopathy
Palacká, Kateřina ; Holáň, Vladimír (advisor) ; Tlapáková, Tereza (referee)
Diabetic retinopathy is retinal disease causing irreversible cell damage and consequently a loss of vision. Current treatment protocols have many limitations and are associated with serious site effects. A possible treatment options for retinal degenerative diseases is a use of stem cells. There are different types of stem cells. These include embryonal stem cells, induced pluripotent stem cells and cells from an adult organism, among which we can include mesenchymal stem cells (MSCs). MSCs can be found in almost all tissues of the adult organism. MSCs can migrate to the site of damage, regulate development of inflammation in retina, suppress the formation of fibrovascular scars and replace damaged cells such as nerve cells, photoreceptors and epithelial pigment cells. Application of MSCs could be a promising treatment for degenerative retinal diseases.
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Immunomodulatory mechanisms of stem cells and their use for therapy of ocular disorders
Heřmánková, Barbora ; Holáň, Vladimír (advisor) ; Heissigerová, Jarmila (referee) ; Indrová, Marie (referee)
Stem cell-based therapy represents a perspective approach for the treatment of many so far incurable diseases. Mesenchymal stem cells (MSC) are currently the most studied stem cells. They are able to differentiate into different cell types, to produce growth and trophic factors and can suppress the functions of cells of the immune system. During the study of the immunomodulatory properties of MSC, we focused on their effect on B cells. The mechanism of impact of interferon-γ (IFN-γ) on MSC and their effect on the production of interleukin 10 (IL-10) by B cells was analysed. We have demonstrated that MSC-treated with IFN-γ inhibit production of IL-10 by activated B cells via the cyclooxygenase-2 involving pathway. Due to their regenerative and immunomodulatory properties, MSC can be for treatment of many diseases. In this study we focused on the disease and damage of the eye. The limbal stem cells (LSC) are used for the treatment of damaged ocular surface, however their isolation is difficult and they can not be used in all cases of damage. Appropriate candidates in these cases are MSC. Therefore we have decided to compare the therapeutic potential of LSC and MSC isolated from bone marrow or adipose tissue. The study have shown that MSC isolated from bone marrow have a similar regenerative effect on...
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The Role of Cellular Metabolism in Carcinogenesis. Molecular Pathophysiology of Bladder Cancer Chemoresistance
Kripnerová, Michaela ; Kuncová, Jitka (advisor) ; Nevoral, Jan (referee) ; Chovanec, Miroslav (referee)
Therapeutic resistance of tumours represents an important clinical issue. We can classify the therapeutic tumour resistance in two ways. According to the clinical course, tumours can behave either as primary resistant, i.e. from the very beginning not responsive, or they can display a secondary (also called acquired) resistance, whereby an initial clinical response is lost and the tumour develops into chemo-, radio- or immunoresistant disease. An alternative classification distinguishes cell autonomous resistance mechanisms from resistance that relies on complex interactions within the context of tumour microenvironment. From the research perspective, modelling therapeutic resistance frequently involves experimental treatment of sensitive cancer cells and selection of daughter resistant cell lines. The Ph.D. thesis includes derivation of two unique models of urothelial bladder carcinoma therapeutic resistance. The first model involves newly established urothelial carcinoma cell lines BC44 and BC44DoxoR, which resulted from a prolonged doxorubicin exposure of the mother cell line. The daughter chemoresistant cell line exhibits multidrug resistant phenotype, which extends beyond the selecting drug - doxorubicin - to four additional chemotherapeutic drugs (cisplatin, methotrexate, vinblastine, and...
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The role of stem and progenitor cells in regeneration of hematopoietic tissue
Faltusová, Kateřina ; Nečas, Emanuel (advisor) ; Hofer, Michal (referee) ; Filipp, Dominik (referee)
Tissue regeneration is a complex and highly orchestrated process dependent on cells with the potential to restore structures and functions and on controlling factors from the tissue microenvironment. Hematopoietic tissue has a high ability to regenerate, which is attributed to the presence of stem cells, but the regeneration of severely damaged adult tissue is still only partially understood. Hematopoietic tissue provides a unique opportunity to study tissue regeneration due to its well-established steady- state structure and function, easy accessibility, advanced research methods, and well-defined embryonic, fetal, and adult stages of development. Embryonic/fetal liver hematopoiesis and adult hematopoiesis recovering from damage share the needto expand populations of progenitors and stem cells in parallel with increasing production of mature blood cells. We analyzed adult hematopoiesis in mice subjected to a submyeloablative dose (6 Gy) of gamma radiation, in which only a few cells with reconstituting capacity survived. We targeted the period of regeneration characterized by the renewed massive production of mature blood cells and the ongoing expansion of immature hematopoietic cells. Cells from the top of the hematopoietic hierarchy, hematopoietic stem cells, and multipotent progenitors are almost missing...
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The role of mTOR signalling pathway in neural differentiation of stem cells
Šintáková, Kristýna ; Jendelová, Pavla (advisor) ; Dráber, Peter (referee)
Spinal cord injury is a very serious, complex, and life changing injury for which today's medicine still does not have an efficient treatment. It is only possible to mitigate the consequences of this injury and the pathological processes associated with it. Neural stem cell transplantation has immunosuppressive effects in the pathology of spinal cord injury and promotes regeneration. mTOR kinase is a member of the crucial intracellular PI3K/Akt/mTOR signalling pathway, making it a suitable target for therapeutic intervention and immunosuppressants such as rapamycin. mTOR signalling is important for neural stem cells and in the pathology of spinal cord injury. The aim of this study was to investigate the role of the mTOR pathway in differentiation of stem cells into neuronal phenotype. Rapamycin was applied to in vitro culture of neural progenitors. Immunocytochemistry and immunoblotting techniques were used to study the effect of this inhibition on the cell phenotype and on the activity of the mTOR pathway. Using the rat model of spinal cord injury in vivo, immunohistochemistry and immunoblotting techniques were used to evaluate the impact of rapamycin inhibition on the mTOR pathway, autophagy, and cytokine production by cells in the damaged tissue. The results show that the mTOR pathway plays role...
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