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Study of mesenchymal stem cell migration in the extracellular matrix based on principles of chemotaxis
Scholasterová, Viktorie ; Fohlerová, Zdenka (referee) ; Chmelíková, Larisa (advisor)
This thesis engages in a study of mesenchymal stem cell migration in extracellular matrix based on principles of chemotaxis. First, attention is focused on a theoretical part associated with a clarification of basic terms such as extracellular matrix, migration, confocal microscopy, mesenchymal stem cells or chemotaxis. There is also included a list and a description of some basic methods for monitoring cell migration and a more detailed description of a method called transwell assay, which has been chosen for an experiment in a practical part of this thesis. This part includes protocols of individual steps for the preparation of the experiment, the procedure of data processing obtained by scanning cells with a confocal microscope and a description of the resulting confluence values.
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Study of mesenchymal stem cell migration based on principles of chemotaxis
Pošustová, Veronika ; Skopalík, Josef (referee) ; Chmelíková, Larisa (advisor)
The purpose of this Master thesis is to verify migration of mesenchymal stem cells on the principle known as chemotaxis. First part of this study is focused on cell migration in order to explain the whole migration process. Next part describes various chemotaxis methods and selected studies dealing with clinical applications of mesenchymal stem cells in different medical and biomedical fields. The following step describes confocal microscopy, which is used for acquiring images of the cells. The experimental part is focused on cultivation of mesenchymal stem cells in a laboratory, which is necessary for cell vitality. Furthermore, there are designed two main experiments. Firstly there is a 2D experiment with adherent cells for chemotaxis using -Slide Chemotaxis. Secondly Transwell migration test is designed and executed. Finally, the acquired images from confocal microscope are used for image processing, which was done in Matlab R2020a programming environment. The result of this processing is evaluation of cell confluence and migration. In the end, experimental part of this study was optimized according to recommended studies. The results are summarized in the conclusion with proposal for improvements of those methods.
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The effect of immunosupression on cell therapy in mouse model of Alzeimer's disease
Gajdoš, Roman ; Jendelová, Pavla (advisor) ; Chmelová, Martina (referee)
Alzheimer's disease is a chronic, progressive, neurodegenerative disease. It belongs to the most common type of dementia and worldwide it is statistically the fifth cause of mortality. The most common morphological markers are insoluble β amyloid plaques, hyperphosforylated tau proteins and formation of neurofibrilar tangles. Among the manifestations of the disease is amyloid angiopathy, synaptic transmission disorders and subsequent apoptosis, deterioration of cognitive functions and brain atrophy. Studies have shown that administration of mesenchymal stem cells (MSC) has an immunomodulatory effects and it can reduce the production and storage of β amyloid and thus improve cognitive functions. In preclinical studies, which are conducted in transgenic mice and often use xenografts, administration of immunosuppresion may lead to variety of positive or negative effects which can affect the results of the experiment. The subject of the master's thesis was to determine the effect of immunosuppression on experimental therapy with MSC in various time windows of AD progression (model 3xTg). At which scale and combination of immunosupression will influence the cell therapy's effects, the length of graft survival, mortality of experimental animals and changes at the cellular level. We have also assessed...
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The role of extracellular matrix in mesenchymal stem cell biology
Šimková, Zuzana ; Chudíčková, Milada (advisor) ; Hubálek Kalbáčová, Marie (referee)
The aim of this bachelor thesis is to describe the mutual relations of mesenchymal stem cells and extracellular matrix, their communication and to point out their significance in living body. First part is focused on description of extracellular matrix, its components and characteristics. The interaction between extracellular matrix and surrounding cells is using both receptors and enzymes. Second part addresses the description of mesenchymal stem cells which are crucial producers of extracellular matrix. The matrix is also decisive part of stem cells niche which envelopes them, protects them and decides their future. The last section demonstrates possible utilizations of differentiation potential and paracrine secretion of MSC in therapy and identifies some of the risks bound to it.
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Mesenchymal stem cells and their regenerative and immunomodulatory potential
Brychtová, Michaela ; Lysák, Daniel (advisor) ; Horák, Vratislav (referee) ; Raška, Milan (referee)
Mesenchymal stem cells and their regenerative and immunomodulatory potential Abstract Mesenchymal stem cells (MSCs) possess multidirectional regenerative ability, which, together with their immunomodulatory potential, makes them promising cell type for therapy of wide variety of diseases. Despite ongoing research, which proved MSCs application to be safe, reported effect of MSCs administration on patients is not convincingly beneficial yet. In our work we focused on elucidation of MSCs role in regeneration of vital organs, heart and liver, where a large damage is life threatening for patients and any improvement in therapy would save many lives. Similar situation is in Graft versus host disease (GVHD), where MSCs immunomodulatory properties could be beneficial. Role of MSCs in heart regeneration was examined in vitro. Primary adult swine cardiomyocytes (CMCs) were co-cultured with or without swine MSCs for 3 days and morphological and functional parameters (contractions, current, respiration) of CMCs were measured. MSCs showed supportive effect on CMCs survival, especially at day 3 of the experiment, where in co-culture was significantly higher number of viable CMCs with physiological morphology and maintained function. Effect of MSCs on liver regeneration was observed in swine model of chronic liver...
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Study of mesenchymal stem cell migration in the extracellular matrix based on principles of chemotaxis
Scholasterová, Viktorie ; Fohlerová, Zdenka (referee) ; Chmelíková, Larisa (advisor)
This thesis engages in a study of mesenchymal stem cell migration in extracellular matrix based on principles of chemotaxis. First, attention is focused on a theoretical part associated with a clarification of basic terms such as extracellular matrix, migration, confocal microscopy, mesenchymal stem cells or chemotaxis. There is also included a list and a description of some basic methods for monitoring cell migration and a more detailed description of a method called transwell assay, which has been chosen for an experiment in a practical part of this thesis. This part includes protocols of individual steps for the preparation of the experiment, the procedure of data processing obtained by scanning cells with a confocal microscope and a description of the resulting confluence values.
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Effect of the peptides on osteogenic differentiation of mesenchymal steam cells
Lukášová, Věra
Osteogenic differentiation of mesenchymal stem cells (MSCs) would be possible to induce by creating of a cell bioactive scaffold that mimic the properties of bone extracellular matrix (ECM). This induction will be not only due to the addition of osteogenic supplements, but also due to the addition of differentiation peptides. These peptides activate signaling pathways leading to cell differentiation. The aim of this study was to evaluate the effect of selected peptides on adhesion, metabolic activity, proliferation and osteogenic differentiation of porcine MSCs. Four peptides with amino acid sequences of DGEA, IAGVGGEKSGGF, GQGFSYPYKAVFSTQ and KIPKASSVPTELSAISTLYL were selected. These peptides were derived from receptor binding sequences of collagen I, collagen III, BMP-7 and BMP-2 respectively. Scaffolds were prepared from a biocompatible and biodegradable poly-ε-caprolactone (PCL) polymer, suitable for cell cultivation. Cells were cultured on scaffolds for three weeks. Various concentration of differentiation peptides were added to the culture medium. As observed in the experiment of cells cultured in basal medium supplemented with differentiation peptides no effect on adhesion, proliferation or metabolic activity of porcine MSCs was observed. In groups treated with peptides derived from BMP-2...
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Limbal stem cell transplantation and their utilization for ocular surface reconstruction.
Lenčová, Anna ; Filipec, Martin (advisor) ; Heissigerová, Jarmila (referee) ; Ardan, Taras (referee)
Aims: Limbal stem cell (LSC) deficiency is one of the most challenging ocular surface diseases. The aim of this thesis was to study damaged ocular surface reconstruction. Therefore, a mouse model of limbal transplantation was estab- lished. Furthermore, LSC isolation, transfer of LSCs and bone marrow-derived mesenchymal stem cells (MSCs) on nanofiber scaffolds were studied. Material and methods: Syngeneic, allogeneic and xenogeneic (rat) limbal grafts were transplanted orthotopically into BALB/c mice. Graft survival, immune re- sponse and the effect of monoclonal antibodies (mAb) (anti-CD4 and anti-CD8 cells) were analyzed. Mouse LSCs were separated by Percoll gradient; subse- quently, they were analyzed for the presence of LSC and differentiation corneal epithelial cell markers and characteristics using real-time PCR and flow cytom- etry. Nanofiber scaffolds seeded with LSCs and MSCs were transferred onto the damaged ocular surface in mouse and rabbit models. Cell growth on scaffolds, post-operative inflammatory response and survival of transferred cell were ana- lyzed. Results: Limbal allografts were rejected promptly by the Th1-type of immune response (IL-2, IFN-γ) involving CD4+ cells and nitric oxide produced by macro- phages, contrary to the prevailing Th1 and Th2 immune responses (IL-4, IL-10) in...
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Natural biomaterials and mesenchymal stem cells in regeneration of spinal cord injury
Kekulová, Kristýna ; Kubinová, Šárka (advisor) ; Krulová, Magdaléna (referee) ; Filová, Elena (referee)
Spinal cord injury is a serious trauma and despite intensive research there is still no effective treatment for patients. The aim of this thesis is to study new possibilities of spinal cord injury therapy in animal models. We have focused on the use of natural materials, stem cells, gene therapy and the possibility of combining these approaches. The effect of extracellular matrix (ECM) based materials prepared by decellularization of porcine spinal cord and porcine urinary bladder on tissue regeneration after acute hemisection of the spinal cord was investigated. Another tested material was a hydrogel based on hyaluronic acid modified with RGD adhesion peptide, which was applied acutely and subacutely into the hemisection lesion. We have shown that both types of biomaterials have positive effect on regeneration of the spinal cord tissue by bridging the lesion and promotion of axonal ingrowth. In addition, ECM hydrogels promote the growth of blood vessels into the lesion site. The combination of hydrogels with mesenchymal stem cells derived from human umbilical cord (hWJ-MSCs) had synergistic effect, but since only a limited number of cells could be incorporated into hydrogels, this effect was not associated with improvement in motor skills. The limitation of ECM hydrogels is their rapid...
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Replacement and Support of Vital Organs in Sepsis Pathophysiology and New Aspects of Treatments
Martínková, Vendula ; Matějovič, Martin (advisor) ; Chytra, Ivan (referee) ; Charvát, Jiří (referee)
Infectious diseases are the worldwide leading cause of morbidity and mortality. Sepsis is the major cause of death in infectious diseases. It is one of the most serious and also one of the most difficult treatable conditions of contemporary medicine. Sepsis is the main cause of death in intensive care units. Causal therapy of sepsis does not yet exist. With a far better understanding of patho/physiological mechanism of sepsis, it is possible to model new preclinical experiments to verify the efficiency and security of new therapeutic procedures. Large animal experiments in progressive sepsis, with the use of domestic porcine, play a vital role. Long-standing experience with this model and similarity to human facilitate the realization of more complex experiments with potential for the relevant translation of results into the subsequent clinical studies on human subjects. The objective of this doctoral dissertation was to assess on the clinically relevant model: 1) the efficiency and security of extracorporeal membrane oxygenation in the event of vasoplegic septic shock; and 2) the benefit of two innovative therapeutic approaches to treatment of sepsis: a) the intravenous administration of mesenchymal stem cells; and b) the activation of the neuro-inflammatory reflex through the vagus nerve stimulation.
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