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Molecular mechanisms of sterile inflammation in damaged hematopoietic tissue
Čiháková, Zuzana ; Faltusová, Kateřina (advisor) ; Bačová, Barbora (referee)
Hematopoietic tissue is home to hematopoietic stem cells (HSCs), which continuously generate all blood and immune cells. Tissue damage or cellular stress can lead to sterile inflammation. In response to the sterile inflammation, HSCs are activated to proliferate and switch to emergency hematopoiesis. Long-term exposure of hematopoietic tissue to inflammatory signals leads to increased differentiation at the expense of self-renewal of HSCs, DNA damage, and genetic instability, which can lead to cell death, permanent bone marrow damage and hematopoietic damage.
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The role of microRNAs in lymphomas with a focus on miR-155
Hušková, Hana ; Stopka, Tomáš (advisor) ; Svoboda, Petr (referee)
MicroRNAs (miRNAs) are 19-25 nucleotide noncoding RNAs which regulate the expression of target mRNAs at both posttranscriptional and translational level. The physiological functions of miRNAs include development, differentiation, cell cycle regulation and apoptosis. miRNA deregulation has been found in various human diseases, including lymphoproliferative disorders. This Bachelor thesis provides introduction to delineate roles of miRNAs in normal hematopoiesis and cites recent publications on miRNAs in lymphomas with a focus on the role of miR-155. Key words microRNA, hematopoiesis, lymphoma, miR-155
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Comparing results of cell blood count and leukocyte differential count between different series of analyzers Sysmex
Opletalová, Monika ; Blažková, Hana (advisor) ; Bártů, Iva (referee)
In this bachelor thesis I focused on comparing results of cell blood count and leukocyte differential count between three types of Sysmex analyzers. XS - 1000 i, XT - 4000i and XE - 5000 are automatic analyzers, measuring on principles of flow cytometry and impedance methods using hydrodynamic focusation. These methods provide very accurate blood cell an alysis. The theoretical part of bachelor thesis is focused on description of hematopoesis, options for measuring cell blood counts and leukocyte differential counts and general description of measuring methods used by Sysmex analysers. In the experimental part I described the composition of mentioned analysers, their measuring channels and reagents which are used for peripheral blood cells analysis. Every sample from 50 patients was measured on each analyser and results were statistically compared by using ANOVA test. Graphs showing average values of each parameter for negative and positive patient ́s samples were made. The aim of this study was to summarize the main advantages and disadvantages of all three analyzers and determine whether differences in the results of samples between analyzers are statistically significant or not. Powered by TCPDF (www.tcpdf.org)
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Differentiation plasticity of hematopoietic cells
Polgárová, Kamila ; Stopka, Tomáš (advisor) ; Otáhal, Pavel (referee) ; Šálek, Cyril (referee)
Hematopoiesis has been for many years seen as a straightforward process based on sequential restriction of cell fate potential leading to production of mature blood cells. In the last decade, however, several works documented an unexpected plasticity of hematopoietic cells with expanded potential of myeloid development from lymphoid progenitors and vice versa. Under physiologic conditions hematopoiesis is tightly controlled and the definite cell fate is denominated by multiple factors that all lead to changes in regulatory networks that include transcription factors, epigenetic changes and post-transcriptional modulations. Any disruption of this strict regulation, caused by mutations or other events, affects the proliferation and lineage fidelity of hematopoietic precursors. This may lead to clonal growth of variable significance or leukemogenesis and may possibly affect the treatment sensitivity of the hematological malignancies. For better understanding of hematopoietic regulation we described gene expression changes during physiological development of lymphoid and myeloid lineages and in leukemic specimens using our own simplified real-time PCR based platform. We investigated expression of 95 genes connected with lymphoid and myeloid differentiation or with leukemogenesis in sorted hematopoietic...
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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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Role of Rnf207b in zebrafish hematopoiesis
Vondráková, Zuzana ; Bartůněk, Petr (advisor) ; Živný, Jan (referee)
Hematopoiesis is the process of proliferation, differentiation and self-renewal of hematopoietic stem cells. Regulation of hematopoiesis is a complex process, which takes place on many different levels and is directed by many signals. RNF207 is one of the perspective genes chosen based on a screen in chicken model, where obtained data show its role in hematopoiesis. The aim of this work was to confirm the role of rnf207b as a new regulator of hematopoiesis in Danio rerio and to find out on which level of hematopoiesis is active. Danio rerio is an excellent model to study the function of genes in vivo, thanks to the easy manipulation of genetic expression and wide range of phenotypes during the development. To study the effect of rnf207b in hematopoiesis of Danio rerio we performed the knock-down of this gene by microinjection of morpholino oligonucleotides into one cell stage embryos. In these injected fish, we saw the effect in both thrombocyte and erythroid lineage, suggesting that rnf207b could be a regulator at the hierarchical level of progenitors or even more upstream. The results of developmental and tissue specific expression analysis then show that expression of rnf207b begins as early as 18 hpf, at the time of primitive hematopoiesis. Although rnf207b is expressed in the kidney (an...
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The cell cycle and differentiation of haematopoietic stem and progenitor cells.
Páral, Petr ; Šefc, Luděk (advisor) ; Horváthová, Monika (referee) ; Kokavec, Juraj (referee)
Haematopoietic stem and progenitor cells (HSPCs) are crucial for lifelong blood cell production. We analysed the cell cycle and cell production rate in HSPCs in murine haematopoiesis. The labelling of DNA-synthesizing cells by two thymidine analogues, optimized for in-vivo use, enabled the determination of the cell cycle flow rate into the G2-phase, the duration of the S-phase and the average cell cycle time in Sca-1+ and Sca-1- HSPCs. The determination of cells with 2n DNA content and labelled during the preceding S-phase was used to establish the cell flow rates in the G1-phase. Our measurements revealed a significant difference in how Sca-1+ and Sca-1- HSPCs self-renew and differentiate. The division of Sca-1+ progenitors led to the loss of the Sca-1 marker in about half of newly produced cells, corresponding to asymmetric cell division. In contrast both Sca-1- progenitors, arising from mitotic cell division, entered a new round of the cell cycle. This corresponds to symmetric self-renewing cell division. The novel data also enabled us to estimate the cell production rates in the Sca-1+ and in three subtypes of Sca-1- HSPCs. We focused on adult murine erythroid differentiation in the next part of our study. We introduced an original flow cytometry approach for identifying and studying erythroid...
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Epigenetic Aspects of normal and malignant hematopoiesis: role of chromatin remodeling ISWIATPase.
Zikmund, Tomáš ; Stopka, Tomáš (advisor) ; Dráber, Peter (referee) ; Otáhal, Pavel (referee)
Chromatin remodeling protein Smarca5 participates on many cellular processes, which are important for tissue development and tumorigenesis. Among these processes utilizing ATPase activity of Smarca5 belong also transcription, replication and DNA repair. We hypothesized that Smarca5 represents essential molecule for chromatin modulation primarily at early developmental stages at the level of fast-dividing progenitors of many origins, in whose the ATPase is highly expressed. To such tissues may belong also hematopoiesis, in which the Smarca5 has highest expression. The subject of my doctoral thesis is therefore analysis of the effect Smarca5 depletion on proliferation and differentiation of hematopoietic progenitors in vivo and a search for mechanisms behind the resulted developmental defects. We utilized conditionally knockout allele of Smarca5 in blood precursors to study in a mouse model how depletion of the ISWI ATPase causes accumulation of earliest progenitors inhibited from further maturation to erythroid and other myeloid lines. The proerythroblasts became dysplastic and the majority of basophilic erythroblasts ceased cycling around the G2/M stage. An expected mechanism for observed changes appeared the activation of stress pathway of protein p53 that is often associated with unrepaired DNA...
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Differentiation plasticity of hematopoietic cells
Polgárová, Kamila ; Stopka, Tomáš (advisor) ; Otáhal, Pavel (referee) ; Šálek, Cyril (referee)
Hematopoiesis has been for many years seen as a straightforward process based on sequential restriction of cell fate potential leading to production of mature blood cells. In the last decade, however, several works documented an unexpected plasticity of hematopoietic cells with expanded potential of myeloid development from lymphoid progenitors and vice versa. Under physiologic conditions hematopoiesis is tightly controlled and the definite cell fate is denominated by multiple factors that all lead to changes in regulatory networks that include transcription factors, epigenetic changes and post-transcriptional modulations. Any disruption of this strict regulation, caused by mutations or other events, affects the proliferation and lineage fidelity of hematopoietic precursors. This may lead to clonal growth of variable significance or leukemogenesis and may possibly affect the treatment sensitivity of the hematological malignancies. For better understanding of hematopoietic regulation we described gene expression changes during physiological development of lymphoid and myeloid lineages and in leukemic specimens using our own simplified real-time PCR based platform. We investigated expression of 95 genes connected with lymphoid and myeloid differentiation or with leukemogenesis in sorted hematopoietic...
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Anaemia disease models
Vondráková, Zuzana ; Bartůněk, Petr (advisor) ; Stopka, Tomáš (referee)
Hematopoiesis is a process by which blood cells are generated. All vertebrates have two phases of hematopoiesis - primitive and definitive. The main purpose of primitive hematopoiesis is the production of red blood cells, which provide oxygenation to the developing embryo. Other blood cell lineages are established by definitive hematopoiesis. The main function of erythrocytes is oxygen transport to all tissues. When erythrocyte production is decreased or they are damaged due to the membrane, enzyme or hemoglobin impairment, the condition called anemia arises. Sickle cell disease and β-thalassemia are called hemoglobinopathies as they are caused by the damaged hemoglobin. Fanconi anemia is caused by mutations in one of 21 genes of Fanconi anemia pathway, which plays an essential role in DNA repair. Diamond Blackfan anemia is caused by mutations gene for ribosomal proteins. Human cells, Mus musculus, Gallus gallus, Xenopus laevis and Danio rerio seem to be good models for study of this diseases and they are also useful for achieving therapeutical goals.
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