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Role of Smarca5 (Snf2h) chromation remodeling ATPase in hematopoitic development and erythropoiesis
Kokavec, Juraj ; Stopka, Tomáš (advisor) ; Divoký, Vladimír (referee) ; Kořínek, Vladimír (referee)
The Imitation Switch (ISWI) nuclear ATPase Smarca5 (Snf2h) is one of the most conserved chromatin remodeling factors. It exists in a variety of oligosubunit complexes that move DNA with respect to the histone octamer to generate regularly spaced nucleosomal arrays. Smarca5 interacts with different accessory proteins and represents a molecular motor for DNA replication, repair and transcription. We deleted Smarca5 at the onset of definitive hematopoiesis (Vav1-iCre) and observed that animals die during late fetal development due to anemia. Hematopoietic stem and progenitor cells (HSPCs) accumulated but their maturation towards erythroid and myeloid lineages was inhibited. Proerythroblasts were dysplastic while basophilic erythroblasts were blocked in G2/M and depleted. Smarca5 deficiency led to increased p53 levels, its activation at two residues, one associated with DNA damage (S-18) second with CBP/p300 (K376Ac), and finally activation of the p53 targets. We also deleted Smarca5 in committed erythroid cells (Epor-iCre) and observed that animals were anemic postnatally. Furthermore, 4- OHT-mediated deletion of Smarca5 in the ex vivo cultures confirmed its requirement for erythroid cell proliferation. Thus, Smarca5 plays indispensable roles during early hematopoiesis and erythropoiesis.
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The mechanisms and regulation of lineage commitment in hematopoietic stem cell
Tichý, Marko ; Stopka, Tomáš (advisor) ; Svoboda, Ondřej (referee)
Hematopoietic stem cells (HSCs) are crucial for maintaining balanced homeostasis in the human body. HSCs are pluripotent cells, which are able to give rise to many very different cells. HSCs can be found in fetal liver initially during organismal development where they expand and move to their more definitive location, the bone marrow, shortly before birth in humans and mice. HSCs possess to not only recapitulate themselves (self-renew) or proliferate and expand, but are also the first branching point from which subsequent multipotent progenitors and eventually all blood cell lineages are formed thus establishing specific and restricted terminal differentiation pathways. The irreversible decision to initiate and follow a specific differentiation pathway is designated as lineage commitment. The drivers of lineage commitment, which are a base of this thesis, are intrinsic as well as extrinsic factors acting within the stem cell niche, such as transcription factors, chromatin remodeling factors, and cytokines, which are essential for proliferation, survival, self-renewal and lineage commitment decisions. These regulatory factors, working either independently or in mutual coordination, maintain balanced homeostasis of HSC renewal and their differentiation. The goal of this thesis will be to ascribe the...
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Lineage plasticity in normal and malignant lymphocyte precursors
Rezková Řezníčková, Leona
The classical scheme of hematopoiesis presumes early separation of lymphoid and myeloid precursors. Recently, more complex models are put forward, suggesting greater flexibility of hematopoiesis with progenitors sharing lymphoid and myeloid potential. Acute hybrid leukemia is a malignancy, in which it is not possible to assess unambiguously myeloid or lymphoid lineage of origin. The behaviour of those malignancies favors new models of hematopoiesis. Our work concentrated mainly on the research of childhood leukemias with lineage switch from lymphoid to myeloid lineage during induction treatment. Our task within this extensive project was to determine lineage assignment of leukemic blasts using detection of immunoglobulin and T-cell receptor gene rearrangements. We confirmed that myeloid cells derived during the treatment in all patients descend from the original lymphoid clone. We also investigated the expression of selected genes in those cases compared to common leukemia types. Lastly, we explored prognostic impact of TCR rearrangements (and thus lymphoid lineage commitment) in T-lineage leukemia.
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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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Transplantace kostní dřeně příjemcům s regenerující krvetvorbou: účinnost transplantace a stav regenerující kostní dřeně
Forgáčová, Katarína ; Nečas, Emanuel (advisor) ; Vávrová, Jiřina (referee) ; Hofer, Michal (referee)
Hematopoietic stem cells (HSCs) have the ability of both self-renewal and differentiation. After bone marrow damage, surviving host HSCs or transplanted donor HSCs are able to restore hematopoiesis and maintain it for a long time due to the self-renewal potential. HSCs reside in a specific microenvironment in the bone marrow, in stem cell niche, which supports their survival and controls their functioning. In this study, we investigated the impact of bone marrow damage induced by increasing doses of irradiation on engraftment efficiency of transplanted donor repopulating cells. Using the CD45.1/CD45.2 congenic mouse model, we developed a new approach enabling estimation of surviving HSCs in damaged hematopoietic tissue. Its principle is in measuring of the donor chimerism resulting from transplantation of a defined dose of normal congenic bone marrow cells. The transplanted donor cells contain repopulating cells, progenitors (STRCs) and HSCs (LTRCs) that give rise to blood cell production which proceeds in parallel with that present in the host hematopoietic tissue. We applied this approach to monitor spontaneous regeneration of repopulating cells, including HSCs, in mice irradiated with a sublethal dose of 6 Gy or by a lethal dose of 9 Gy and rescued by syngenic bone marrow cells. This was...
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B- and T- lymphocyte subpopulations in lymphocyte-associated immunodeficiencies
Šinkorová, Vendula ; Kalina, Tomáš (advisor) ; Javorková, Eliška (referee)
The antigen-specific immunity consists of cells called T and B lymphocytes. These cells together with cells of non-specific (innate) immunity begin their development in fetal liver and later in bone marrow from the common progenitor, the hematopoietic stem cell. Both B and T lymphocyte lineages then undergo differentiation which is regulated by many cytokines and transcriptional factors and leads to very heterogeneous cohort of subsets. Because the immune system is not only protecting the organism from infections and malignant growth but also from itself, lymphocyte differentiation must pass many checkpoints where B and T clones are strictly selected. Cells of both lineages closely communicate with each other and also with cells of innate immunity. If, due to mutation of protein encoding genes, disturbance of differentiation or malfunction of effector activities providing some of these functions occurs, an immune system malfunction called immunodeficiency arises. Multiparametric immunophenotyping followed by flow cytometry examination has been proven one of the most suitable techniques for studying lymphocyte subsets and lymphocyte- associated immunodeficiencies. Here we describe examples of primary lymphocyte- associated immunodeficiencies, how they affect individual lymphocyte subsets, what it...
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Lineage plasticity in normal and malignant lymphocyte precursors
Rezková Řezníčková, Leona ; Froňková, Eva (advisor) ; Otáhal, Pavel (referee)
Klasické schéma vývoje hematopoetických buněk předpokládá časné oddělení lymfoidního a myeloidního prekurzoru. V poslední době jsou navrhovány složitější modely, které předpokládají větší flexibilitu hematopoezy a navrhují existenci progenitorů s lymfoidním i myeloidním potenciálem. Akutní hybridní leukémie jsou malignity, které podle různých kritérií nelze jednoznačně zařadit k lymfoidní nebo k myeloidní linii a jejichž chování spíše dává za pravdu novým modelům hematopoezy. Předkládaná práce se zabývala především výzkumem dětských leukémií s přesmykem z lymfoidní do myeloidní linie během indukční léčby. Jedná se o rozsáhlý projekt, v jehož rámci si diplomová práce si kladla za úkol určit liniové zařazení leukemických blastů pomocí detekce přestaveb genů pro imunoglobuliny a T-buněčné receptory (TCR). Potvrdili jsme, že myeloidní buňky derivované v průběhu léčby pochází u všech pacientů z původního lymfoidního klonu. Dále jsme u těchto případů zkoumali expresi vytipovaných genů ve srovnání s běžnými druhy leukémií. Třetí částí práce byl výzkum prognostického významu přítomnosti přestaveb TCR (a tedy příslušnosti k lymfoidní linii) u leukémií z T-lymfoidní řady.
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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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The role of HOXA9 gene in leukemogenesis
Rejlová, Kateřina ; Starková, Júlia (advisor) ; Fraiberk, Martin (referee)
The evolutionarily conserved family of homeobox genes plays an important role in the development of the anterior-posterior body axis of vertebrates. These genes significantly affect hematopoiesis, the development of blood cells. Extensive studies on homeobox genes in normal hematopoiesis confirmed their role also in leukemogenesis. Since the neoplastic transformation of blood cells, i.e. leukemia, is the most frequent malignancy in children, it has become a major subject of research for many scientists. Precisely in what stage of the malignant transformation the homeobox genes take part has not been shown yet. Neither is it known whether HOX genes are crucial in pathogenesis or whether their deregulation is only a side effect of leukemogenesis. The most studied homeobox gene in leukemogenesis is the HOXA9 gene, which showed correlation with the prognosis of patients with certain leukemias. Many studies describe the effect of HOXA9 in leukemic cell transformation, suggesting this gene could be a promising future target in leukemia therapy. This work is focused on the HOXA9 gene and its association with leukemic transformation of blood cells.
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Origins of vertebrate hematiopoiesis
Svoboda, Ondřej ; Bartůněk, Petr (advisor) ; Divoký, Vladimír (referee) ; Živný, Jan (referee)
(ENGLISH) Hematopoiesis is dependent on the actions of hematopoietic stem cells (HSCs). This process is tightly controlled through a complex array of extrinsic and intrinsic factors. Even though the hematopoiesis seems to be well conserved across the disparate vertebrate animals, erythroid and thrombocytic differentiation have changed during the evolution of mammals. Specifically, adult mammalian red blood cells have the unique feature of being enucleated, and mammalian thrombocytes are not individual cells, but fragments of megakaryocytes, instead. It is likely that these enhancements provided a survival advantage to early mammalian species; however, they also bring up the question of evolutionary origin of these cells that studied using zebrafish (Danio rerio) model. First, it was necessary to generate a toolbox of a recombinant cytokines and optimized culture media that allowed us to manipulate zebrafish hematopoietic cells ex vivo in liquid and clonal cultures. Interestingly, teleost species underwent an extra duplication event during their evolution and as a result, two copies (paralogs) of some of the genes are present in zebrafish. This was also the case for majority of the cytokines from our toolbox and here, we provide functional characterization of these paralogs. Strikingly, our results...
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