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The transcription factor C/EBPƴ as a novel regulator in mast cell development and function
Jedlička, Marek ; Alberich Jorda, Meritxell (advisor) ; Černý, Jan (referee)
Mast cells contribute to the activities of innate and adaptive branches of the immune system. They participate in pro-inflammatory responses to a wide range of pathogens, such as parasites, bacteria, and other foreign agents. These beneficial properties are in contrast to the contribution of mast cells to certain pathologies, such as asthma, allergy, autoimmune disorders, anaphylaxis, and systemic mastocytosis. Thorough knowledge of mast cell biology in health and disease is critical for the development of new therapeutic approaches. However, molecular mechanisms that control mast cell development and function are still incompletely defined. Our preliminary data indicate that the transcription factor C/EBP is a key player in mast cell biology. Here, using in vitro and in vivo models, we determine how C/EBP regulates the commitment of hematopoietic progenitors towards mast cells, and modulates mast cells function. These efforts provide novel insights to the role of C/EBP in hematopoiesis, and contribute to a better understanding of the mechanisms governing mast cell biology. Key words Mast cells, C/EBP, transcription factors, bone marrow-derived mast cell cultures, mast cell development, Cebpg conditional knockout mice
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Involvement of Asthma-associated Protein ORMLDL3 in Mast Cell Signalling
Eitler, Jiří ; Dráber, Petr (advisor) ; Konvalinka, Jan (referee)
4 Abstract Mast cells are involved in variety of immunological processes, but they are mostly known for their role in allergy and asthma. As asthma and allergy are serious diseases with spreading tendency during last decades, mast cells are subject of intensive research. It is expected that studies of mast cell signalling pathways will contribute to our understanding of the nature of these diseases and help to design efficient treatment strategies. In an attempt to identify genes responsible for asthma disease, genome-wide screening methods have been currently applied. Using these methods, mutations in ORMDL3 (Orosomucoid1-like) protein were found out as a high risk asthma factor. ORMDL3 is a member of evolutionary conserved ORMDL family, comprising in mammals also of ORMDL1 and ORMDL2. Physiological function of these proteins is poorly understood and it has not been studied in mast cells. We decided to study the role of ORMDL proteins in mast cells. Lentiviral delivery system was optimised for generation of stable knock-downs (KD) of all three members of the ORMDL family in primary mast cells. The ORMDL gene expression was measured by improved qPCR (quantitative PCR) reaction buffers. We found that all ORMDL genes are expressed in mast cells in order ORMDL3 > ORMDL2 > ORMDL1. Next, we investigated the...
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Ap4A-RNA in IgE activated mast cells
Potužník, Jiří František ; Macíčková Cahová, Hana (advisor) ; Černý, Jan (referee)
Mast cells are tissue resident members of the immune system. They have a wide range of functions and receptors including the FcεRI receptor, which gets activated by binding to IgE bound to an antigen. When the cells are activated in this manner, a process termed the LysRS- Ap4A-MITF signalling pathway occurs, resulting in the translocation of the Lys tRNA synthetase into the nucleus and an activation of its moonlighting activity - the production of diadenosine tetraphosphate (Ap4A). Ap4A is a dinucleoside polyphosphate, a type of ubiquitous molecule present in all domains of life. They are made up of two nucleosides joined together by a 5' to 5' phosphodiester bridge of variable lengths. Recently, these molecules have been shown to serve as non-canonical initiating nucleotides during bacterial transcription, where they function as 5' RNA caps, similar to the well-known 7- methylguanosine eukaryotic mRNA cap. In this thesis, I present proof of existence of Ap 4A capped RNA in mast cells, a previously unknown 5' RNA structure in eukaryotic cells, and I attempt to pinpoint its role in the activation of these cells and in the wider context of mast cell mediated immune response. Keywords: mast cells, RNA caps, Dinucleoside polyphosphates, Ap 4A, RNA modification, IgE, FcεRI receptor, Lysine tRNA synthetase
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Regulatory mechanisms of microtubule reorganization in activated mast cells
Rubíková, Zuzana
Microtubules (MTs) are highly dynamic structures essential for the spatio-temporal intracellular organization and transport, signal propagation, cell differentiation, motility and division. To perform these roles, MTs create arrangements capable of fast and precise adaptation to various signals. MTs are under the control of many factors regulating MT nucleation, stability and dynamics. Bone marrow-derived mast cells (BMMCs) are important immune system cells, which can cause serious diseases if their functions are deregulated. Although MT reorganization during BMMC activation is well established, the molecular mechanisms that control their remodelling are largely unknown. In the presented thesis we functionally characterised GIT1/βPIX signalling proteins, PAK1 kinase, and Ca2+ signalling in the regulation of MT nucleation in BMMCs and other cell types. We also elucidated the function of miltefosine (hexadecylphosphocholine), a promising candidate for the treatment of mast cell-driven diseases. We found that GIT1/βPIX signalling proteins are γ-tubulin-interacting proteins associating with centrosomes in BMMCs. MT nucleation is positively regulated by GIT1 and Ca2+ , whereas βPIX is a negative regulator of MT nucleation in BMMCs. Cytosolic Ca2+ affects γ-tubulin properties and stimulates the...
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Regulatory mechanisms of microtubule reorganization in activated mast cells
Rubíková, Zuzana
Microtubules (MTs) are highly dynamic structures essential for the spatio-temporal intracellular organization and transport, signal propagation, cell differentiation, motility and division. To perform these roles, MTs create arrangements capable of fast and precise adaptation to various signals. MTs are under the control of many factors regulating MT nucleation, stability and dynamics. Bone marrow-derived mast cells (BMMCs) are important immune system cells, which can cause serious diseases if their functions are deregulated. Although MT reorganization during BMMC activation is well established, the molecular mechanisms that control their remodelling are largely unknown. In the presented thesis we functionally characterised GIT1/βPIX signalling proteins, PAK1 kinase, and Ca2+ signalling in the regulation of MT nucleation in BMMCs and other cell types. We also elucidated the function of miltefosine (hexadecylphosphocholine), a promising candidate for the treatment of mast cell-driven diseases. We found that GIT1/βPIX signalling proteins are γ-tubulin-interacting proteins associating with centrosomes in BMMCs. MT nucleation is positively regulated by GIT1 and Ca2+ , whereas βPIX is a negative regulator of MT nucleation in BMMCs. Cytosolic Ca2+ affects γ-tubulin properties and stimulates the...
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The transcription factor C/EBPƴ as a novel regulator in mast cell development and function
Jedlička, Marek ; Alberich Jorda, Meritxell (advisor) ; Černý, Jan (referee)
Mast cells contribute to the activities of innate and adaptive branches of the immune system. They participate in pro-inflammatory responses to a wide range of pathogens, such as parasites, bacteria, and other foreign agents. These beneficial properties are in contrast to the contribution of mast cells to certain pathologies, such as asthma, allergy, autoimmune disorders, anaphylaxis, and systemic mastocytosis. Thorough knowledge of mast cell biology in health and disease is critical for the development of new therapeutic approaches. However, molecular mechanisms that control mast cell development and function are still incompletely defined. Our preliminary data indicate that the transcription factor C/EBP is a key player in mast cell biology. Here, using in vitro and in vivo models, we determine how C/EBP regulates the commitment of hematopoietic progenitors towards mast cells, and modulates mast cells function. These efforts provide novel insights to the role of C/EBP in hematopoiesis, and contribute to a better understanding of the mechanisms governing mast cell biology. Key words Mast cells, C/EBP, transcription factors, bone marrow-derived mast cell cultures, mast cell development, Cebpg conditional knockout mice
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Regulatory mechanisms of microtubule reorganization in activated mast cells
Rubíková, Zuzana ; Dráber, Pavel (advisor) ; Binarová, Pavla (referee) ; Hašek, Jiří (referee)
Microtubules (MTs) are highly dynamic structures essential for the spatio-temporal intracellular organization and transport, signal propagation, cell differentiation, motility and division. To perform these roles, MTs create arrangements capable of fast and precise adaptation to various signals. MTs are under the control of many factors regulating MT nucleation, stability and dynamics. Bone marrow-derived mast cells (BMMCs) are important immune system cells, which can cause serious diseases if their functions are deregulated. Although MT reorganization during BMMC activation is well established, the molecular mechanisms that control their remodelling are largely unknown. In the presented thesis we functionally characterised GIT1/βPIX signalling proteins, PAK1 kinase, and Ca2+ signalling in the regulation of MT nucleation in BMMCs and other cell types. We also elucidated the function of miltefosine (hexadecylphosphocholine), a promising candidate for the treatment of mast cell-driven diseases. We found that GIT1/βPIX signalling proteins are γ-tubulin-interacting proteins associating with centrosomes in BMMCs. MT nucleation is positively regulated by GIT1 and Ca2+ , whereas βPIX is a negative regulator of MT nucleation in BMMCs. Cytosolic Ca2+ affects γ-tubulin properties and stimulates the...
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