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Induction and course of programmed cell death in cancer cells after taxane application."
Kábelová, Adéla ; Jelínek, Michael (advisor) ; Gemperle, Jakub (referee)
The taxanes are a class of commonly used anticancer agents, which are very effective in treatment of breast, ovarian, prostate or lung cancer. Taxanes bind to the β-tubulin subunit of microtubules and lead to their stabilization and inhibition of depolymerization. Such microtubules lose their function to form mitotic spindle, thus arresting cells in G2/M phase and resulting in apoptosis. Unfortunately some cells are able to escape from taxanes-induced apoptosis by developing various mechanisms of resistance including alteration in taxanes target microtubules or upregulation of specific transporters that pump the drug out of cells. Other types of resistance are connected with process of programmed cell death (PCD), especially with proteins that after taxane application participate in its successful progress. Taxanes can directly or indirectly modify the activity of Bcl-2-family proteins that control mitochondrial and endoplasmic reticulum integrity, thus regulating the initiation of PCD. Caspases are executioners of PCD and caspase-2 activated by cytoskeletal disruption seems to be especially important in taxanes- induced apoptosis. In some cases can taxane treatment also result in caspase-independent cell death. Special role has protein p53 that seems to be involved only in apoptosis caused by low taxanes...
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Proximity proteome of intramembrane serine protease RHBDL4
Boháčová, Šárka ; Stříšovský, Kvido (advisor) ; Brábek, Jan (referee)
Regulated intramembrane proteolysis is an interesting process involved in a multitude of cellular pathways. Enzymes which catalyse this are termed intramembrane proteases (IMPRs), cleaving proteins passing through the membrane within their transmembrane domain. Rhomboid proteases are serine IMPRs. They are widely distributed among organisms and evolutionarily conserved, but despite many efforts, their physiological roles are largely unexplored. RHBDL4 is a mammalian rhomboid protease localised to the endoplasmic reticulum. It is involved in the development of colorectal cancer, which makes it an important focus of research, but its physiological function is not well understood. In order to explore it, I established and employed a proximity proteomics approach, termed APEX2. It is based on biotinylation of proteins in the spatial proximity of the target in the physiological environment of intact living cells. Labelled proteins are subsequently purified, identified and quantified by mass spectrometry. Exploring the physiological vicinity of RHBDL4, its interaction partners and substrates can be revealed and the detailed subcellular compartment, where RHBDL4 resides, can thus be inferred. During three independent experiments in HCT116 cell line, three proteins emerged repeatedly in the RHBDL4...
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Calcium signalling in astrocytes under physiological and pathological conditions
Svatoňová, Petra ; Anděrová, Miroslava (advisor) ; Kolář, David (referee)
Calcium signalling in astrocytes represents an important component, which enables proper neuronal functioning under physiological conditions. Alterations in Ca2+ signalling, accompanied by an increase in intracellular calcium levels is a hallmark for numerous pathological states of central nervous system, such as traumatic and ischemic brain/spinal cord injuries, epilepsy as well as neurodegenerative diseases, such as Alzheimer's disease and psychiatric disorders, such as schizophrenia. The research analyzing the molecular components of astrocytic Ca2+ signalling can help us understand the control mechanisms used in calcium signalling and thus be greatly beneficial for further therapeutic research. Powered by TCPDF (www.tcpdf.org)
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AUXIN BINDING PROTEIN 1 (ABP1) and its role in the auxin management in plant cells
Čovanová, Milada ; Zažímalová, Eva (advisor) ; Lüthen, Hartwig (referee) ; Reinöhl, Vilém (referee)
Conclusions The role of AUXIN BINDING PROTEIN 1 (ABP1) in the auxin management in plant cells was followed using simplified model material of suspension-cultured cells of tobacco BY-2 line. ABP1 is a putative auxin receptor considered to mediate fast non-genomic responses to auxin and it can be involved in every aspect of the regulation of auxin responses, metabolism and transport. There are four major conclusions that could be made based on the results presented in this thesis: 1) Auxin binding protein 1 mediates both cell division and expansion in tobacco BY-2 cells. In standard cultivation conditions or at lower concentrations of 2,4-D in culture medium, ABP1 overexpression had no detectable impact on cell division, cell elongation or cell growth.. 5- times increased 2,4-D concentration stimulated weakly cell elongation. . Antisense suppression of ABP1 expression resulted in disturbance in both cell expansion and cell division intensity, suggesting that ABP1 is essential for the control of balance between cell division and cell elongation during the growth cycle. ABP1 is localized in endoplasmic reticulum of cells cultivated in standard medium supplemented with 1 μM 2,4-D and it appeared also at the plasma membrane following the IAA application. 2) ABP1 mediates intercellular auxin transport. Cells...
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Interactions of polyomavirus structures in the endoplasmic reticulum and on the path to the nucleus
Svobodová, Terezie ; Huerfano Meneses, Sandra (advisor) ; Weber, Jan (referee)
Mouse polyomavirus is a member and model virus of Polyomaviridae family. In order to infect cells and produce viral progeny, the viral chromosome must be transported to the nucleus. Several studies suggest that virions are transporeted to the endoplasmic reticulum, from which they are transferred to the cytosol with assistace of host proteins. Two of these proteins are the chaperon, BiP (binding immunoglobulin protein) and the cochaperone, DNAJ B14. Polyomaviruses probably enter the nucleus through nuclear pores with the assistence of importins. These processes were mainly studied with SV40. In this work, we show that MPyV infection induces a change in distribution of the DNAJ B14 protein, which became clustered into foci, where it co-localizes with the viral capsid protein, VP1. The occurrence of foci varies during infection. With use of proximity ligation assay, we have shown that during an early fase of MPyV infection, DNAJ B14 and BiP get in the close proximity with VP1. It is suggested that negatively charged amino acids at the N-terminus of the minor capsid protein, VP2, are required for targeting virions to translocon and proteins associated with ERAD. We created MPyV with VP2 mutated in these amino acids. The negatively charged amino acid at position 17 is not necessary for successful...
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Binding proteins of MTMR9
Holšteinová, Aneta ; Doubravská, Lenka (advisor) ; Cebecauer, Marek (referee)
Myotubularins are lipid phosphatases that dephosphorylate phosphatidylinositol 3-phosphate and phosphatidylinositol 3,5-bisphosphate the position three of the inositol ring. This allows them to regulate the structure of the lipid layer of the membrane compartment. The first member of the family was described in association with a severe hereditary myopathy. From that point on, another thirteen members have been added to the family. The catalytically inactive MTMR9 carrying the conserved mutation in the phosphatase domain regulates the localization of the marker of the early secretory pathway, RAB1A, the cis-Golgi structure and the secretion. MTMR9 interacts with the catalytically active MTMR6 and MTMR8 that specifically localizes and increases their phophatase activity. The aim of this diploma thesis was to find out whether the phenotype observed in cells with altered MTMR9 levels is dependent on the catalytically active phosphatases MTMR6 and MTMR8. We proved the influence of MTMR6 and MTMR8 on the distribution of tranfected RAB1A between the intermediate compartment and the Golgi apparatus. MTMR6 and MTMR8 also take part in regulating the cis-Golgi structure. By the use of two different approaches we did not manage to clarify the influence of MTMR6 and MTMR8 on secretion. Changes in the catalytic...
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Interaction between hydrogenosomes and endoplasmic reticulum in Trichomonas vaginalis
Kučerová, Jitka ; Tachezy, Jan (advisor) ; Černý, Jan (referee)
Endoplasmic reticulum-mitochondria encounter structure (ERMES) is a protein complex tethering ER and mitochondria. ERMES consists of four core subunits - Mmm1, Mmm2 (Mdm34), Mdm10 and Mdm12. It was first discovered in Saccharomyces cerevisiae and most functional information is based on studies of this organism. ERMES affects mitochondrial distribution and morphology, participates in lipid trafficking and is important for homeostasis of the cell. In Trichomonas vaginalis, the human urogenital parasite, three genes for putative, highly divergent components of ERMES complex were predicted. However, the cell localization of these proteins and their function is unknown. This thesis is focused on investigation of ERMES components in T. vaginalis, their cellular localization, interactions between components and identification of their possible interacting partners.
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Proximity proteome of intramembrane serine protease RHBDL4
Boháčová, Šárka ; Stříšovský, Kvido (advisor) ; Brábek, Jan (referee)
Regulated intramembrane proteolysis is an interesting process involved in a multitude of cellular pathways. Enzymes which catalyse this are termed intramembrane proteases (IMPRs), cleaving proteins passing through the membrane within their transmembrane domain. Rhomboid proteases are serine IMPRs. They are widely distributed among organisms and evolutionarily conserved, but despite many efforts, their physiological roles are largely unexplored. RHBDL4 is a mammalian rhomboid protease localised to the endoplasmic reticulum. It is involved in the development of colorectal cancer, which makes it an important focus of research, but its physiological function is not well understood. In order to explore it, I established and employed a proximity proteomics approach, termed APEX2. It is based on biotinylation of proteins in the spatial proximity of the target in the physiological environment of intact living cells. Labelled proteins are subsequently purified, identified and quantified by mass spectrometry. Exploring the physiological vicinity of RHBDL4, its interaction partners and substrates can be revealed and the detailed subcellular compartment, where RHBDL4 resides, can thus be inferred. During three independent experiments in HCT116 cell line, three proteins emerged repeatedly in the RHBDL4...
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Interactions of polyomavirus structures in the endoplasmic reticulum and on the path to the nucleus
Svobodová, Terezie ; Huerfano Meneses, Sandra (advisor) ; Weber, Jan (referee)
Mouse polyomavirus is a member and model virus of Polyomaviridae family. In order to infect cells and produce viral progeny, the viral chromosome must be transported to the nucleus. Several studies suggest that virions are transporeted to the endoplasmic reticulum, from which they are transferred to the cytosol with assistace of host proteins. Two of these proteins are the chaperon, BiP (binding immunoglobulin protein) and the cochaperone, DNAJ B14. Polyomaviruses probably enter the nucleus through nuclear pores with the assistence of importins. These processes were mainly studied with SV40. In this work, we show that MPyV infection induces a change in distribution of the DNAJ B14 protein, which became clustered into foci, where it co-localizes with the viral capsid protein, VP1. The occurrence of foci varies during infection. With use of proximity ligation assay, we have shown that during an early fase of MPyV infection, DNAJ B14 and BiP get in the close proximity with VP1. It is suggested that negatively charged amino acids at the N-terminus of the minor capsid protein, VP2, are required for targeting virions to translocon and proteins associated with ERAD. We created MPyV with VP2 mutated in these amino acids. The negatively charged amino acid at position 17 is not necessary for successful...
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Calcium signalling in astrocytes under physiological and pathological conditions
Svatoňová, Petra ; Anděrová, Miroslava (advisor) ; Kolář, David (referee)
Calcium signalling in astrocytes represents an important component, which enables proper neuronal functioning under physiological conditions. Alterations in Ca2+ signalling, accompanied by an increase in intracellular calcium levels is a hallmark for numerous pathological states of central nervous system, such as traumatic and ischemic brain/spinal cord injuries, epilepsy as well as neurodegenerative diseases, such as Alzheimer's disease and psychiatric disorders, such as schizophrenia. The research analyzing the molecular components of astrocytic Ca2+ signalling can help us understand the control mechanisms used in calcium signalling and thus be greatly beneficial for further therapeutic research. Powered by TCPDF (www.tcpdf.org)
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