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Iron metabolism of parasitic protist Trypanosoma brucei
Krejbichová, Lucie ; Mach, Jan (advisor) ; Pyrih, Jan (referee)
Trypanosoma brucei is a parasite most frequently occurring in Sub-Saharan Africa that causes sleeping sickness in humans and various similar illnesses in animals. The bloodsucking tsetse flies (Glossina) transfer the parasite to humans, their final hosts. Throughout its complex life cycle, Trypanosoma occurs in different environments and undergoes various morphological and metabolic changes. Iron is an important element for all living organisms, including Trypanosoma. The metal plays a crucial role in the host-parasite interaction since trypanosomes are dependent on the iron they acquire from the host or vector. Trypanosomes use iron in metabolic reactions, such as energy metabolism, respiration, nucleic acid synthesis, detoxification, and cellular homeostasis. It is an important element in the synthesis of iron-sulfur clusters which function as cofactors during the above-mentioned reactions. The understanding of iron metabolism in the cell can facilitate the development of new medicaments, an example being iron chelators.
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Chelating Polymers for the Haemochromatosis Treatment
Groborz, Ondřej ; Hrubý, Martin (advisor) ; Kotek, Jan (referee)
5 Chelating Polymers for the Haemochromatosis Treatment Author: Ondřej Groborz Tutor: Mgr. Martin Hrubý, Ph.D., DSc. Advisors: Ing. Kristýna Kolouchová Ing. Pavel Švec Institute of Macromolecular Chemistry, Czech Academy of Sciences Abstract Haemochromatosis is a group of hereditary diseases which are characterised by toxic accumulation of iron in parenchymal organs, leading to organ toxicity and irreversible damage. Currently, there are only a few approved medications for this disease, yet all of them possess severe side effects. Herein, we have proposed a new paradigm for treatment: insoluble polymers with negligible systemic biological availability would form stable complexes with iron ions in the gastrointestinal tract, hence decreasing biological availability of iron. The insolubility of polymers prevents them from being absorbed into the organism in the first place while having no systemic side effects or toxicity. We have prepared polymers with several covalently bound iron-chelating ligands and based on the biological data we selected the most successful chelators for possible future applications. These polymers exhibited negligible resorbability and toxicity, superior in vitro iron chelating activity and their efficacy was proven in an in vivo model. Therefore they could be used as a...
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Mechanisms of resistance and iron metabolism in cancer stem cells
Lettlová, Sandra
(EN) Analogously to normal stem cells within the tissues, cancer stem cells (CSCs) have been proposed to be responsible for maintenance and growth of tumours. CSCs represent a small fraction of cells within the tumour, which is characterised by self-renewal capacity and ability to give rise to a tumour when grafted into immunocompromised mice. Cells with increased stemness properties are believed to be responsible for tumour resistance, metastases formation and relapse after tumour treatment. The first part of this work concentrates on resistance of the tumours, which is often associated with increased expression of ATP-binding cassete (ABC) transporters pumping chemotherapeutics out of the cells. For the purposes of this study, we utilized an in vitro model of CSCs, based on cultivation of cells as 3D "spheres". Expression profiling demonstrates that our model of CSCs derived from breast and prostate cancer cell lines express higher mRNA level of ABC transporters, particularly ABCA1, ABCA3, ABCA5, ABCA12, ABCA13, ABCB7, ABCB9, ABCB10, ABCC1, ABCC2, ABCC3, ABCC5, ABCC8, ABCC10, ABCC11 and ABCG2 among the cell lines tested. The protein level of ABC transporters tested in breast CSCs showed higher expression of ABCB8, ABCC1, ABCC2, ABCC10 and ABCG2 but downregulation of ABCB10 and ABCF2 proteins....
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Mechanisms of resistance and iron metabolism in cancer stem cells
Lettlová, Sandra ; Truksa, Jaroslav (advisor) ; Kovář, Jan (referee) ; Brábek, Jan (referee)
(EN) Analogously to normal stem cells within the tissues, cancer stem cells (CSCs) have been proposed to be responsible for maintenance and growth of tumours. CSCs represent a small fraction of cells within the tumour, which is characterised by self-renewal capacity and ability to give rise to a tumour when grafted into immunocompromised mice. Cells with increased stemness properties are believed to be responsible for tumour resistance, metastases formation and relapse after tumour treatment. The first part of this work concentrates on resistance of the tumours, which is often associated with increased expression of ATP-binding cassete (ABC) transporters pumping chemotherapeutics out of the cells. For the purposes of this study, we utilized an in vitro model of CSCs, based on cultivation of cells as 3D "spheres". Expression profiling demonstrates that our model of CSCs derived from breast and prostate cancer cell lines express higher mRNA level of ABC transporters, particularly ABCA1, ABCA3, ABCA5, ABCA12, ABCA13, ABCB7, ABCB9, ABCB10, ABCC1, ABCC2, ABCC3, ABCC5, ABCC8, ABCC10, ABCC11 and ABCG2 among the cell lines tested. The protein level of ABC transporters tested in breast CSCs showed higher expression of ABCB8, ABCC1, ABCC2, ABCC10 and ABCG2 but downregulation of ABCB10 and ABCF2 proteins....
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Proteomic Analysis of Trichomonas vaginalis hydrogenosone
Campo Beltran, Neritza ; Tachezy, Jan (advisor) ; Nohýnková, Eva (referee) ; Yarlett, Nigel (referee)
Trichomonas vaginalis is a human pathogen that affects annually approximately 258 million people worldwide. This parasite possesses organelles of mitochondrial origin called hydrogenosomes, which generate ATP under anaerobic conditions. The identification of the protein content at the subcellular level may provide new targets for antiparasitic drugs developments as well as it contributes for our understanding of the organelles function and evolution. The availability of protocols for organelles purification and the complete genome sequence allow the study of the organellar proteomes using mass spectrometry and bioinformatics, providing a powerful strategy that combine cell biology and proteomics. In our research, we used several approaches to identify the protein composition in hydrogenosomes and mitosomes. We performed transcriptomic and proteomic analysis to investigate the molecular responses of Trichomonas vaginalis upon iron availability. Furthermore, the changes in the proteome during the development of metronidazole resistance were also studied. The organelles separated by differential and Optiprep-sucrose gradient centrifugation were analyzed with nano- RP-HPLC/MALDI-TOF/TOF. We also used Triton X-114 phase partitioning to separate membrane proteins and iTRAQ technique to label the peptides...
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Effect of chronic hypoxia on antioxidative capacity of rat myocardium.
Závišková, Kristýna ; Nováková, Olga (advisor) ; Žurmanová, Jitka (referee)
Adaptation to chronic hypoxia activates endogenous signaling cascades, which lead to cardiac protection against acute ischemia/reperfusion (I/R) injury. The molecular mechanism of this phenomenon has not been fully clarified yet. However, it was proved that reactive oxygen species (ROS) take part in cardioprotective signaling pathway inducted by chronic hypoxia. The high level of ROS must be precisely regulated by antioxidative system of a cell. The aim of diploma thesis was to examine the effect of intermittent hypobaric hypoxia (IHH, 7 000 m) on relative amount of antioxidative enzymes (peroxiredoxin 6 - PRX6, thioredoxin 1 and 2 - TRX1 and TRX2, thioredoxin reductase 1 - TRXR1) and also enzymes of iron metabolism (heme oxygenase 1 and 2 - HO1 and HO2, aconitase 1 and 2 - ACO1 and ACO2), which participate in regulation of cell redox state. Moreover, we studied the effect of adaptation to IHH and an antioxidant tempol on relative amount of calcium-independent phospholipase A2 (iPLA2). iPLA2 can remove peroxidized fatty acids from membrane phospholipids. On the other hand, iPLA2 can damage cell in I/R conditions. All enzymes were studied in homogenates from normoxic and IHH adapted rat left ventricular myocardium by Western blot. Adaptation to IHH caused a decrease of PRX6 and on the opposite an increase of...
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Proteomic analysis in hematology: Identification of alfa2-macroglobulin as a specific carrier for the hormone hepcidin and proteomic analysis of the of leukemic K562 cell differentiation induced by sodium butyrate.
Pešlová, Gabriela ; Vyoral, Daniel (advisor) ; Krijt, Jan (referee) ; Suttnar, Jiří (referee)
The thesis "The proteomic analysis in hematology: Identification of alfa2- macroglobulin as a specific carrier for the hormone hepcidin and proteomic analysis of the leukemic K562 cell differentiation induced by sodium butyrate" describes proteomic approaches, used for the identification and functional characterisation of proteins, which are binding and transporting the iron metabolism regulating hormone hepcidin. Proteomic techniques are also exploited for the identification of proteins, participating in erythroid differentiation of the model cell line K562. In the first section of the thesis, non-denaturing, native techniques, such as chromatography and native electrophoresis are used, in the second section, the control and butyrate - induced K562 cell proteomes are compared using the classical 2D - SDS polyacrylamide gel electrophoresis approach. The methods, described in the thesis are broadening the spectrum of available techniques in experimental hematology. The results, described in this thesis together with the accompanying published manuscripts broaden our knowledge in the function of proteins of iron metabolism and proteins, functioning in erythroid differentiation. Key words: proteomic analysis, hepcidin, alfa2-macroglobulin, iron metabolism, CML, K562, sodium butyrate
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Effect of iron overload on the induction of apoptosis in mammalian cells
Kabíčková, Tereza ; Balušíková, Kamila (advisor) ; Klíma, Martin (referee)
Iron cations are an important metal ions required to number of essential cell functions. On the other hand, ferrous iron can be very toxic as well. When surplus iron is present in cells, it can catalyze the formation of reactive oxygen species (especially hydroxyl radicals) by Fenton reaction. Iron homeostasis is predominantly regulated by very strict mechanisms on the level of iron uptake into the body. Moreover, iron absorption, transport and storage within the body can be also regulated using complex mechanisms which differ on the level of individual cells and on the level of whole organism. Deregulation of iron homeostasis causing an iron overload and generation of reactive oxygen radicals can evoke serious cell damage leading up to apoptotic cell death. Excess iron storage and subsequent development of oxidative stress can affect lot of different tissues in the body. The organ damages such as fibrosis, cirrhosis, hepatocellular carcinoma, heart failure, loss of β cells and glucose intolerance or diabetes mellitus in patients with iron overload are very often seen. Nevertheless, the apoptosis induced by iron overload has not been well elucidated yet. There are no complex informations about the precise mechanism by which oxidative stress affects different cell types or whether there are other...
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