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The effects of chemicals on cell lines viability
Zemanová, Anita ; Obruča, Stanislav (referee) ; Brázda, Václav (advisor)
The subject of this diploma thesis is the influence of selected chemicals on cell lines viability. The theoretical part contains options of cancer treatment by using chemotherapeutics including their mechanism of action and side effects. Additionally, there are described alternative DNA structures with focus on G-quadruplexes and ligands that interact with G-quadruplexes. These compounds are promising drugs in cancer treatment due to their high specificity to G-quadruplexes, which are found in telomeres of chromosomes. G-quadruplex interacting ligands by stabilization of G-quadruplexes can inhibit the enzyme telomerase, which is necessary for telomere lengthening of rapidly dividing cancer cells. Additionally, the possibilities of viability assays are summarized in the theoretical part. The aim of the experimental part was comparing cytotoxic activity between commercially available chemotherapeutics and selected G-quadruplex interacting ligands. Another task was the study of apoptosis and necrosis after the treatment of selected chemicals on cell lines and after the localization of ligands interacting with G-quadruplexes in the cells of the breast cancer cell line. In the experimental part, G-quadruplex interacting ligands have been shown to exhibit similar cytotoxic activity to commercially available chemotherapeutic agents.
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Detection of Pt derivatives using ICP mass spectrometry
Zelinová, Karin ; Hložková, Michaela (referee) ; Vašinová Galiová, Michaela (advisor)
This Bachelor´s thesis deals with the monitoring of chemotherapeutic penetration into tumor cells. Due to the toxicity of drugs, targeting them is absolutely essential from the point of view of minimizing the interference with healthy tissue of the patient. In order to achieve the best possible targeting, it is necessary to monitor the penetration of chemotherapeutics into cells. The subject of study was platinum-based drugs therefore the ICP-MS method was chosen to analyse the drug content in cells, because it is suitable for fast and reliable detection of trace amounts of elements. The theoretical part of the Bachelor´s thesis focuses on the description of ICP-MS, as a method, which was chosen for the detection of platinum derivates. It also summarizes the use of platinum-based drugs in cancer therapy. The practical part of the thesis deals with the analysis of cells exposed to platinum-based chemotherapeutics. Detection and quantification of platinum in the cells were determined by both SN-ICP-MS and LA-ICP-MS. To verify the results, the analysis of the solution was also performed by the AAS method. The results show, that the drug was most readily taken up by A2780 cells. It was also shown that cisplatin was the most accumulated drug.
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Analysis of chemotherapeutics in extracellular vesicles
Kožnarová, Simona ; Hložková, Michaela (referee) ; Vašinová Galiová, Michaela (advisor)
Extracellular vesicles are a newly discovered way of cell-to-cell communication. The issue is still significantly unexplored, especially in the case of cancer. The goal of this pilot study was to attempt to detect platinum contained in extracellular vesicles by ICP-MS. In this study, samples of ovarian cancer cell lines treated with platinum derivatives, a type of chemotherapeutic drug, were used. This method was proved as able to detect platinum, even as able to determine its concentration reliably. The quantity of platinum in vesicles was around 1–2 % of the total platinum added to the system. The results varied according to the used platinum derivative, the cell line and the number of cells releasing the vesicles. Most platinum was determined in vesicles of the SK-OV-3 line, which is naturally resistant to this treatment, for all platinum derivatives. From these results it can be concluded that the use of ICP-MS is also advisable for additional research on this issue.
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Antibiotická rezistence patogenních bakterií u vybraných druhů zájmových zvířat
Kaliská, Tereza
Some strains of pathogenic bacteria are capable of resistance to antibacterial agents. This resistance makes it difficult to treat diseases in both human and veterinary medicine. The most well-known pathogens of domestic animals, mainly dogs and cats, are mentioned in the context of the bachelor thesis. The thesis highlights the importance of understanding the mechanisms of resistance. It describes mobile elements, the principle of efflux pumps and spontaneous chromosomal mutations. Prevention should be the basis for preventing resistance from spreading further in the population. The observance of good hygiene habits, the appropriate use of antibiotics in the correct dosage and legislative adjustments on agricultural farms should be implemented on a global scale. The development of antimicrobial substances, including chemotherapeutics, should continue. At the same time, more empha-sis should be placed on the search for new alternatives. Mainly plant phytobiotics look promising.
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Detection of Pt derivatives using ICP mass spectrometry
Zelinová, Karin ; Hložková, Michaela (referee) ; Vašinová Galiová, Michaela (advisor)
This Bachelor´s thesis deals with the monitoring of chemotherapeutic penetration into tumor cells. Due to the toxicity of drugs, targeting them is absolutely essential from the point of view of minimizing the interference with healthy tissue of the patient. In order to achieve the best possible targeting, it is necessary to monitor the penetration of chemotherapeutics into cells. The subject of study was platinum-based drugs therefore the ICP-MS method was chosen to analyse the drug content in cells, because it is suitable for fast and reliable detection of trace amounts of elements. The theoretical part of the Bachelor´s thesis focuses on the description of ICP-MS, as a method, which was chosen for the detection of platinum derivates. It also summarizes the use of platinum-based drugs in cancer therapy. The practical part of the thesis deals with the analysis of cells exposed to platinum-based chemotherapeutics. Detection and quantification of platinum in the cells were determined by both SN-ICP-MS and LA-ICP-MS. To verify the results, the analysis of the solution was also performed by the AAS method. The results show, that the drug was most readily taken up by A2780 cells. It was also shown that cisplatin was the most accumulated drug.
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Analysis of chemotherapeutics in extracellular vesicles
Kožnarová, Simona ; Hložková, Michaela (referee) ; Vašinová Galiová, Michaela (advisor)
Extracellular vesicles are a newly discovered way of cell-to-cell communication. The issue is still significantly unexplored, especially in the case of cancer. The goal of this pilot study was to attempt to detect platinum contained in extracellular vesicles by ICP-MS. In this study, samples of ovarian cancer cell lines treated with platinum derivatives, a type of chemotherapeutic drug, were used. This method was proved as able to detect platinum, even as able to determine its concentration reliably. The quantity of platinum in vesicles was around 1–2 % of the total platinum added to the system. The results varied according to the used platinum derivative, the cell line and the number of cells releasing the vesicles. Most platinum was determined in vesicles of the SK-OV-3 line, which is naturally resistant to this treatment, for all platinum derivatives. From these results it can be concluded that the use of ICP-MS is also advisable for additional research on this issue.
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Iron homeostasis in malaria
Wernerová, Klára ; Šuťák, Róbert (advisor) ; Voleman, Luboš (referee)
Although malaria is a well-studied infectious disease, we are still unable to fight it effectively, as evidenced by a large number of infected people. Many drugs are available against malaria. However, because of incessantly emerging resistances, new, more effective antimalarials need to be developed. One possibility is to target the parasite's iron metabolism, the essential element of all organisms. Iron participates in DNA synthesis, respiration, energy production. It acts as a cofactor of ribonucleotide reductase, and metalloproteins with FeS clusters or heme. During the infection, the parasite must compete with the host for nutrients, including iron. The mechanism of iron uptake or excretion in malaria parasite is not completely clear. Only two iron transporters are known, but it is already evident, that there must be more of them. The Plasmodium parasite digests a large amount of hemoglobin, which is degraded into free heme and denatured globin. Free heme is toxic to the cell though. Plasmodium defends itself from the toxicity of free heme by forming chemically inert hemozoin. This unique mechanism of protection against the free heme toxicity is very useful for Plasmodium and other blood parasites, but it also becomes an advantageous target for drugs because the mechanism is present only in...
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The effects of chemicals on cell lines viability
Zemanová, Anita ; Obruča, Stanislav (referee) ; Brázda, Václav (advisor)
The subject of this diploma thesis is the influence of selected chemicals on cell lines viability. The theoretical part contains options of cancer treatment by using chemotherapeutics including their mechanism of action and side effects. Additionally, there are described alternative DNA structures with focus on G-quadruplexes and ligands that interact with G-quadruplexes. These compounds are promising drugs in cancer treatment due to their high specificity to G-quadruplexes, which are found in telomeres of chromosomes. G-quadruplex interacting ligands by stabilization of G-quadruplexes can inhibit the enzyme telomerase, which is necessary for telomere lengthening of rapidly dividing cancer cells. Additionally, the possibilities of viability assays are summarized in the theoretical part. The aim of the experimental part was comparing cytotoxic activity between commercially available chemotherapeutics and selected G-quadruplex interacting ligands. Another task was the study of apoptosis and necrosis after the treatment of selected chemicals on cell lines and after the localization of ligands interacting with G-quadruplexes in the cells of the breast cancer cell line. In the experimental part, G-quadruplex interacting ligands have been shown to exhibit similar cytotoxic activity to commercially available chemotherapeutic agents.
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Structural biology of the enzymes involved in mercaptopurine metabolism
Soldánová, Anna ; Maloy Řezáčová, Pavlína (advisor) ; Novotný, Marian (referee)
Mercaptopurine (6-mercaptopurine) together with azathioprine and 6-thioguanine belong to a group of widely used chemotherapeutics and immunosuppressants. However, insufficient therapy outcome or severe adverse effects such as myelosuppression are still being reported. Technological progress in DNA and RNA sequencing facilitates effective identification of causative genes responsible for the therapy failure, i.e., description of genetic variants for enzymes involved in metabolism of physiological purines as well as thiopurine drugs. Variants of these enzymes may substantially alter concentrations of cytotoxic forms of thiopurines, which affect therapy success rates. Currently, a number of mutations in genes that play role in thiopurine metabolism have been annotated. Nevertheless, molecular mechanisms underlying the effect of these mutations are not fully elucidated. Knowledge of 3D structure for these enzymes may shed light on the effect of the genetic variants to protein function and mechanisms modulating therapeutic efficacy of thiopurines. This thesis focuses mainly on biochemical and structural characterization of thiopurine-S-methyltransferase, fosfatase NUDT15 and cytosolic 5′-nucleotidase II. It summarizes current state of knowledge and emphasizes the importance of structural biology methods for...
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