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Use of Hsp90 as a target of biological therapy of tumors
Bednárová, Kristína ; Bouchalová,, Pavla (referee) ; Müller, Petr (advisor)
Antibody-drug conjugates (ADCs) represent a relatively new class of highly potent anti-tumor drugs. Thanks to highly specific monoclonal antibodies, ADCs are able to deliver a cytotoxic payload directly to tumor cells and thus minimize damage to healthy cells. Therapeutic efficacy depends on the selection of an appropriate antigen that undergoes internalization upon conjugate binding. For this project, pro-oncogenic Hsp90 and c-Met were selected as potential targets. Hsp90 is a molecular chaperone that is overexpressed in tumor cells and, in addition, can be translocated to the membrane of these cells. Overexpressed Hsp90 contributes to angiogenesis, tumor cell motility or metastasis. C-Met is a receptor tyrosine kinase that plays a central role in epithelial morphogenesis and malignant transformation. Its increased activity induces pathways responsible for the proliferation, invasion and migration of malignant cells. The aim of the diploma thesis was to study the potential use of antibodies with anti-Hsp90 and anti-c-Met activities in anti-tumor therapy. The experimental part involved the purification of the EEV1-2.1 antibody with anti-Hsp90 activity and its subsequent characterization. Furthermore, it included the characterization and selection of anti-c-Met antibody clones. It was also focused on selection and optimization of the right conjugation strategy. The activity of the antibodies and their conjugates was examined by fluorescence microscopy and flow cytometry. In vivo experiments were further aimed at verifying the efficacy of ADC by monitoring the rate of inhibition of proliferation of selected tumor cell lines. The results revealed that the EEV1 antibody does not enter the cells specifically by antigen-mediated way, and is therefore not suitable for use in conjugation with a cytostatic drug. On the other hand, anti-c-Met antibody ADC conjugates exhibit high affinity for native antigen, internalization through antigen binding, and additionally inhibited proliferation of c-Met overexpressing OE33 cells.
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Use of Hsp90 as a target of biological therapy of tumors
Bednárová, Kristína ; Bouchalová,, Pavla (referee) ; Müller, Petr (advisor)
Antibody-drug conjugates (ADCs) represent a relatively new class of highly potent anti-tumor drugs. Thanks to highly specific monoclonal antibodies, ADCs are able to deliver a cytotoxic payload directly to tumor cells and thus minimize damage to healthy cells. Therapeutic efficacy depends on the selection of an appropriate antigen that undergoes internalization upon conjugate binding. For this project, pro-oncogenic Hsp90 and c-Met were selected as potential targets. Hsp90 is a molecular chaperone that is overexpressed in tumor cells and, in addition, can be translocated to the membrane of these cells. Overexpressed Hsp90 contributes to angiogenesis, tumor cell motility or metastasis. C-Met is a receptor tyrosine kinase that plays a central role in epithelial morphogenesis and malignant transformation. Its increased activity induces pathways responsible for the proliferation, invasion and migration of malignant cells. The aim of the diploma thesis was to study the potential use of antibodies with anti-Hsp90 and anti-c-Met activities in anti-tumor therapy. The experimental part involved the purification of the EEV1-2.1 antibody with anti-Hsp90 activity and its subsequent characterization. Furthermore, it included the characterization and selection of anti-c-Met antibody clones. It was also focused on selection and optimization of the right conjugation strategy. The activity of the antibodies and their conjugates was examined by fluorescence microscopy and flow cytometry. In vivo experiments were further aimed at verifying the efficacy of ADC by monitoring the rate of inhibition of proliferation of selected tumor cell lines. The results revealed that the EEV1 antibody does not enter the cells specifically by antigen-mediated way, and is therefore not suitable for use in conjugation with a cytostatic drug. On the other hand, anti-c-Met antibody ADC conjugates exhibit high affinity for native antigen, internalization through antigen binding, and additionally inhibited proliferation of c-Met overexpressing OE33 cells.
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The role of ADAM17 and other metalloproteases in liver pathological processes
Žbodáková, Oľga ; Sedláček, Radislav (advisor) ; Muchová, Lucie (referee) ; Stříšovský, Kvido (referee)
1 Abstract Liver fibrosis is a condition described by extensive accumulation of scar tissue in the liver. With further progression, it leads to cirrhosis or even to hepatocellular carcinoma. Liver fibrosis accompanies every chronic liver disease and its prevalence in adult European population is estimated to be around 4%. During my dissertation work, I studied the function of three members of Metzincin family of metalloproteinases - ADAM17, ADAM10 and MMP-19, in liver fibrosis and liver regeneration using mouse genetic models. ADAM17 and ADAM10 are important regulators of signalling pathways which are involved in immune response as well as differentiation. Both proteases are able to cleave ectodomains of their substrates from cell membrane, affecting bioavailability of ligands and functionality of receptors. Several of their substrates are involved in liver pathologies. MMP-19 on the other hand, is a metalloprotease mainly involved in extracellular matrix cleavage, important process in fibrosis development, as well as resolution of fibrosis. Our results demonstrate that ablation of ADAM10 results in increased susceptibility to liver fibrosis in mice, both spontaneous and toxin induced. ADAM10 deficiency affected biliary epithelium, as we detected higher markers of biliary damage in serum of ADAM10 deficient...
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