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Interaction of a surface marker of immune cells with low-molecular weight ligands and their polymer conjugates
Šimonová, Lenka ; Konvalinka, Jan (advisor) ; Obšil, Tomáš (referee)
Millions of people worldwide die of cancer every year. In the last decade, im- munotherapy offered new treatment options achieving long-lasting remissions in a number of patients. Several new immunotherapy-based drugs have been ap- proved by Food and Drug Administration. However, majority of patients either do not respond or soon relapse. Combination of therapies as well as exploring new immune checkpoints seems promising. This thesis focuses on the new immunotherapeutic target CD73. CD73 is membrane ectonucleotidase, widely expressed on the regulatory leukocytes and on cancer cells. The enzymatically active CD73 contributes to the tumour mi- croenvironment by production of immunosuppressive adenosine. This novel im- mune checkpoint is being intensively studied. This thesis aims on development of new approaches for targeting and inhibition of CD73. Soluble recombinant CD73 (rhCD73) was prepared in mammalian expression system and transfectants stably expressing membrane-bound CD73 were prepared as well. Inhibitors necessary for both of my goals have been designed based on published inhibitor of CD73. Development and evaluation of novel antibody mimetic for CD73 characteri- sation was done. The so-called iBody, HPMA polymer conjugate decorated with CD73 inhibitor for targeting, fluorophore for...
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Interaction of a surface marker of immune cells with low-molecular weight ligands and their polymer conjugates
Šimonová, Lenka ; Konvalinka, Jan (advisor) ; Obšil, Tomáš (referee)
Millions of people worldwide die of cancer every year. In the last decade, im- munotherapy offered new treatment options achieving long-lasting remissions in a number of patients. Several new immunotherapy-based drugs have been ap- proved by Food and Drug Administration. However, majority of patients either do not respond or soon relapse. Combination of therapies as well as exploring new immune checkpoints seems promising. This thesis focuses on the new immunotherapeutic target CD73. CD73 is membrane ectonucleotidase, widely expressed on the regulatory leukocytes and on cancer cells. The enzymatically active CD73 contributes to the tumour mi- croenvironment by production of immunosuppressive adenosine. This novel im- mune checkpoint is being intensively studied. This thesis aims on development of new approaches for targeting and inhibition of CD73. Soluble recombinant CD73 (rhCD73) was prepared in mammalian expression system and transfectants stably expressing membrane-bound CD73 were prepared as well. Inhibitors necessary for both of my goals have been designed based on published inhibitor of CD73. Development and evaluation of novel antibody mimetic for CD73 characteri- sation was done. The so-called iBody, HPMA polymer conjugate decorated with CD73 inhibitor for targeting, fluorophore for...
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Development of analytical tools for quantification and screening for inhibitors of glutamate carboxypeptidases II and III
Navrátil, Václav ; Konvalinka, Jan (advisor) ; Obšil, Tomáš (referee) ; Šedo, Aleksi (referee)
Glutamate carboxypeptidase II (GCPII) usually called prostate specific membrane antigen (PSMA) is membrane bound metallopeptidase expressed mainly in prostate carcinoma (PCa). Agents targeting GCPII suitable for both imaging and treatment of PCa are in development and they show promising results in advanced clinical trials. Some studies showed that GCPII may serve also as PCa blood serum marker, but this has not been validated due to the lack of methods suitable for accurate detection of GCPII in human blood. Moreover, GCPII is also expressed in brain, where it cleaves inhibitory N-acetyl-α-L- aspartyl-L-glutamate (NAAG) to release excitatory L-glutamate and GCPII inhibition has been shown to be neuroprotective in animal models of several neuropathies. Tight binding inhibitors of GCPII have been identified by rational design, but all have poor bioavailability and thus cannot be used in clinics. Identifying new scaffolds by 'brute force' screening methods is thus essential; however, no such method for GCPII has been developed so far. Glutamate carboxypeptidase III (GCPIII) is also expressed in brain and cleaves NAAG. It is thus an important protein for understanding of GCPII function as well as GCPII targeting in medicine. Here, we focused on development of novel methods for quantification of both...
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