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Cancer Immunotherapy exploiting engineered antibody fragments against prostate-specific membrane antigen
Das, Gargi ; Bařinka, Cyril (advisor) ; Vaněk, Ondřej (referee) ; Ormsby, Tereza (referee)
Prostate cancer (PCa) remains a leading cause of male cancer-related mortality, necessitating thus the development of novel therapeutic approaches as conventional treatments have limited efficacy. Prostate-specific membrane antigen (PSMA) is an established biomarker for both imaging and therapy of PCa, as it is highly upregulated in neoplastic PCa tissues and metastatic castration- resistant prostate cancer. Consequently, immunological targeting of PSMA has gained significant attention as a therapeutic platform for the management of the disease. The thesis is focused on engineering of antibody fragments and fusion proteins derived from the high affinity anti-PSMA 5D3 monoclonal antibody that can be used as immune cell engagers to target and eliminate PSMA-positive cells. To this end, we engineered 5D3 single chain variable fragments (scFv) that were subsequently fused to anti-CD3 scFv and CP33 sequences, creating thus immune cell engagers targeting T-cells (BiTE) and monocytes (5D3-CP33), respectively. The engagers were expressed in insect cells, purified to homogeneity and their biophysical and functional characteristics evaluated using size exclusion chromatography, differential scanning fluorimetry, ELISA and flow cytometry. Ensuing cell-based assays revealed that both BiTE and 5D3-CP33 can...
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Physiological and pathophysiological role of GCPII in the body
Sedlák, František ; Konvalinka, Jan (advisor) ; Klener, Pavel (referee) ; Smetana, Karel (referee)
Glutamate carboxypeptidase II (GCPII) is a metalloprotease responsible for cleaving the neurotransmitter N-acetyl-aspartyl-glutamate in the central nervous system to N-acetyl aspartate and glutamate. At the same time, in the human small intestine, it facilitates folate absorption by cleaving γ-linked glutamate from folyl-poly-γ-glutamate. In humans, GCPII is also expressed in a number of other organs (e.g., kidney and prostate) and tumors, where its physiological function is unknown. In an attempt to characterize the physiological function of the enzyme, we first characterized the commercially available monoclonal antibodies against GCPII. Further, we developed a fully synthetic replacement based on a hydrophilic polymer with bound GCPII inhibitors. We evaluated the suitability of using a murine biomodel to study GCPII function in vivo. We found the difference in GCPII expression profile in mouse and human. We did not observe GCPII in either the mouse prostate or small intestine. To assess physiological and pathophysiological functions of the enzyme we analyzed a GCPII-deficient mouse model. Apart from the observation of enlarged seminal vesicles in older males, we did not detect any other obvious phenotype. Similarly, we confirmed that GCPII cannot cleave amyloid peptides (Aβ1-40 and Aβ1-42)....
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