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Antitumor activity of HPMA copolymer-bound gemcitabine conjugate potentiation by IAP inhibitors
Ivančík, Martin ; Kovář, Marek (advisor) ; Anděra, Ladislav (referee)
Cancer represents a significant global health challenge, with a substantially increasing incidence. There is a critical need for enhanced prevention, early detection, and improved therapeutic approaches to treat malignant diseases. While chemotherapy remains a standard treatment for many cancers, its efficacy is often limited by cytotoxic effects on healthy cells and numerous side toxicities. In response to these challenges, novel strategies such as combination therapies and drug delivery systems have emerged. In this project, we investigated the cytostatic and cytotoxic effects of two inhibitors of IAP (inhibitor of apoptosis) proteins, LCL-161 and AZD5582, and their potential to boost the anticancer activity of gemcitabine. These compounds were evaluated in five human cancer cell lines: pancreatic (PANC1, BxPC- 3, MiaPaca-2), prostatic (PC-3), and breast (MDA-MB-231) carcinomas. Both IAP inhibitors demonstrated anticancer activity as single agents, with the MiaPaca-2 and BxPC-3 cell lines showing the highest sensitivity. No correlation was observed between the expression levels of IAP genes (cIAP1, cIAP2, XIAP) and the sensitivity of cell lines to IAP inhibitors. However, four of five tested cell lines possessed a consistent pattern in the expression of these three genes. IAP inhibitors were able...
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Anti-tumor and immunomodulatory effect of polymer conjugates based on HPMA carrying gemcitabine
Klusová, Natálie ; Beránek, Martin (advisor) ; Macháček, Miloslav (referee)
Charles University Faculty of Pharmacy in Hradec Králové Department of Biochemical Sciences Candidate: Bc. Natálie Klusová Supervisor: prof. PharmDr. Martin Beránek, Ph.D. Consultant: RNDr. Milada Šírová, Ph.D. Title of diploma thesis: Anti-tumor and immunomodulatory effect of polymer conjugates based on HPMA carrying gemcitabine The diploma thesis is focused on the anti-tumor and immunomodulatory effect of polymer conjugates based on HPMA carrying gemcitabine (Gem). We investigated the effects of four polymer conjugates (P-Gem1-P-Gem4), which had similar molecular weight and carried approximately the same amount of the drug. The only difference were the used spacers for Gem linkage. We used the following spacers: β-Alanin (P-Gem1); glycyl-phenylalanyl- leucyl-glycyl (P-Gem2); aminocaproic acid (P-Gem3); valeric acid (P-Gem4). Based on the assessed IC50 values for tumor cell lines 4T1, LL2, Panc02, MiaPaca2 and Panc1 the samples were divided into two groups: a) samples with quick rate of Gem release (P- Gem1, P-Gem2); b) samples with slow rate of Gem release (P-Gem3, P-Gem4). The in vivo stability of the conjugate affects systemic toxicity and anti-tumor activity, which was proven by the experiment performed on BALB/c mice bearing murine mammary carcinoma cells (4T1). We enrolled significant...
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Anti-tumor and immunomodulatory effect of polymer conjugates based on HPMA carrying gemcitabine
Klusová, Natálie ; Beránek, Martin (advisor) ; Macháček, Miloslav (referee)
Charles University Faculty of Pharmacy in Hradec Králové Department of Biochemical Sciences Candidate: Bc. Natálie Klusová Supervisor: prof. PharmDr. Martin Beránek, Ph.D. Consultant: RNDr. Milada Šírová, Ph.D. Title of diploma thesis: Anti-tumor and immunomodulatory effect of polymer conjugates based on HPMA carrying gemcitabine The diploma thesis is focused on the anti-tumor and immunomodulatory effect of polymer conjugates based on HPMA carrying gemcitabine (Gem). We investigated the effects of four polymer conjugates (P-Gem1-P-Gem4), which had similar molecular weight and carried approximately the same amount of the drug. The only difference were the used spacers for Gem linkage. We used the following spacers: β-Alanin (P-Gem1); glycyl-phenylalanyl- leucyl-glycyl (P-Gem2); aminocaproic acid (P-Gem3); valeric acid (P-Gem4). Based on the assessed IC50 values for tumor cell lines 4T1, LL2, Panc02, MiaPaca2 and Panc1 the samples were divided into two groups: a) samples with quick rate of Gem release (P- Gem1, P-Gem2); b) samples with slow rate of Gem release (P-Gem3, P-Gem4). The in vivo stability of the conjugate affects systemic toxicity and anti-tumor activity, which was proven by the experiment performed on BALB/c mice bearing murine mammary carcinoma cells (4T1). We enrolled significant...
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