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Optimizing chimeric antigenic receptors (CARs) T-cells for immunotherapy of hematological malignancies
Mucha, Martin ; Otáhal, Pavel (advisor) ; Zadražil, Zdeněk (referee)
Immunotherapy based on chimeric antigen receptor (CAR)-expressing T lymphocytes has proven to be highly successful in the treatment of acute lymphoblastic leukemia (ALL), leading to development of CAR-based immunotherapies for other hematologic malignancies. Currently, efforts are underway to refine T cell modifications to make patient treatment more effective. Each time, this modification then needs to be empirically validated in in vitro experiments. We decided to study the effect of the cytokine IL-21 on the antitumor function of CD19-specific CAR T cells using in vitro assays. A construct that co-expressed IL-21 under the control of the inducible NFAT promoter together with CARs against CD19 was introduced into T cells. In a series of experiments, the properties of these cells were compared after coculture with tumor B cell lines and CLL cells obtained from patients. The results showed that CAR T cells that express IL-21 proliferate and activate better, even after repeated stimulation with leukemia cells. In addition to CARs specific against the CD19 molecule, we also investigated CARs specific against the CLL1 molecule, which has been described in the literature as one of the promising targets for the treatment of AML. We prepared CAR T cells against CLL1 producing IL-21. For this purpose, we...
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Chimeric antigen receptors in the treatment of hematological malignacies
Fellnerová, Adéla ; Filipp, Dominik (advisor) ; Černý, Jan (referee)
Chimeric antigen receptors (CARs) are artificial molecules composed of an antibody derived antigen recognition domain which is fused with the signal transduction domain derived from the physiological TCR. CAR technology used to transduce patients T-cells and endow them with the specificity to a certain surface antigen, has been a major breakthrough in cancer immunotherapy in the last decade. This strategy has been most successful for treating hematologic malignancies. Various CAR approaches and applications are currently tested mainly in the United States where many clinical trials have been launched. In contrast, in the Czech Republic, there are only a few teams focused on this topic with no clinical trials going on. During my work on this diploma thesis and in close collaboration with MUDr. Pavel Otáhal, PhD., who is working on implementation of CAR technology into the Czech clinics for the treatment of B-cell malignancies, individual functional CARs were prepared and tested. CAR expressing Jurkat T-cell lines were generated using a lentiviral vector transduction system. CAR functionality was determined by two different assays. We have shown that individual CARs are able to recognize the B-cell lineage specific antigens CD19 and CD20 and significantly up-regulate the activation molecule CD69 upon...
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