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Myeloid - Derived Suppressor Cell in the Context of Tumor Microenvironment
Košťálová, Monika ; Šírová, Milada (advisor) ; Indrová, Marie (referee)
Today, tumors are considered not only as a complex of genetically mutated cells with pathological function of excessive proliferation, invasiveness and increased viability, but increased attention is paid for the tumor microenvironment created by the tumor itself. This microenvironment generates conditions, which differ from the normal tissues - for example local hypoxia, lactic acidosis and tumor- induced immunosupression - all these abnormalities lead to increased viability of the tumor tissue. Myeloid-derived suppressor cells (MDSCs) seem to be one of the main mediators of the escape from immunosurveillance. MDSCs represent a heterogenous cell population of myeloid origin. In active state, MDSCs produce enhanced amount of reactive oxygen species, nitrogen compounds and arginase, which represent the mechanisms of the suppression of the anti-tumor immune response. That makes MDSCs a promising therapeutic target. However, recent studies also point out the physiological role of MDSCs, which seems to be essential to consider for succesfull MDSCs targeting. Key words: Tumor microenvironment, immunosurveillance theory, immunoediting, myeloid-derived suppressor cells, immunosuppresion in tumors, therapeutic targeting of MDSCs, physiological role of MDSCs Powered by TCPDF (www.tcpdf.org)
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Mechanisms of specific immune response interactions with tumor cells.
Kaššák, Filip ; Hořejší, Václav (advisor) ; Černý, Jan (referee)
Interactions between the immune system and tumors have been among the highlights of present immunological research. An extensive body of new knowledge recently substantiated the long-presumed concept of cancer immunosurveillance. Immune system searches the organism for cells expressing tumor antigens or cellular stress signals and destroys them. T-cells, NK-cells and dendritic cells, as well as cytokine signaling and direct cell cytotoxicity play dominant role in this process. However, a fraction of nascent tumors can evade these mechanisms and create a dynamic equilibrium, gradually sculpting its phenotype by clonal selection. Eventually, tumor cells escape immune control by concealing themselves from recognition or by actively subjugating local immune response. This immunosubversion results in formation of immunosuppressive tumor microenvironment by recruiting protumorigenic cell populations, such as Treg cells, macrophages and myeloid derived suppressor cells. Soluble signaling molecules, as well as surface- expressed immune checkpoint molecules are exploited by tumor cells for inhibition of anti-tumor immunity. Highly effective therapeutic antibodies blocking these checkpoints have been developed for clinical use, with many more in current trials. Several other promising immunotherapeutic...
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Myeloid - Derived Suppressor Cell in the Context of Tumor Microenvironment
Košťálová, Monika ; Šírová, Milada (advisor) ; Indrová, Marie (referee)
Today, tumors are considered not only as a complex of genetically mutated cells with pathological function of excessive proliferation, invasiveness and increased viability, but increased attention is paid for the tumor microenvironment created by the tumor itself. This microenvironment generates conditions, which differ from the normal tissues - for example local hypoxia, lactic acidosis and tumor- induced immunosupression - all these abnormalities lead to increased viability of the tumor tissue. Myeloid-derived suppressor cells (MDSCs) seem to be one of the main mediators of the escape from immunosurveillance. MDSCs represent a heterogenous cell population of myeloid origin. In active state, MDSCs produce enhanced amount of reactive oxygen species, nitrogen compounds and arginase, which represent the mechanisms of the suppression of the anti-tumor immune response. That makes MDSCs a promising therapeutic target. However, recent studies also point out the physiological role of MDSCs, which seems to be essential to consider for succesfull MDSCs targeting. Key words: Tumor microenvironment, immunosurveillance theory, immunoediting, myeloid-derived suppressor cells, immunosuppresion in tumors, therapeutic targeting of MDSCs, physiological role of MDSCs Powered by TCPDF (www.tcpdf.org)
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