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Noncanonical functions of IL-1α
Novák, Josef ; Pospíšek, Martin (advisor) ; Černý, Jan (referee) ; Brdička, Tomáš (referee)
1α (IL 1α) is a multifunctional cytokine 1α is 1α independent on the receptor sig 1α is responsible for 1α to the plasma membrane. 1α activates express κB, binds to 1α 1α 1α to the plasma membrane 1α to signal 1α is required for membrane 1α exter 1α anchoring 1α 1α 1α with tumor suppressor p53 following genotoxic stress is further described in human cell 1α coloca
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Cell response to genotoxic stress-based anti-cancer therapies
Imrichová, Terezie ; Hodný, Zdeněk (advisor) ; Rossmeislová, Lenka (referee) ; Rotrekl, Vladimír (referee)
The dissertation deals with a cell response to genotoxic stress, specifically to anti-cancer treatments with a genotoxic mechanism of action. In principle, cells can respond to these perturbing stimuli in several ways: in case of severe DNA damage, they usually undergo apoptosis or enter senescence. In case of minor DNA damage, or upon defective checkpoint mechanisms, they may continue the cell cycle, either with successfully repaired DNA or with mutations of various kind. Thanks to selection pressure, the mutations that provide cells with a certain growth advantage under conditions of continuing genotoxic stress, gradually accumulate and render the tumor treatment-resistant. In my thesis, I focus on several aspects of this whole process. First, I participated in a characterization of a radioresistant and anoikis-resistant population of prostate cancer cells. This population was generated by irradiating cells 35 times by 2 Gy, a regime used in clinics. After this treatment, a population of low-adherent cells emerged that demonstrated increased expression of EMT- and stem cell markers. The low-adherent state of these cells was maintained by Snail signaling and their anoikis resistance by ERK1/2 signaling. Interestingly, after a protracted period of time, these cells were able to re-adhere and...
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Vliv chemoterapie a genotoxického stresu na imunologické vlastnosti nádorových buněk.
Horňáková, Michaela ; Reiniš, Milan (advisor) ; Drbal, Karel (referee)
Cancer treatment includes the use of chemotherapeutic agents, which have various effects on tumour cells, such as direct toxicity to cancer cells, immunogenic cell death induction and changes in cancer cells phenotype. Throughout the last decade many researchers have been focusing on the induction of genotoxic stress and cellular senescence, which chemotherapy can trigger. Even though induction of senescence in cancer cells represents an important mechanism for tumour suppression, there has been increasing evidence that shifting cancer cells into a senescent state by chemotherapy is not always beneficial. Senescent cells are associated with a specific secretory phenotype, which allows such cells to alter their microenvironment, modulate anti-tumour immunity, induce tumour suppression and even promote cancer development. Therefore, senescent cells elimination by innate or specific immunity, which can be boosted by immunotherapy, can be an important barrier preventing tumour growth. Powered by TCPDF (www.tcpdf.org)
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Posttranslational modification of the adapter protein DAXX in the cellular response to genotoxic stress
Bražina, Jan ; Anděra, Ladislav (advisor) ; Černý, Jan (referee) ; Vodička, Pavel (referee)
Maintaining the chromosome continuity and complete genetic information in human cells is crucial for cell survival and the whole organism. It prevents life-threatening pathologies and preserves genetic continuity. However, cellular DNA is exposed to both endogenous and exogenous stress damaging its content and integrity. This stress activates mechanisms involving detection and repair of these damaged sites (DDR). One of the most serious types of DNA damage double-stranded breaks (DSB) occuring when both strands are severed. DSBs trigger wave of PTMs that regulate protein interactions, nuclear localization and catalytic activity of hundreds of proteins. Such modifications include acetylation, methylation, SUMOylation, ubiquitinylation and especially phosphorylation. The most important kinases involved in DDR kinases are ATM, ATR and DNA-PK. These kinases are activated immediately after the detection of the damaged area. DAXX (Death-associated protein 6) is an adapter and predominantly nuclear protein, which is involved in chromatin remodeling, gene expression modulation, antiviral response and depositing histone H3.3 variants into chromatin or telomeres. Daxx is essential for murine embryogenesis, since the homozygous deletion is lethal in E9.5-10. In 2006 a study mapping the substrates of kinases...
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Noncanonical functions of IL-1α
Novák, Josef
1α (IL 1α) is a multifunctional cytokine 1α is 1α independent on the receptor sig 1α is responsible for 1α to the plasma membrane. 1α activates express κB, binds to 1α 1α 1α to the plasma membrane 1α to signal 1α is required for membrane 1α exter 1α anchoring 1α 1α 1α with tumor suppressor p53 following genotoxic stress is further described in human cell 1α coloca
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Genotoxic stress and senescence in tumour cells: impact on the tumour growth and anti-tumour immunity.
Sapega, Olena ; Reiniš, Milan (advisor) ; Brábek, Jan (referee) ; Šmahel, Michal (referee)
Premature cellular senescence is the process of permanent cell cycle arrest in response to various inducers, such as DNA damage, oxidative stress, chemotherapy agents, and irradiation. Senescent cells produce and secrete numbers of cytokines, chemokines, growth factors, which compose specific senescence-associated secretory phenotype (SASP). Senescence is considered to be an important barrier against tumor progression. On the other hand, senescent cells can also exert protumorigenic effects in their microenvironment. Based on this concept, the major aim of this thesis was to determine tumor cells senescence in terms of different inducers, namely chemotherapeutic agent docetaxel (DTX) and cytokines IFNγ and TNFα, and to demonstrate the role of immunotherapy in senescent cells elimination. Our results show that DTX-induced senescent cells can exert a tumor-promoting effect when co-injected with proliferating cells in mice. Importantly, we demonstrate that IL-12-based immunotherapy suppresses senescence-accelerated tumor growth. These results suggest that IL-12-based immunotherapy can be effectively used in anti-tumor therapy mainly in a case when the microenvironment is altered by the presence of tumor senescent cells. On the other hand, the data we obtained in vitro show that bystander or...
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Noncanonical functions of IL-1α
Novák, Josef ; Pospíšek, Martin (advisor) ; Černý, Jan (referee) ; Brdička, Tomáš (referee)
1α (IL 1α) is a multifunctional cytokine 1α is 1α independent on the receptor sig 1α is responsible for 1α to the plasma membrane. 1α activates express κB, binds to 1α 1α 1α to the plasma membrane 1α to signal 1α is required for membrane 1α exter 1α anchoring 1α 1α 1α with tumor suppressor p53 following genotoxic stress is further described in human cell 1α coloca
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Cell response to genotoxic stress-based anti-cancer therapies
Imrichová, Terezie ; Hodný, Zdeněk (advisor) ; Rossmeislová, Lenka (referee) ; Rotrekl, Vladimír (referee)
The dissertation deals with a cell response to genotoxic stress, specifically to anti-cancer treatments with a genotoxic mechanism of action. In principle, cells can respond to these perturbing stimuli in several ways: in case of severe DNA damage, they usually undergo apoptosis or enter senescence. In case of minor DNA damage, or upon defective checkpoint mechanisms, they may continue the cell cycle, either with successfully repaired DNA or with mutations of various kind. Thanks to selection pressure, the mutations that provide cells with a certain growth advantage under conditions of continuing genotoxic stress, gradually accumulate and render the tumor treatment-resistant. In my thesis, I focus on several aspects of this whole process. First, I participated in a characterization of a radioresistant and anoikis-resistant population of prostate cancer cells. This population was generated by irradiating cells 35 times by 2 Gy, a regime used in clinics. After this treatment, a population of low-adherent cells emerged that demonstrated increased expression of EMT- and stem cell markers. The low-adherent state of these cells was maintained by Snail signaling and their anoikis resistance by ERK1/2 signaling. Interestingly, after a protracted period of time, these cells were able to re-adhere and...
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Characterization of DNA binding of CSL transcription factors in fission yeast
Jordáková, Anna ; Převorovský, Martin (advisor) ; Čáp, Michal (referee)
Cbf11 and Cbf12 proteins, the members of the CSL transcription factors family, are involved in a wide range of cellular processes in the fission yeast Schizosaccharomyces pombe - among other things they regulate cell adhesion and they have also been implicated in maintenance of genome integrity. At the level of the whole genome we previously identified target loci bound by CSL proteins in vivo. Many of them do not contain any consensus CSL-binding element. There are probably different DNA binding modes of the Cbf11/12 proteins and it has not been known what specific biological function is associated with the particular way of DNA binding. For the purpose of studying CSL DNA binding modes we have worked in this project on the implementation of the DNA binding mutation (DBM), which prevents direct DNA binding of CSL proteins to canonical motif in vitro, into the chromosomal locus of the cbf11 and cbf12 genes. Using the "ura4 selection system" we have successfully constructed the scar-less Cbf12-TAP and Cbf12DBM-TAP knock-ins, i.e. the strains without/with DBM in the open reading frame of Cbf12 where Cbf12 is C- terminally TAP-tagged and contains the intact 3'UTR. In our laboratory we have established the CRISPR/Cas9 system by which we have been able to prepare the Cbf11- TAP strain. We have failed to...
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Posttranslational modification of the adapter protein DAXX in the cellular response to genotoxic stress
Bražina, Jan ; Anděra, Ladislav (advisor) ; Černý, Jan (referee) ; Vodička, Pavel (referee)
Maintaining the chromosome continuity and complete genetic information in human cells is crucial for cell survival and the whole organism. It prevents life-threatening pathologies and preserves genetic continuity. However, cellular DNA is exposed to both endogenous and exogenous stress damaging its content and integrity. This stress activates mechanisms involving detection and repair of these damaged sites (DDR). One of the most serious types of DNA damage double-stranded breaks (DSB) occuring when both strands are severed. DSBs trigger wave of PTMs that regulate protein interactions, nuclear localization and catalytic activity of hundreds of proteins. Such modifications include acetylation, methylation, SUMOylation, ubiquitinylation and especially phosphorylation. The most important kinases involved in DDR kinases are ATM, ATR and DNA-PK. These kinases are activated immediately after the detection of the damaged area. DAXX (Death-associated protein 6) is an adapter and predominantly nuclear protein, which is involved in chromatin remodeling, gene expression modulation, antiviral response and depositing histone H3.3 variants into chromatin or telomeres. Daxx is essential for murine embryogenesis, since the homozygous deletion is lethal in E9.5-10. In 2006 a study mapping the substrates of kinases...
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