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ADP-ribosylation in ARH3-deficient cells and its impact on cellular functions
Kuttichová, Barbora ; Hanzlíková, Hana (advisor) ; Valihrach, Lukáš (referee)
ADP-ribosylation is a crucial post-translational modification that regulates various cellular processes, including DNA repair. It is catalysed by poly-ADP-ribose polymerases (PARPs) and involves the transfer of ADP-ribose moieties from the redox cofactor NAD+ to proteins, including histones. To maintain cellular homeostasis, ADP-ribose chains need to be rapidly degraded by ADP-ribosyl glycohydrolases. While poly-ADP-ribose glycohydrolase (PARG) is highly efficient, it cannot cleave the terminal ADP-ribose moiety. For the removal of the terminal mono-ADP-ribose, two glycohydrolases, TARG1 and ARH3, are involved. This removal process is necessary because it enables DNA repair factors to access the site of DNA damage. The primary goal of this thesis is to characterise cells derived from patients with homozygous ARH3 mutations and to develop appropriate tools to improve our understanding of the molecular mechanism by which ARH3 mutations affect ADP-ribosylation and how it contributes to the onset of the associated neurological disease. To achieve this, I measured the levels of ARH3 protein and detected increased mono-ADP-ribosylation in ARH3-mutated patient-derived fibroblasts. Furthermore, I assessed the sensitivity of these cells to different PARP inhibitors, which hold potential for the therapeutic...
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Organoids - the phenomenon of complex organ-like structures cultivation in vitro
Vilímková, Veronika ; Janečková, Lucie (advisor) ; Rothová, Olga (referee)
Pluripotent embryonal stem cells (ESCs) are unique for their ability to proliferate and differentiate into almost all cell types. In the presence of appropriate stimuli, they are able to initiate morphogenesis in vitro. Stem cells are able to differentiate into specific cell lines of a given tissue and to arrange three- dimensional (3D) structures. These so-called organoids are formed in a self-organizing process that mimics normal ESCs development. Organ development is a complex process that requires temporally and spatially ordered regulatory signals. 3D organization of these structures allows important cell-cell interactions. Organoid cultures are thus the area of a huge potential. Organoids are accessible to all standard experimental manipulations. They are therefore an ideal tool for the research of stem cells, signaling pathways, organogenesis and disease modeling. Finally, they may open up new avenues for regenerative medicine and gene therapy. Powered by TCPDF (www.tcpdf.org)
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Organoids - the phenomenon of complex organ-like structures cultivation in vitro
Vilímková, Veronika ; Janečková, Lucie (advisor) ; Rothová, Olga (referee)
Pluripotent embryonal stem cells (ESCs) are unique for their ability to proliferate and differentiate into almost all cell types. In the presence of appropriate stimuli, they are able to initiate morphogenesis in vitro. Stem cells are able to differentiate into specific cell lines of a given tissue and to arrange three- dimensional (3D) structures. These so-called organoids are formed in a self-organizing process that mimics normal ESCs development. Organ development is a complex process that requires temporally and spatially ordered regulatory signals. 3D organization of these structures allows important cell-cell interactions. Organoid cultures are thus the area of a huge potential. Organoids are accessible to all standard experimental manipulations. They are therefore an ideal tool for the research of stem cells, signaling pathways, organogenesis and disease modeling. Finally, they may open up new avenues for regenerative medicine and gene therapy. Powered by TCPDF (www.tcpdf.org)
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