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Study of protein-protein interactions of human E3 ubiquitin ligase Nedd4-2.
Joshi, Rohit Ashok ; Obšilová, Veronika (advisor) ; Krůšek, Jan (referee) ; Holoubek, Aleš (referee)
Posttranslační modifikace prostřednictvím ubikvitinace hrají klíčovou roli v regulaci membránových proteinů. Nedd4-2, lidská HECT E3 ubikvitin ligáza, je poslední komponentou ubikvitinační kaskády, která přenáší molekuly ubikvitinu a spouští endocytózu svých následných cílových molekul. Dysregulace Nedd4-2 může způsobovat různé poruchy, včetně epilepsie, respirační úzkosti a Liddleova syndromu. Přestože se na regulaci Nedd4-2 podílejí různé adaptorové proteiny, v tomto výzkumu jsme se zaměřili na konzervované proteiny 14-3- 3, známé negativní regulátory Nedd4-2. V této studii jsme provedli biofyzikální charakterizaci konstruktů Nedd4-2190-581 a Nedd4-2186-975 v komplexu s 14-3-3, abychom získali další náhled do dynamiky této interakce. Naše výsledky časově rozlišené fluorescenční spektroskopie odhalily, že vazba 14-3-3 ovlivňuje emisní vlastnosti a pohyblivost specifických WW domén (WW3 a WW4) Nedd4-2, zatímco ostatní (WW1) šetří. Zajímavé je, že katalytická doména HECT prochází při tvorbě komplexu konformačními změnami a zvýšenou exponovaností rozpouštědlu. Předpokládáme, že sterická inhibice domén WW3 a WW4 v kombinaci s konformačními změnami v katalytické doméně může být základem regulačního mechanismu zprostředkovaného vazbou proteinem 14-3-3. Chemické zesítění spolu s hmotnostní spektrometrií...
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Characterization of Cbf11 and Mga2 interactions in the fission yeast
Grulyová, Michaela ; Převorovský, Martin (advisor) ; Čáp, Michal (referee)
Transcription factor Cbf11 belongs to the CSL protein family. The CSL protein family is well known for its function in Notch signalling pathway, however representatives in Notch- less fission yeast were discovered. Mga2 protein is a transcription regulator of triacylglycerol and glycerophospholipid metabolism. A crosstalk between Cbf11 and Mga2 was found. Cbf11 and Mga2 share target genes, and both are required for mitotic fidelity. This thesis aims to validate and characterize relationship between these transcription regulators. We show here that protein levels of Cbf11 and Mga2 change in response to presence of the other protein, as well as in response of nitrogen source. We also determine phylogenetic distribution of Cbf11 and Mga2 among Fungi, pointing to its connection. Using proteomic analysis of mga2 and cbf11 deletion strains we found that there is an overlap between proteins up/downregulated in these strains. Together, these results acknowledge crosstalk between Cbf11 and Mga2 proteins, bringing a novel connection between CSL protein family member and a functional analogue of mammalian SREBP-1 protein Mga2.
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Characterization of protein-protein interactions between Forkhead box O (FOXO) and p53 transcription factors
Mandal, Raju ; Obšil, Tomáš (advisor) ; Hrabal, Richard (referee) ; Pavlíček, Jiří (referee)
The transcription factor p53 plays a key role in cell cycle arrest, DNA repair, apoptosis, tumor suppression, and maintaining cellular homeostasis. Under cellular stress, p53 directly interacts with the Forkhead box O (FOXO) 4 transcription factor, thereby upregulating the expression of the p21 gene, resulting in the induction of cellular senescence. However, the detailed molecular mechanism behind FOXO4-p53 interaction remains unclear due to the unavailability of structural data. Therefore, main goal of this doctoral thesis was the characterization of the interaction between FOXO4 and p53 using several biophysical techniques including sedimentation velocity analytical ultracentrifugation (SV AUC), nuclear magnetic resonance (NMR) spectroscopy and chemical cross-linking coupled to mass spectrometry. Furthermore, we also investigated the DNA binding properties of both proteins with their respective consensus DNA sequences in the presence or absence of their binding partners by fluorescence anisotropy measurements along with the comparison of p53-binding surfaces of the Forkhead domain of three different FOXO proteins by NMR spectroscopy. In addition, we also optimized small molecule compounds for the inhibition of FOXO3-DNA interaction. Our results revealed that the p53 interacts with FOXO4 through...
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Modulation of DNA Binding Affinity of Transcription Factors FOXO and p53 Through Protein-protein Interactions
Hofmanová, Adéla ; Obšil, Tomáš (advisor) ; Pavlíček, Jiří (referee)
5 Abstract The forkhead box "O" (FOXO) proteins are a subclass of the Forkhead family of transcription factors that play a critical role in a variety of cellular processes such as response to cellular stress, gluconeogenesis, cell cycle control, apoptosis, senescence, and repair of DNA damage. They are generally considered to be tumor suppressors. However, it has been shown that they can promote tumorigenesis and induce resistance to the chemotherapeutic agents. Despite many years of research into the biological role of FOXO proteins, a number of questions remain to be answered. For example, whether the slight structural differences observed in the otherwise highly homologous DNA-binding domains of individual FOXO transcription factors affect their DNA binding affinity. Furthermore, it is unclear how protein-protein interactions affect DNA binding affinity of FOXO proteins. Recent study has described the interaction of FOXO transcription factors with the p53 protein. Protein p53 is called the guardian of the genome due to its ability to mediate the response to acute DNA damage. The interaction of FOXO and p53 proteins appears to have a major effect on the DNA binding affinity of both these proteins. Based on this, DNA-binding domains of the human transcription factors FOXO1, FOXO3 and FOXO4 (FOXO1(144-270),...
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Physical interactions of the splicing factor Prp45
Kratochvílová, Eliška ; Folk, Petr (advisor) ; Doubravská, Lenka (referee)
It is well known that chromatin posttranslational state, transcription and splicing influence each other. Nevertheless, the details of this coupling are not fully understood. In S. cerevisiae, it is possible to induce conditions, in which splicing is uncoupled from transcription. Such situation occurred in cells expressing a mutated splicing factor Prp45, whose human homolog has been proved to participate in transcription regulation and also in splicing reactions. Based on previously indicated interactions in high throughput two-hybrid screens, we have been looking for physical links between Prp45 and proteins involved in chromatin posttranslational modifications. Finding of such a link would provide insight into the relationships of gene expression processes. Using coimmunoprecipitation and affinity purification, we were unable to detect physical interactions between Prp45 and our candidate chromatin regulators. Alternative approaches are discussed. Using the precipitation techniques, we mapped the interaction of Prp46 with truncated variants of Prp45. This observation contributes to our knowledge of protein-protein interactions within the spliceosome.
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Role of PML in ribosomal stress
Kremserová, Petra ; Vašicová, Pavla (advisor) ; Sztacho, Martin (referee)
PML is involved in many cellular processes. It organizes nuclear structures PML nuclear bodies (PML NBs) and it associates with nucleolus in response to ribosomal stress to form PML nucleolar associations (PNAs). The function of PNAs is unclear. To elucidate this question, one can attempt to identify proteins interacting with PML at nucleolus. The common method is co- immunoprecipitation, however, this approach cannot be used for PML due to its low solubility. To defeat this, an alternative way of proximity-dependent biotin labelling could be used. The goal of this work was to explore a suitability of biotin labelling for identification of PML nucleolar partners. For this purpose I prepared constructs of wild type or mutated PML with GFP and biotin ligase for transient and stable expression and analysed their propensity to form PML NBs and doxorubicin-induced PNAs, and biotinylate their vicinity. In transient expression, both fusion proteins formed PML NBs and only wild type but not mutated PML IV formed PNAs after doxorubicin treatment with preserved biotinylation capability. In stable expression of fusion proteins in cells with PML knockout the number and composition of PML NBs was aberrant and no PNAs were observed. However, this system was utilized for optimization of solubilisation of biotinylated...
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Major capsid protein of polyomaviruses and its interactions with nuclear lamins
Žáčková, Sandra ; Horníková, Lenka (advisor) ; Šroller, Vojtěch (referee)
In this study, we focused on interactions of structural proteins of mouse polyomavirus (MPyV) and BK virus (BKV) with the nuclear lamina. Our goal was to examine whether and how can the virus, hence viral structural proteins, interact with the nuclear lamina and how would these interactions affect its properties. We supposed, that the expression of viral proteins would induce disintegration of the structure of nuclear lamina, thus enabling nuclear egress of virions in the late phase of infection. Viral structural proteins were expressed transiently in cells transfected with an expression vector pMPyV LATE. In these cells, VP1 was localized in a likewise manner as it shows in infected cells - mostly in a perinuclear area. Concurrently, defects in staining of nuclear lamina were observed in these cells, similarly to infected cells. Also, another expression vector was used in our experiments, the pMPyV mut3 VP1 encoding for a mutated protein VP1. When transiently expressed in cells, the mutated VP1 protein showed mostly diffuse nuclear localization. However, we observed significant morphological deformations and defective staining of the nuclear lamina. These observations imply an important role of VP1 in mechanical and biochemical properties alterations of the nuclear lamina in transfected and...
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Role of PML in ribosomal stress
Kremserová, Petra ; Vašicová, Pavla (advisor) ; Sztacho, Martin (referee)
PML is involved in many cellular processes. It organizes nuclear structures PML nuclear bodies (PML NBs) and it associates with nucleolus in response to ribosomal stress to form PML nucleolar associations (PNAs). The function of PNAs is unclear. To elucidate this question, one can attempt to identify proteins interacting with PML at nucleolus. The common method is co- immunoprecipitation, however, this approach cannot be used for PML due to its low solubility. To defeat this, an alternative way of proximity-dependent biotin labelling could be used. The goal of this work was to explore a suitability of biotin labelling for identification of PML nucleolar partners. For this purpose I prepared constructs of wild type or mutated PML with GFP and biotin ligase for transient and stable expression and analysed their propensity to form PML NBs and doxorubicin-induced PNAs, and biotinylate their vicinity. In transient expression, both fusion proteins formed PML NBs and only wild type but not mutated PML IV formed PNAs after doxorubicin treatment with preserved biotinylation capability. In stable expression of fusion proteins in cells with PML knockout the number and composition of PML NBs was aberrant and no PNAs were observed. However, this system was utilized for optimization of solubilisation of biotinylated...
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Analysis of Histone Deacetylase 6/Kinesin Interactions
Nedvědová, Jana ; Bařinka, Cyril (advisor) ; Pavlíček, Jiří (referee)
Intracellular transport is provided by two major types of molecular motors kinesins and cytoplasmic dynein. Kinesin-1 is a molecular motor that transports molecules and organelles along microtubule tracks anterogradely. Specific protein-protein interactions are required to activate kinesin-1 as the free kinesin exist in an autoinhibited state. The activation of kinesin-1 induces its conformational change, enables microtubule binding and ATP hydrolysis necessary for the directional cargo transport. HDAC6 is a multifunctional protein composed of several domains. It plays an important role in many microtubule dependent processes as HDAC6 is a major tubulin deacetylase. It has been shown that HDAC6 manipulation (inhibition/genetic ablation) affects transport along microtubules but the exact mechanisms are unknown. The effect can be caused either by deacetylation microtubules or direct interaction with molecular motors. This thesis is focused on characterization of interactions between kinesin-1 and HDAC6 that have not been described so far. To this end, we expressed and purified various constructs of kinesin-1 and HDAC6 and tested their interactions by microscale thermophoresis (MST) and hydrogen deuterium exchange (HDX) to determine affinity and interaction sites, respectively. MST data revealed that...
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Role of molecular chaperones Hsp70 and Hsp90 in the replication cycle of DNA viruses
Žáčková, Sandra ; Horníková, Lenka (advisor) ; Poláková, Ingrid (referee)
Molecular chaperones are proteins which enable other proteins to assemble into native conformation and are essential for viability of the cells. Chaperones of the Hsp70 family bind to newly synthetized and denaturated proteins, prevent their aggregation and facilitate their assembly. They participate in assembly and disassembly of oligomers and also in the transport across the membranes. Chaperones of the Hsp90 family do not participate in the assembly of nascent or denaturated proteins. They bind proteins which are nearly in native conformation and enable them to assemble into conformation suitable for ligand binding or interacting with other proteins. These attributes predestinate chaperones to participate in the replication cycle of DNA viruses. A huge amount of proteins is translated during viral infection. These proteins require the chaperones to facilitate their assembly and are also required for assembly into oligomers and macromolecular structures. In addition to capsid assembly the chaperones also participate in transport of genetic information to the sites of replication, disassembly of incoming viral particles or replication of viral DNA. Therefore, the development of specific chaperone inhibitors is a promising approach. They could be used against broad spectrum of viral infections...
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