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Microbial transplantation and its effect on the course of ulcerative colitis
Březina, Jan ; Drastich, Pavel (advisor) ; Šťovíček, Jan (referee) ; Janoštiak, Radoslav (referee)
The complex etiopathogenesis of idiopathic inflammatory bowel diseases (IBD) remains unclear, with one of the main suspected causes being the dysregulation of mucosal immunity in response to specific components of the gut microbiome. This dissertation investigates the potential of faecal microbiota transplantation (FMT) as an innovative therapeutic intervention aimed at modifying the microbiome and influencing the course of IBD. FMT, involving the transfer of stool from a healthy donor to the patient, has proven highly effective in the treatment of recurrent Clostridioides difficile colitis, where it is already considered a standard therapeutic procedure. However, in relation to IBD, FMT remains an experimental method, predominantly used in clinical studies. Current systematic reviews indicate that the effect of FMT on ulcerative colitis (UC) is variable, both in terms of achieving remission and clinical response. Recent randomized controlled trials for UC, in accordance with our presented data, show a mild to moderate effect of FMT in this indication. The effectiveness of FMT is influenced by a range of factors, particularly the correct selection of donor or donors, the diversity of their microbiome, methods of application, and frequency of administration. In the case of Crohn's disease, the data...
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Regulation of histone post-translational modifications and its use in the diagnosis and treatment of lung cancer
Marada, Kryštof ; Janoštiak, Radoslav (advisor) ; Červená, Klára (referee)
The aim of this bachelor's thesis is to summarize the epigenetic mechanisms, namely DNA methylation, non-coding RNA and post-translational modification of histones, within the scope of which the five currently most researched types are described, i.e. acetylation, methylation, phosphorylation, ubiquitinylation and sumoylation. Furthermore, a summary of the modifying enzymes whose function is to add and remove these epigenetic components. And also the description of the proteins that recognize these components. The following is a description of how epigenetic processes are involved in the course of cancer. The remaining part of the work is devoted to lung cancer, its most common causes, what methods are currently used to treat it, and how post-translational modifications of histones could be used in its treatment. Most of this chapter is devoted to histone deacetylase inhibitors, as these inhibitors represent potential as a new component of lung cancer treatment, which also makes them the target of much research.
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SWI2/SNF2 ATPases with a focus on the ISWI subfamily: protein complexes and mouse models for their study
Turková, Tereza ; Stopka, Tomáš (advisor) ; Janoštiak, Radoslav (referee)
In the nucleus the DNA is packed along with proteins into a dynamic structure called chromatin. During cell cycle the chromatin structure becomes a subject to various changes. During interphase chromatin structure becomes loose while shortly before cell division it undertakes the form of highly condensed mitotic chromosomes. Structure of chromatin influences significantly mode of gene expression and its pattern. DNA-binding proteins interacting within chromatin are also necessary during this process. To gain the access to the DNA binding factors, the chromatin has to be in a loosened form. As long as the structure of the chromatin is more condensed it creates a barrier for the DNA binding proteins. Therefore it becomes obvious that the remodeling of the chromatin structure is one of the important regulators of gene expression and that the enzymes, which execute remodeling, are of great importance. One of them is ATPase Smarca5, which belongs to the protein subfamily ISWI and which creates the catalytic subunit for several different ATP-dependent chromatin remodeling complexes. Mutations of members of those complexes disturb regulation of transcription and cellular differentiation. In some cases the incorrect function of these complexes can lead to cellular transformation into a tumours state. This...
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The biological importance of CAS SH3 domain tyrosine phosphorylation
Janoštiak, Radoslav ; Brábek, Jan (advisor) ; Dvořák, Michal (referee)
Protein CAS is a major tyrosine-phosphorylated protein in cells transformed by v-crk and v-src oncogenes. It is a multidomain adaptor protein, which serves as a scaffold for assembly of signalling complexes which are important for migration and invasiveness of Src-transformed cells. A novel phosphorylation site in N-terminal SH3 domain was identified - tyrosine 12 located on binding surface of CAS SH3 domain. To study biological importance of tyrosine 12 phosphorylation, non-phosphorylable (Y12F) and phosphomimicking ( Y12E) mutant of CAS were prepared. We found that phosphomimicking mutation Y12E leads to decreased interaction of CAS SH domain with kinase FAK a phosphatase PTP-PEST and also reduce tyrosine phosphorylation of FAK. Using GFP-tagged CAS protein, we show that Y12E mutation caused delocalization of CAS from focal adhesion but has no effect on localization of CAS to podosome-type adhesion. Non-phosphorylable mutation Y12F cause hyperphosphorylation of CAS substrate domain and decrease turnover of focal adhesion and associated cell migration of mouse embryonal fibroblasts (MEFs) independent to integrin singalling. Analogically to migration, CAS Y12F decrease invasiveness of Src-transformed MEF. The results of this diploma thesis show that phosphorylation of Tyr12 in CAS SH3 domain is...
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Biological importance of CAS SH3 domain tyrosine phosphorylation
Janoštiak, Radoslav
Protein CAS is a major tyrosine-phosphorylated protein in cells transformed by v-crk and v-src oncogenes. It is a multidomain adaptor protein, which serves as a scaffold for assembly of signalling complexes which are important for migration and invasiveness of Src-transformed cells. A novel phosphorylation site in N-terminal SH3 domain was identified - tyrosine 12 located on binding surface of CAS SH3 domain. To study biological importance of tyrosine 12 phosphorylation, non-phosphorylable (Y12F) and phosphomimicking ( Y12E) mutant of CAS were prepared. We found that phosphomimicking mutation Y12E leads to decreased interaction of CAS SH domain with kinase FAK a phosphatase PTP-PEST and also reduce tyrosine phosphorylation of FAK. Using GFP-tagged CAS protein, we show that Y12E mutation caused delocalization of CAS from focal adhesion but has no effect on localization of CAS to podosome-type adhesion. Non-phosphorylable mutation Y12F cause hyperphosphorylation of CAS substrate domain and decrease turnover of focal adhesion and associated cell migration of mouse embryonal fibroblasts (MEFs) independent to integrin singalling. Analogically to migration, CAS Y12F decrease invasiveness of Src-transformed MEF. The results of this diploma thesis show that phosphorylation of Tyr12 in CAS SH3 domain is...
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SWI2/SNF2 ATPases with a focus on the ISWI subfamily: protein complexes and mouse models for their study
Turková, Tereza ; Stopka, Tomáš (advisor) ; Janoštiak, Radoslav (referee)
In the nucleus the DNA is packed along with proteins into a dynamic structure called chromatin. During cell cycle the chromatin structure becomes a subject to various changes. During interphase chromatin structure becomes loose while shortly before cell division it undertakes the form of highly condensed mitotic chromosomes. Structure of chromatin influences significantly mode of gene expression and its pattern. DNA-binding proteins interacting within chromatin are also necessary during this process. To gain the access to the DNA binding factors, the chromatin has to be in a loosened form. As long as the structure of the chromatin is more condensed it creates a barrier for the DNA binding proteins. Therefore it becomes obvious that the remodeling of the chromatin structure is one of the important regulators of gene expression and that the enzymes, which execute remodeling, are of great importance. One of them is ATPase Smarca5, which belongs to the protein subfamily ISWI and which creates the catalytic subunit for several different ATP-dependent chromatin remodeling complexes. Mutations of members of those complexes disturb regulation of transcription and cellular differentiation. In some cases the incorrect function of these complexes can lead to cellular transformation into a tumours state. This...
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The role of p130CAS in integrin signaling
Janoštiak, Radoslav ; Brábek, Jan (advisor) ; Brdička, Tomáš (referee) ; Kořínek, Vladimír (referee)
Focal adhesions are important subcellular structures that are composed of many signaling and scaffolding proteins. They serve not only for anchoring the cell to the substratum but they are also important signaling centers that regulate various cellular behavior such as migration, invasiveness, proliferation and survival. Focal adhesion signaling needs to be strictly regulated because alteration in activity or expression of many focal adhesion proteins leads to tumorogenesis and metastasis formation. One of the most important scaffolding protein associated with focal adhesion is p130Cas. The importance of p130Cas in regulation of cell migration and invasiveness has been well established. P130Cas also plays important role in regulation of cell survival and proliferation. Moreover, high protein levels of human ortholog of p130Cas - BCAR1, has been linked to more aggressive breast tumors and poor prognosis. During my doctoral studies, I focused on the role of p130Cas in integrin signaling. At the beginning we characterized the role of tyrosine 12 phosphorylation within its SH3 domain. We confirmed that this phosphorylation is increased in Src527F transformed mouse embryonic fibroblasts compared to non-transformed counterparts and also in some human cancer cell lines. We showed that this phosphorylation...
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Role of DNA damage response signalling in induction and maintenance of cellular senescence
Pešina, František ; Hodný, Zdeněk (advisor) ; Janoštiak, Radoslav (referee)
Cellular senescence is a state of permanent growth arrest. It is induced by many stimuli, including telomere shortening, DNA damage, oncogene hyperstimulation, chromatin perturbation and various stresses by which are cells affected. Researches showed central role of two pathways in induction and maintenance of this state. These are the p53/21 and p16/RB. The extent and dynamics of their activation by various stimuli is different. Slightly different is also their function in induction and maintenance of senescence. These differences are depicted and compared in this work.
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Biological importance of CAS SH3 domain tyrosine phosphorylation
Janoštiak, Radoslav
Protein CAS is a major tyrosine-phosphorylated protein in cells transformed by v-crk and v-src oncogenes. It is a multidomain adaptor protein, which serves as a scaffold for assembly of signalling complexes which are important for migration and invasiveness of Src-transformed cells. A novel phosphorylation site in N-terminal SH3 domain was identified - tyrosine 12 located on binding surface of CAS SH3 domain. To study biological importance of tyrosine 12 phosphorylation, non-phosphorylable (Y12F) and phosphomimicking ( Y12E) mutant of CAS were prepared. We found that phosphomimicking mutation Y12E leads to decreased interaction of CAS SH domain with kinase FAK a phosphatase PTP-PEST and also reduce tyrosine phosphorylation of FAK. Using GFP-tagged CAS protein, we show that Y12E mutation caused delocalization of CAS from focal adhesion but has no effect on localization of CAS to podosome-type adhesion. Non-phosphorylable mutation Y12F cause hyperphosphorylation of CAS substrate domain and decrease turnover of focal adhesion and associated cell migration of mouse embryonal fibroblasts (MEFs) independent to integrin singalling. Analogically to migration, CAS Y12F decrease invasiveness of Src-transformed MEF. The results of this diploma thesis show that phosphorylation of Tyr12 in CAS SH3 domain is...
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