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Localization matters: function of paxillin and phopholipids in the cell nucleus
Marášek, Pavel ; Hozák, Pavel (advisor) ; Půta, František (referee) ; Žárský, Viktor (referee)
(English) Both paxillin and PIP2 are well known components of the cell, although of a distinct origin. Focal adhesion protein paxillin spreads the signals from extracellular matrix via integrins and growth factor receptors to affect cellular motility and migration (Schaller, 2001). PIP2, a major structural component of cytoplasmic membrane, is utilized by phospholipase C to generate second messenger molecules (Hokin and Hokin 1953; Streb et al. 1983). Both molecules were recently shown to be localized in the nucleus. Their original functions have been well established, but together with other research colleagues we are now shedding more light on completely different functions of these biological molecules and moreover, in the different compartments than they were primarily believed to function in. Here, we introduce paxillin as an important factor of the cell nucleus, where it regulates transcription of two important growth-related genes, IGF2 and H19. It does not affect the allelic expression of these imprinted genes, it rather regulates long-range chromosomal interactions between H19 or IGF2 promoter, and the shared distal enhacer on an active allele. In detail, paxillin stimulates the interaction between the enhancer and the IGF2 promoter, activating IGF2 gene transcription, while it restrains...
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Regulation of protein expression non-specific immunity in Caenorhabditis elegans
Kaštánková, Iva ; Kostrouch, Zdeněk (advisor) ; Cmarko, Dušan (referee)
6 Abstract Lipopolysaccharides are composed of covalently bound saccharides. They are a characteristic component of the cell wall of gram-negative bacteria. They are the cause of severe sepsis in humans and complications in human medicine. Lipopolysaccharides are a constant part of the infections of gram-negative bacteria. We expect an evolutionarily conserved non-specific immune response and protection. The question is whether there is an immune response in the model organism Caenorhabditis elegans. If so, what mechanism is controlled and regulated. We submitted lipopolysaccharides from the bacteria Pseudomona aeruginosa with the bacteria Escherichia coli OP50 and observed the influence of lipopolysaccharides on the expression of selected genes. We examined metabolism and development. We have shown the influence of lipopolysaccharides on gene expression of C-type lectine clec-60 a clec-71, nextna lys-5, hsp-60 a F44G.3.2.1 genes. We incubated Caenorhabditis elegans on some components of lipopolysaccharide. We found regulation of these selected genes with hydrophobic components of lipopolysacharide, lipid A. We did not observe regulation with saccharide components of lipopolysaccharide, glucose and galatose. The metabolism of lipids had changed. We demonstrated a reduction of neutral lipids and changes in...
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The effect of diabetes mellitus on reproductive parameters and expression of selected testicular genes in diabetic mice
Valášková, Eliška ; Pěknicová, Jana (advisor) ; Kaňka, Jiří (referee)
According to the World Health Organization (WHO), 15% of couples in reproductive age suffer from infertility problems, and up to 60% of cases are caused by male factor. Causes of this condition could be genetic background, environmental factors and various diseases, including diabetes mellitus (DM). The aim of this study was to investigate the effects of DM on reproductive parameters and expression of selected testicular genes using mouse model (FVB inbred mouse strain). DM (type 1) was artificially induced by chemical substance streptozotocin, which causes destruction of pancreatic β cells. These mice were exposed to diabetic condition for 6 weeks and then subjected to analysis. Our results have shown that diabetic condition had an impact on body weight, weight of reproductive organs as well as kidneys and livers. We also observed decreased concentration and viability of diabetic sperm compared to control. Moreover, we noticed increased staining with apoptotic marker annexin V. Further, we evaluated changes of sperm nuclear proteins - protamines. In diabetic animals, we observed higher number of sperm with insufficient protamination. Nevertheless, protamine 1 to protamine 2 ratio (P1/P2), a marker of male fertility, was not altered in sperm of diabetic animals compared to control. Regarding the...
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Gene expression of specific parts of CNS in a rat model for transgenerational transmission of drug addiction.
Radilová, Kateřina ; Černá, Marie (advisor) ; Rothová, Olga (referee)
Methamphetamine (MA) is a drug often abused by drug-addicted women and also is the mostly used drug in the Czech Republic. This drug crosses the placental and hematoencephalic barriers easily and therefore it can negatively affect not just mother herself, but also the development of the fetus. Even though there have been several published studies evincive negative effects of MA to posterity of drug-addicted mothers, the most critical term during pregnancy for the fetus remains unknown. In this study are examined CNS structures, which are directly influenced by methamphetamine action. Their function may lead to drug addiction through pleasurable feelings, such as reward feeling evoking. In the next chapter are analysed neurotransmitters and their transporters, which are related to methamphetamine effects. Studying their structure, localization or development during life may help to bring near the drug functioning in different life periods. Methamphetamine itself and its effects are closer described in the last part of this study. The problem of methamphetamine exposed fetus is outlined there - prenatal and postnatal so far known differences, but also sex differences in methamphetamine pharma- cokinetics.
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The role of microRNAs in chronic lymphocytic leukemia
Moravec, Martin ; Hájek, Miroslav (advisor) ; Macůrková, Marie (referee)
2 Abstract MicroRNAs (miRs, miRNAs) are recently discovered molecules (19-25 nucleotides long) that regulate gene expression at post-transcriptional level by either blocking protein synthesis or mRNA degradation. As a part of gene silencing mechanism, miRNAs are involved in cellular processes, such as apoptosis, cell proliferation, development and viral defence. miRNAs have been intensely studied in connection to disease pathogenesis. Chronic lymphocytic leukemia (CLL) is the most common leukemia in Western countries affecting mostly elderly people. In my work I focus on explanation of miRNA functions and their contributions to chronic lymphocytic leukemia (CLL). I describe previously published data about miRNA-15, miRNA-16, miRNA-143, miRNA-145 and miRNA-155 in connection to this disease. Based on recent reports, I also discuss the potential role of miRNA-326 in CLL pathogenesis.
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Regulation of gene expression of HSP70 genes and its dependence on the genotype of HSP70 genes.
Ambrož, Antonín ; Novota, Peter (advisor) ; Kotrbová - Kozak, Anna Katarzyna (referee)
The topic of the presented thesis is the regulation of gene expression level of the three HSP70 genes in mononuclear cells. We investigated the dependence of expression regulation (induction) abiliy on selected point mutations, so-called SNPs (single nucleotide polymorphism) in the observed genes. The mononuclear cells were obtained from peripheral blood samples of healthy individuals. In order to analyze their gene expression, we selected individuals who were homozygous for at least one of the monitored point mutations. Taking into account the chosen criteria for healthy individuals we based on interviews with these individuals and their personal history. We determined the polymorphisms observed in two cell stress-inducible HSP70-1 (HSPA1A) and HSP70-2 (HSPA1B) genes and in one constitutively expressed gene HSP70-Hom (HSPA1L). Further, we have analyzed HSP70s gene expression regulation and the relation between the expression regulation and studied polymorphisms. We determined the degree of regulation of a gene expression in the studied genes in relation to two SNPs -110A/C (rs1008438), +190G /C (rs1043618) gene HSP70-1, and two SNPs +1267A/G (rs1061581), +2074G /C (rs539689 ) of the HSP70-2 gene, and the mutation of one five-nucleotide (rs9281590) HSP70-2 gene, and one SNP +2437T/C (rs2227956) of...
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Cell death-regulating micro RNAs and their role in the development and pathological processes.
Běhounek, Matěj ; Anděra, Ladislav (advisor) ; Seifertová, Eva (referee)
MicroRNAs are small protein non-coding, ~ 22 nucleotides long dsRNAs. Their main task is suppression of gene expression via removal/destabilization of mRNA or its targeting to degradation. These small molecules play an important role in the regulation of many cellular processes and have been found to affect expression of more than 30% of human genes. Among the processes affected or regulated by miRNAa belongs also programmed cell death. Although this work is mainly focused on the analysis and characterization a role of distinct miRNAs in the regulation of apoptotic cell death, miRNAs can also participate in the regulation of autophagic cell death or programmed necrosis. MiRNA can enhance cellular sensitivity to apoptosis by suppressing the expression of death receptor genes, but can also drive cells to apoptosis by regulating expression of anti-apoptotic protein Bcl-2. In many different organisms were already discovered and described thausends of micro RNAs anddozens of them participate in the regulation of cell death. Poor or impaired function of miRNAs and related disturbance in apoptotic signaling could lead to a number of pathological processes as tumorigenesis or disturbances in tissue development and homeostasis. . Understanding how miRNA functions in cell death and possible practical...
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Molecular mechanisms of mutagenesis and resistence in CML cell lineages
Karasová, Dominika ; Čuřík, Nikola (advisor) ; Savvulidi Vargová, Karina (referee)
Chronic myeloid leukemia is a clonal haematopoietic disease, with characteristic BCR-ABL1 fusion gene. Despite the significant improvement in patient treated with tyrosine kinase inhibitors (TKI), 20-30 % of patients develop resistance. One of the main causes of treatment failure are mutations in the BCR-ABL1 kinase domain (KD). The aim of this work was to elucidate the molecular mechanisms of resistance and mutagenesis development in CML using an in vitro CML model KCL-22. The main part of this work was focused on the identification of genes involved in DNA damage response and repair, that could play a role in the process of mutagenesis of BCR-ABL1. We used the RT2 Profiler PCR Arrays method for the group of selected genes regulating DNA damage response and repair. We identified the genes XRCC6 and PARP1 whose gene expression was significantly and specifically decreased during KD BCR-ABL1 mutagenesis. Products of these genes are involved in repairing DNA double-strand breaks through non-homologous end joining (NHEJ). During study of the KD BCR-ABL1 mutagenesis we also found that clones, which developed mutations, did not show the increased BCR-ABL1 expression in the beginning of the culture compared to the clones in which mutations have not evolved. Key words: myeloid leukemia, mutation,...
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Gene expression in chicken embryo: micromanipulation and visualization methods
Bendová, Michaela ; Dvořák, Michal (advisor) ; Hirsch, Ivan (referee) ; Krylov, Vladimír (referee)
The aim of this work was to obtain better insight into the principles of cell structures and organs in the chicken embryo development. To reach this goal special methods of micromanipulations and visualization in vitro, ex vivo, ex ovo and in ovo were implemented and adjusted. These methods were used to study gene expression in neural crest development and eye development. In the course of long term research in our laboratory we observed that oncoprotein v-Myb influences the development of the neural crest and has the capacity to change natural cell fate. We performed a series of experiments to investigate v-Myb protein influence on neural crest cells differentiation, especially melanocyte lineage development, and its influence on gene expression in the neural crest. Therefore we focused on Gremlin 2 (PRDC), the gene upregulated by v-Myb in the neural crest. The established procedure of electroporation in ovo was adjusted to transfect cells of the developing eye and used to study gene expression during lens induction. The results obtained from chicken embryo experiments endorsed the study performed on mouse embryos. Futhermore, the electroporation technique was slightly modified for manipulations of the neural retina in the developing eye in ovo. Thereafter, the retinas were processed ex vivo and...
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