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Metabolism of carcinogenic o-nitroanisol and its metabolite o-nitrophenol and two environmental pollutants 2-nitrobenzanthrone and 3-nitrobenzanthrone
Svobodová, Martina ; Stiborová, Marie (advisor) ; Entlicher, Gustav (referee) ; Souček, Pavel (referee)
CHARLES UNIVERSITY IN PRAGUE FACULTY OF SCIENCE DEPARTMENT OF BIOCHEMISTRY Metabolism of carcinogenic o-nitroanisole, its metabolite o-nitrophenol and environmental pollutants 2-nitrobenzanthrone and 3-nitrobenzanthrone Summary of PhD Thesis RNDr. Martina Svobodová Supervisor: Prof. RNDr. Marie Stiborová, DrSc. Prague 2010 RNDr. Martina Svobodová Introduction -1- INTRODUCTION 2-Nitroanisole 2-Nitroanisole (2-methoxynitrobenzene, 2-NA, figure 1) is an important industrial pollutant and a strong carcinogen for rodents causing neoplastic transformation in the urinary bladder and, to a lesser extent, in the spleen, liver and kidney [19, 30, 31] . 2-NA is also a toxic compound, causing anemia. 2-NA is used primarily as a precursor in the synthesis of o-anisidine (2-methoxyaniline), which is an intermediate in the production of many azo dyes. This compound is used in pharmaceutical industry as an intermediate in the synthesis of some medicaments [30, 31] . In spite of potent rodent carcinogenicity of 2-NA, this chemical is weakly mutagenic in the Ames test with the Salmonella typhimurium. This carcinogen also exhibits a low activity in cytogenetic tests. It induces a slight increase in chromosomal aberration and in sister chromatid exchanges, but only at high concentrations [31] . 2-nitroanisole may be...
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Liver gangliosides in cholestasis induced by bile duct ligation.
Hynková, Barbora ; Entlicher, Gustav (advisor) ; Ledvinová, Jana (referee)
Gangliosides are sialic acid-containing glycosphingolipids located on the cell surface of all animal cell types. They play a role as receptor molecules, share in cell-to-cell interaction and protect the cell against harmful environmental factors by increasing of rigidity of cell surface. This diploma thesis studies an influence of experimental cholestasis on hepatic ganglioside composition. Cholestasis was induced by bile duct ligation in Wistar rats. A significant increase of total lipid bound sialic acid and b-series gangliosides (GD1b, GT1b, event. GD3) was found in cholestatic liver when compared with controls. These results found in obstructive cholestasis correspond with the results Majer et al. Biomed. Chromatogr., 21, 446-450 (2007), described in 17α− ethinylestradiol induced cholestasis, but the increase of b-series gangliosides was milder in our study. As a second point, an effect of modulated heme-oxygenase 1 (HO-1) activity was investigated in cholestatis induced bile duct ligation (HO-1 activator- hemine, HO-1 inhibitor- Sn-mesoporphyrin). An increase of a total lipid sialic acid was found in Sn-mesoporphyrin treated animals, but a decrease of some a- and b- series gangliosides was observed. In group with activated HO-1 total sialic acid increased, but the composition of gangliosides...
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Functional analysis of syntaxin 16 phosphorylation using yeast as a model
Volfová, Barbora ; Entlicher, Gustav (advisor) ; Dráber, Petr (referee)
4 Abstract Mechanism of fusion of intracellular membranes in eukaryotic cells involves several protein families including soluble N-ethylmaleimide-sensitive-factor attachment protein receptor (SNARE) proteins and Sec1/Munc-18 related proteins (SM proteins). It is known that the transport is evolutionary conserved from yeast to man. Therefore for facilitating of the research, we can use simple eukaryotes Saccharomyces cerevisiae. Mammalian SNARE protein syntaxin 16 has a yeast homologue Tlg2p which is used in this study as a model for studying affects of phosphorylation to the syntaxin 16 function. Also their binding partners, SM proteins mVps45p (mammalian) and yeast Vps45p are homologous. Phosphorylation of SNARE proteins is known as a possible way of regulation of membrane fusion. Abolishment of one of the putative phosphorylation sites in Tlg2p protein, serine 90 leads to dominant effects on the exocytic and endocytic pathways. The work presented in this study shows some phenotypes of mutants based on this phosphorylation site of protein Tlg2p. Those mutants are S90A (cannot be phosphorylated) and S90D (phosphomimetic - acid carboxyl group mimics phosphate group). It was revealed that the phosphorylation of Tlg2p protein at serine 90 or the mutation Tlg2p-S90D may play some role in protecting Tlg2p...
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Subcelulární lokalizace a úloha komplexu exocyst v savčích buňkách během cytokineze
Ulrychová, Lenka ; Hudeček, Jiří (advisor) ; Entlicher, Gustav (referee)
Cytokinesis is the last step of cell cycle when two individual daughter cells separate in process called abscission. This process involves various cellular membrane structures such as endoplasmic reticulum or trans-Golgi network. Moreover, recent investigation has also highlighted an important role of recycling endosomes. The membrane dynamics appear to be important during cell division especially for the formation of new plasma membrane between two daughter cells. Numerous studies suggest that cytokinesis is tightly linked with highly sophisticated transmembrane shuttle that is controlled by Ras-superfamily members such as Rab and Ral proteins. Moreover, during last years has also been revealed the involvement of tethering factors which mediate the fusion of intracellular vesicles with the target plasma membrane. The best known tethering factor is the evolutionary conserved exocyst complex found in all eukaryotic cells. This protein complex is composed of eight subunits (Sec3, Sec5, Sec6, Sec8, Sec10, Sec15, Exo70 and Exo84) and was found to interact with members of Ras- superfamily suggesting its involvement in the regulation of cytokinesis. Although the exact mechanism remains shrouded in fog this work suppose the possible interactions among Ras- like proteins and exocyst members which may...
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Characterization of the role of SPINK 6 in the epidermis using transgenic models
Buryová, Halka ; Sedláček, Radislav (advisor) ; Entlicher, Gustav (referee)
Epidermal homeostasis, including proper turnover of keratinocytes, plays important role in the barrier function and serine proteases and their inhibitors are the key players. Activated proteases cleave desmosomes in uppermost layer and thus shed the cells from the epidermal surface. Therefore the serine protease inhibitors are secreted in lower epidermal layers to prevent premature activation of proteases and consequent disruption of epidermal barrier. The most studied inhibitors in epidermis belong to Serine proteases inhibitors Kazal-type family (SPINK). This diploma thesis is aimed to investigate function of murine SPINK6 in epidermal compartment in vivo. To achieve this, the transgenic mice overexpressing mSPINK6 under modified human involucrin promoter was generated. Two of five transgenic lines exhibited higher expression of mSPINK6 at mRNA and protein levels. The mSPINK6 transgenic mice are viable with no apparent phenotype. The small but in most cases not significant differences were observed on microscopic level among mSPINK6 transgenic and wild type animals In conclusion, this work showed that mSPINK6 does not play major role in skin homeostasis but gains significant importance under specific challenges of epidermal barrier. Therefore mSPINK6 transgenic mice, in combination with other deletion or...
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The influence of acyclic nucleotide phosphonates PMEG and PMEDAP on p38 kinase signaling in human leukemic cells
Nejedlá, Michaela ; Entlicher, Gustav (advisor) ; Slaninová, Jiřina (referee)
PMEG [9-(2-phosphonomethoxyethyl)guanine] and PMEDAP [9-phosphonomethoxy- ethyl)-2,6-diaminopurine] are acyclic nucleoside phosphonates possessing cytotoxic properties. Antiproliferative effect of PMEG was demonstrated in various tumor cell lines in vitro. PMEG also represents an active component of some experimental prodrugs with enhanced selectivity and efficacy (such as GS-9219). PMEDAP seems to have weaker effect in vitro compared to PMEG, however it exhibited pronounced antitumor effect in SD-rats with spontaneous lymphoma. Therefore it was included in the present study as well. The aim of this study was to describe the interactions of PMEG and PMEDAP with p38 MAP kinase signaling and its relationship to the apoptosis. We investigated the influence of these compounds on the expression of four genes encoding p38 MAPK isoforms and whether this change is translated into the protein. It was found that PMEG up-regulates p38β and γ mRNA in CCRF-CEM cells and p38 β and δ in HL-60 cells. The effect of PMEDAP was less pronounced than that of PMEG. However, total p38 protein level remained unaffected by PMEG and PMEDAP. Activation of p38 MAPK cascade was also measured in the cells exposed to these agents using phospho-specific antibodies. We found that neither PMEG nor PMEDAP activated p38 kinase...
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Liver gangliosides in cholestasis induced by bile duct ligation.
Hynková, Barbora ; Entlicher, Gustav (advisor) ; Ledvinová, Jana (referee)
Gangliosides are sialic acid-containing glycosphingolipids located on the cell surface of all animal cell types. They play a role as receptor molecules, share in cell-to-cell interaction and protect the cell against harmful environmental factors by increasing of rigidity of cell surface. This diploma thesis studies an influence of experimental cholestasis on hepatic ganglioside composition. Cholestasis was induced by bile duct ligation in Wistar rats. A significant increase of total lipid bound sialic acid and b-series gangliosides (GD1b, GT1b, event. GD3) was found in cholestatic liver when compared with controls. These results found in obstructive cholestasis correspond with the results Majer et al. Biomed. Chromatogr., 21, 446-450 (2007), described in 17ethinylestradiol induced cholestasis, but the increase of b- series gangliosides was milder in our study. As a second point, an effect of modulated heme-oxygenase 1 (HO-1) activity was investigated in cholestatic rats (HO-1 activator- hemine, HO- 1 inhibitor- Sn- mesoporphyrin). An increase of a total lipid sialic acid was found in Sn-mesoporphyrin treated animals but without significant changes in gangliosides composition. Lipid sialic acid and gangliosides were not changed in animals with hemine activated HO-1. Expression of mRNA of key...
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Enterohepatic circulation of bilirubin
Zelenka, Jaroslav ; Vítek, Libor (advisor) ; Entlicher, Gustav (referee) ; Červinková, Zuzana (referee)
Bilirubin is a main physiological product of heme degradation possessing important antioxidant and antiinflammatory properties. On the other hand, it could be neurotoxic during severe unconjugated hyperbilirubinemia combined with insufficiency of blood-brain barrier (neonatal jaundice). It is secreted from the body via bile and is further metabolized in the intestine. Part of the substance is reduced to urobilinoids, part is adsorbed to the intestinal content and some part could be reabsorbed back to the systemic circulation. This enterohepatically and enterosystemically circulating fraction varies in size depending on the rate of bilirubin secretion, solubility in the intestine and intensity of its intestinal metabolism. Under specific circumstances, EHC and ESC may significantly increase serum and bile bilirubin levels and influence physiological as well as pathological processes occuring in the body. Among the most important is the protective elevation of UCB levels in Gilbert syndrome subjects and dangerous increase in severity of neonatal jaundice. In the presented thesis, the mechanisms affecting EHC and ESC of bilirubin and tools for further research in BP metabolism were investigated. The solubility of intestinal UCB is strongly decreased by addition of divalent cations. However, such approach to...
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