National Repository of Grey Literature 8 records found  Search took 0.01 seconds. 
Structure and function relationships of model hemoproteins
Lengálová, Alžběta ; Martínková, Markéta (advisor) ; Hudeček, Jiří (referee) ; Muchová, Lucie (referee)
Heme is one of the most important and most studied cofactors that are essential for proper function of many proteins. Heme-containing proteins comprise of a large group of biologically important molecules that are involved in many physiological processes. The presented dissertation is focused on two groups of heme sensor proteins, namely prokaryotic heme-based gas sensors and eukaryotic heme-responsive sensors. Heme-based gas sensors play an important role in regulation of many bacterial processes and consist usually of two domains, a sensor domain and a functional domain. The dissertation thesis aims at the study of two model bacterial heme-based gas sensors, histidine kinase AfGcHK and diguanylate cyclase YddV, in order to elucidate their mechanism of interdomain signal transduction. Using X-ray crystallography and hydrogen-deuterium exchange coupled to mass spectrometry approaches, significant differences in the structure of the AfGcHK protein between the active and inactive forms were described. The signal detection by the AfGcHK sensor domain affects the structural properties of the protein, and these conformational changes then have indirect impact on the enzyme activity of the functional domain. Further, the dissertation pays more attention to the effect of a sensor domain dimerization...
The study of properties of anticancer drugs ellipticine, etoposide and doxorubicin in the forms of nanocarriers
Lengálová, Alžběta ; Stiborová, Marie (advisor) ; Martínková, Markéta (referee)
Currently available anticancer therapies are inadequate and spur demand for improved technologies. Among others, the utilization of nanocarriers for anticancer drug delivery has shown great potential in cancer treatment. Nanocarriers can improve the therapeutic efficiency of the drugs with minimization of the undesirable side effects. To evaluate potential application of this technology, two forms of nanocarriers have been studied: multi-walled carbon nanotubes (MWCNTs) and apoferritin. The aim of this study was to determine, whether given cytostatics (ellipticine, etoposide and doxorubicin) are bound to these nanotransporters and how are they released from them, especially depending on pH. Since the pH of the tumor cells is lower than the pH of healthy cells it would be preferred that the drugs would release from nanocarriers at the lower pH while at the physiological pH the release of the drug would be eliminated. The results found show that ellipticine is actually released from its MWCNT- and apoferrtin-encapsulated form at acidic pH (5.0), while at pH 7.4 its interaction with nanocarriers is stable. Ellipticine released from MWCNT is activated by microsomal enzymes to reactive metabolites (13- hydroxyellipticine and 12-hydroxyellipticine) forming DNA adducts. The results indicate that both...
The study of properties of anticancer drugs ellipticine, etoposide and doxorubicin in the forms of nanocarriers
Lengálová, Alžběta
Currently available anticancer therapies are inadequate and spur demand for improved technologies. Among others, the utilization of nanocarriers for anticancer drug delivery has shown great potential in cancer treatment. Nanocarriers can improve the therapeutic efficiency of the drugs with minimization of the undesirable side effects. To evaluate potential application of this technology, two forms of nanocarriers have been studied: multi-walled carbon nanotubes (MWCNTs) and apoferritin. The aim of this study was to determine, whether given cytostatics (ellipticine, etoposide and doxorubicin) are bound to these nanotransporters and how are they released from them, especially depending on pH. Since the pH of the tumor cells is lower than the pH of healthy cells it would be preferred that the drugs would release from nanocarriers at the lower pH while at the physiological pH the release of the drug would be eliminated. The results found show that ellipticine is actually released from its MWCNT- and apoferrtin-encapsulated form at acidic pH (5.0), while at pH 7.4 its interaction with nanocarriers is stable. Ellipticine released from MWCNT is activated by microsomal enzymes to reactive metabolites (13- hydroxyellipticine and 12-hydroxyellipticine) forming DNA adducts. The results indicate that both...
Structure and function relationships of model hemoproteins
Lengálová, Alžběta ; Martínková, Markéta (advisor) ; Hudeček, Jiří (referee) ; Muchová, Lucie (referee)
Heme is one of the most important and most studied cofactors that are essential for proper function of many proteins. Heme-containing proteins comprise of a large group of biologically important molecules that are involved in many physiological processes. The presented dissertation is focused on two groups of heme sensor proteins, namely prokaryotic heme-based gas sensors and eukaryotic heme-responsive sensors. Heme-based gas sensors play an important role in regulation of many bacterial processes and consist usually of two domains, a sensor domain and a functional domain. The dissertation thesis aims at the study of two model bacterial heme-based gas sensors, histidine kinase AfGcHK and diguanylate cyclase YddV, in order to elucidate their mechanism of interdomain signal transduction. Using X-ray crystallography and hydrogen-deuterium exchange coupled to mass spectrometry approaches, significant differences in the structure of the AfGcHK protein between the active and inactive forms were described. The signal detection by the AfGcHK sensor domain affects the structural properties of the protein, and these conformational changes then have indirect impact on the enzyme activity of the functional domain. Further, the dissertation pays more attention to the effect of a sensor domain dimerization...
Inhibitors of tyrosine kinases, the anticancer drugs of a new generation, modulate metabolism of ellipticine
Kolárik, Matúš ; Stiborová, Marie (advisor) ; Lengálová, Alžběta (referee)
8 Abstract Ellipticine is a cytotoxic alkaloid that exhibits multiple mechanisms of action such as intercalation into DNA, inhibition of topoisomerase II and activation of apoptosis due to changes in protein p53. The main mechanism of its action is formation of covalent adducts of ellipticine metabolites with DNA. Inhibitors of tyrosine kinases vandetanib, lenvatinib and cabozantinib are anticancer drugs, approved for treatment of advanced metastatic thyroid gland cancer. Mechanism of their action is modulation of cell signalization pathways in cancer cells. The aim of this thesis was investigation whether tyrosine kinase inhibitors can modulate metabolism of ellipticine in vitro, because metabolic activation of ellipticine dictates its pharmacological efficacy. The formation of ellipticine metabolites catalyzed by human and rat microsmes was found. Superosomes™ containing human or rat recombinant cytochromes P450 (CYP) were used to resolve, whether tyrosine kinase inhibitors affect oxidation of ellipticine by these enzymes. Other enzymes tested for possible alteration of formation of metabolites of ellipticine were peroxidases, including thyreoperoxidase. Ellipticine metabolites were separated by HPLC and quantified. Oxidation of ellipticine by human or rat microsomal enzyme systems was inhibited by tested...
The study of properties of anticancer drugs ellipticine, etoposide and doxorubicin in the forms of nanocarriers
Lengálová, Alžběta
Currently available anticancer therapies are inadequate and spur demand for improved technologies. Among others, the utilization of nanocarriers for anticancer drug delivery has shown great potential in cancer treatment. Nanocarriers can improve the therapeutic efficiency of the drugs with minimization of the undesirable side effects. To evaluate potential application of this technology, two forms of nanocarriers have been studied: multi-walled carbon nanotubes (MWCNTs) and apoferritin. The aim of this study was to determine, whether given cytostatics (ellipticine, etoposide and doxorubicin) are bound to these nanotransporters and how are they released from them, especially depending on pH. Since the pH of the tumor cells is lower than the pH of healthy cells it would be preferred that the drugs would release from nanocarriers at the lower pH while at the physiological pH the release of the drug would be eliminated. The results found show that ellipticine is actually released from its MWCNT- and apoferrtin-encapsulated form at acidic pH (5.0), while at pH 7.4 its interaction with nanocarriers is stable. Ellipticine released from MWCNT is activated by microsomal enzymes to reactive metabolites (13- hydroxyellipticine and 12-hydroxyellipticine) forming DNA adducts. The results indicate that both...
The study of properties of anticancer drugs ellipticine, etoposide and doxorubicin in the forms of nanocarriers
Lengálová, Alžběta ; Stiborová, Marie (advisor) ; Martínková, Markéta (referee)
Currently available anticancer therapies are inadequate and spur demand for improved technologies. Among others, the utilization of nanocarriers for anticancer drug delivery has shown great potential in cancer treatment. Nanocarriers can improve the therapeutic efficiency of the drugs with minimization of the undesirable side effects. To evaluate potential application of this technology, two forms of nanocarriers have been studied: multi-walled carbon nanotubes (MWCNTs) and apoferritin. The aim of this study was to determine, whether given cytostatics (ellipticine, etoposide and doxorubicin) are bound to these nanotransporters and how are they released from them, especially depending on pH. Since the pH of the tumor cells is lower than the pH of healthy cells it would be preferred that the drugs would release from nanocarriers at the lower pH while at the physiological pH the release of the drug would be eliminated. The results found show that ellipticine is actually released from its MWCNT- and apoferrtin-encapsulated form at acidic pH (5.0), while at pH 7.4 its interaction with nanocarriers is stable. Ellipticine released from MWCNT is activated by microsomal enzymes to reactive metabolites (13- hydroxyellipticine and 12-hydroxyellipticine) forming DNA adducts. The results indicate that both...
Detection of Hsp70 protein in plants exposed to various stress factors.
Lengálová, Alžběta ; Hýsková, Veronika (advisor) ; Liberda, Jiří (referee)
! Plants are continuously exposed to various stress conditions. Being sessile, they are not able to escape from adverse conditions. Therefore, they have developed specific defence mechanisms. Most studies focus on plant responses to a single type of stress. However, plants in nature must cope with a variety of stresses at the same time. In this work, the effects of heat shock on the interaction of tabaco (Nicotiana tabacum L.) with the Potato virus Y (PVY) were investigated. Obviously, heat stress is associated with the synthesis of Hsp70 protein, which has many important functions alleviating adverse effects of stress conditions (e.g. Hsp70 participates in refolding or degradation of damaged proteins and protein syntetis de novo). The effect of Hsp70 during viral infection is still not fully understood, some studies revealed Hsp70 as a part of viral multiplication and transport processes in plant. In the first experiment performed in this work, higher levels of PVYNTN virus was found in tobacco plants that have been exposed to heat shock after inoculation than in plants only infected. The amount of the virus corresponded with the amount of Hsp70 protein detected immunochemically using a specific antibody. It seems that the plant response to combination of heat stress with viral infection is a...

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