|
|
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...
|
|
|
Effect of cytochromes P450 on metabolism of anticancer drugs bound into apoferritin nanoparticle
Wilhelm, Marek ; Indra, Radek (advisor) ; Ptáčková, Renata (referee)
Tumour-related diseases are the second most common cause of death in the Czech Republic, right after cardiovascular diseases. Nanomedicine - a novel scientific discipline - shows captivating potential in anticancer treatment with help of so called nanotranporters - nanoparticles capable of transporting other molecules. Encapsulation of a cytostatic drug into a nanoparticle improves its pharmacokinetical and pharmacodynamical properties which helps to reduce adverse side effects on non-tumour healthy tissue. In the scope of this diploma thesis apoferritin - apo-form of ferritin - was studied, since this nanotransporter shows promise for clinical use in anticancer treatment. Effect of hepatic microsomes from premedicated and control rats on biotransformation of doxorubicin cytostatic (Dox) in free and apoferritin nanoparticle-bound forms was investigated at pH 7,4. Over the course of biotransformation two types of metabolites - M1 and M2 - were observed. Regardless of the employed inductor all studied microsomes have exhibited similar metabolism of free doxorubicin and its apoferritin encapsulated form (ApoDox). Our results also imply that doxorubicin can be metabolically processed by rat hepatic microsomes in both free and ApoDox form with similar efficiency. We have also studied biotransformation...
|
|
|
Protinádorová aktivita a cílená doprava rutinu
Durďáková, Michaela
The diploma´s thesis “Antitumor activity and targeted transport of rutin” deals with the effect of flavonoid rutin on tumor and non-tumor cells. The thesis is divided into the theoretical part and practical part. The theoretical part deals with rutin itself, tumor diseases and nanocarrier apoferritin. The practical part has three main parts. The first one deals with the properties of the rutin itself, its stability for storage and stability in solutions simulating distinct physiological environments. Furthermore, toxicity of rutin for tumor and non-tumor cells and the effect on the expression of proteins involved in the malignant potential of tumor cells were investigated. The second part deals with encapsulation of rutin into apoferritin (to form aporutin), characterization of this complex by means of its stability and toxicity for tumor and non-tumor cells. The third and last part focuses on a combined therapy in terms, of the synergistic action of rutin/aporutin together with doxorubicin on tumor and non-tumor cells was investigated.
|
|
|
Nanoparticle forms of anticancer drugs and the mechanisms influencing their efficiency
Urbanová, Tereza ; Stiborová, Marie (advisor) ; Hýsková, Veronika (referee)
Currently, cancer is one of the major diseases of civilization. The disadvantage of conventional chemotherapy, which began in the 1940s, is its non-specific effect, so the cytostatics are toxic to healthy cells. However, if the cytostatic is inserted into a nanotransporter, it increases its specific efficacy and reduces the negative side effects. One of the possible nanotransporters is protein called apoferritin (a protein component of ferritin, an iron-carrying protein) that contains light and heavy subunits differing in their function in iron uptake. In this bachelor thesis, the ability of apoferritin to encapsulate two cytostatics (ellipticine and doxorubicin), depending on its origin and the proportion of light and heavy apoferritin subunits, was studied.
|
|
|
Study of disassembly/reassembly mechanisms of ferritin protein cages and their utilization in nanomedicine
Krausová, Kateřina ; Fohlerová, Zdenka (referee) ; Heger, Zbyněk (advisor)
Diploma thesis deals with the study of dissociation and reassociation of ferritin protein cages and their use in nanomedicine. Most studies that are focused on targeted transport of pharmaceuticals using ferritin cages work with horse spleen ferritin. It is, however, its origin, which leads to increasingly frequent questions about possible immunogenicity in the patient's organism, which also provides the main motivation to test the possibility of encapsulation of low-molecular drugs into ferritins originating from alternative organisms. In the practical part the method for the study of dissociation was experimentally designed. Native polyacrylamide gel electrophoresis was used to study dissociation of equine ferritin composed of different subunit, human ferritin, and archeal Pyrococcus furiosus ferritin. The obtained subunit dissociation results were used to encapsulate the low molecular chemotherapeutic drug doxorubicin and for further characterization of the ferritin-doxorubicin complex. The efficacy of the designed nanoformulations has been verified in the treatment of malignant breast cancer. Human ferritin proves to be the optimal one. Its composition of heavy subunits corresponds to a lower protein stability, thus a more efficient opening of the structure and consequent encapsulation of the cytostatics occurs. With its 60% encapsulation efficiency of doxorubicin, low polydispersity index, effective cytotoxicity of ferritin-doxorubicin complex and minimal risk of immune response to the patient's organism, human ferritin achieves better results than commonly used horse spleen ferritin.
|
|
|
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...
|
|
| |
|
|
Study of the mechanism of anticancer drug action on neuroblastomas
Černá, Tereza ; Stiborová, Marie (advisor) ; Souček, Pavel (referee) ; Mrízová, Iveta (referee)
Despite advances in cancer diagnosis and therapy, cancer is the second leading cause of death globally. The improvements of cancer treatment are the major challenge in this research. The aim of the thesis was studying of effects of two anticancer drugs ellipticine (Elli) and doxorubicin (DOX) on some cancer and healthy cell lines. Specific consideration was given to expand current knowledge about the metabolism and cytostatic effects of Elli in neuroblastoma cell lines. Another part of this study was focused on mechanisms contributing to the development of ellipticine-resistance in cancer cells and influence of histone deacetylase inhibitors on anticancer therapy was investigated. Moreover, the aim was to develop apoferritin (Apo) nanocarrier suitable for the active transport of cytostatics to cancer cells. Several essential data were found in this doctoral thesis. Anticancer efficiency of Elli depends on the CYP3A4-mediated metabolism in cancer. The CYP3A4 enzyme encapsulated into two nanoparticle forms, liposomes and SupersomesTM , was tested to activate ellipticine to its reactive species forming covalent DNA adducts. The formation of adducts seems to be dependent on concentrations of CYP3A4 in nanoparticle systems. A higher effectiveness of CYP3A4 in SupersomesTM than in liposomes to form...
|
|
|
Retrospective-gating Myocardial T1 Mapping in Rats with Doxorubicin Cardiomyopathy
Dvořáková, Lenka
In vivo T1 mapping of rat myocardium can be challenging given to the high heart and respiratory rate and small size of the heart. We propose a new method for in vivo T1 estimation based on retrospectively gated inversion-recovery fast low-angle shot (IR FLASH) pulse sequence. The method was tested on an animal model of dilated cardiomyopathy. The T1 estimates were mostly in line with the effects of doxorubicin and estradiol described in literature.
|
|
| |
guest ::
