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Host-virus interactions of mammalian endogenous retroviruses
Farkašová, Helena ; Elleder, Daniel (advisor) ; Hirsch, Ivan (referee) ; Mělková, Zora (referee)
Endogenous retroviruses (ERVs) originate by germline infection and subsequent mendelian inheritance of their exogenous counterparts. With notable exceptions, all mammalian ERVs are evolutionarily old and fixed in the population of its host species. Some groups of retroviruses were believed not to be able to form endogenous copies. We discovered an additional endogenous Lentivirus and a first endogenous Deltaretrovirus. Both of these groups were previously considered unable to form endogenous copies. Endogenous lentiviruses were discovered only recently and are still quite rare. These are still just small pieces of evidence insufficient to give a broader picture about the history of virus endogenization. We described a novel endogenous Lentivirus in the genome of Malayan colugo (Galeopterus variegatus) denoted ELVgv (endogenous Lentivirus of G. variegatus). Based on several analyses we proved that this is the oldest Lentivirus discovered up to date and confirmed its presence in the only other extant species of Dermoptera - Cynocephalus volans. Endogenous deltaretroviruses were the last group without a single endogenous member. We detected the remnants of endogenous Deltaretrovirus in the genome of Natal Long-fingered bat (Miniopterus natalensis). However, this sequence was present in the genome only in one...
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Study of the effect of immunological sdjuvants on experimental treatment of HPV-induced tumors by recombinant VACV and DNA vaccines
Gabriel, Pavel ; Němečková, Šárka (advisor) ; Mělková, Zora (referee) ; Reiniš, Milan (referee)
1 ABSTRACT The success of cancer vaccines depends on factors associated with the vaccine, which define the main parameters of effective immune responses such as its size and quality, as well as on factors related with the host, represented by the immunosuppressive mechanisms that allow the tumor to escape recognition by the immune system or negatively influence the function of effector T-cells. Attenuated, non-replicating viruses are at present preferred as VACV for safety reasons. A problem may arise concerning their lack of immunogenicity. Through the deletions of non-essential genes, vaccination vectors are therefore developed based on attenuated rVACV capable of replication, which induce a strong immune response. Genes of various immunological adjuvants (e.g., genes for cytokines and costimulatory molecules) are inserted into the vectors for the purpose of eliminating the influence of the immunosuppressive mechanisms of tumors. The first part of the work describes our study of the influence of vCCI on biological properties of rVACV derived from the Prague strain. Testing of vCCI deletion and insertion mutants expressing tumor associated protein HPV16 E7 has shown that secreted vCCI attenuated the virus in vivo, which correlated with reduced levels of the corresponding CC chemokines in the blood compared...
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Experimental and clinically used vaccines based on vaccinia virus
Pilná, Hana ; Mělková, Zora (advisor) ; Šroller, Vojtěch (referee)
Vaccinia virus (VACV) is an enveloped DNA virus belonging in the Orthopoxviridae genus. It is a laboratory virus in which the natural host and exact origin remain unclear. However it is of great significance for human kind. First of all, different VACV strains were used for preparation of vaccines used in the smallpox eradication campaign. Even today a significant effort is made to prepare more efficient and safer vaccines against smallpox, namely because of still remaining concerns that variola virus - causative agent of smallpox - could be misused as a biological weapon. Advances in genetic engineering allowed use of VACV for additional purposes, namely as a vaccination and expression vector. VACV enables insertion of large pieces of foreign DNA into its genome and expression of this DNA in a host. Furthermore VACV replicates exclusively in a cytoplasm, decreasing a risk of incorporation of the viral DNA into the host genome. These and other features make VACV an ideal candidate as a vector for preparation of recombinant vaccines against various infectious and oncological diseases. This thesis provides a summary of both clinically used and experimental vaccines derived from VACV. Powered by TCPDF (www.tcpdf.org)
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Effects of heme metabolism on HIV-1 latency reversal
Kompas, Maroš ; Mělková, Zora (advisor) ; Trejbalová, Kateřina (referee)
Progression of HIV infection in HIV-positive patients can now be successfully controlled by the combined antiretroviral therapy. However, due to persistence of the latent reservoir, HIV infection cannot be cured. The immune system nor current therapeutic approaches can target the pool of latently infected cells, thus strategies aiming at reactivation and subsequent elimination of the reservoir cells are recognized as possibly curative. This thesis has examined previously demonstrated latency-reversing capacity of heme arginate (HA), another redox modulator, and their synergism with Protein Kinase C inducer phorbol myristate acetate (PMA) to reactivate HIV-1 in the context of heme metabolism. HIV-1 reactivation was assessed by the intensity of green fluorescence in the model Jurkat cell line clone (A2), containing HIV-1 "mini-virus" (LTR-Tat-IRES-EFGP-LTR), as well as in the A2 cells stably transfected with plasmid vectors encoding cDNA for specific factors of heme metabolism and for control luciferase. While the administration of redox modulator alone did not stimulate expression from the HIV-1 LTR and HA reactivated the "mini-virus" only slightly, both compounds revealed a synergy with PMA in all cell lines studied. Basal and induced expression of EGFP was found variable in cells transfected with...
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Sensing of MPyV infection by innate immunity sensors
Rjabčenko, Boris ; Forstová, Jitka (advisor) ; Anděra, Ladislav (referee) ; Mělková, Zora (referee)
Host sensors that recognize pathogen associated molecular patterns and the mechanisms of innate immune response to mouse polyomavirus (MPyV) infection were the main topics of current work. We found that MPyV did not induce interferon (IFN) production during early events of infection, but induced interleukin-6 (IL-6) and other cytokine production without inhibiting virus multiplication. Cytokine microenvironment changed the phenotype of adjacent non infected fibroblasts toward the cancer-associated fibroblast (CAF)-like phenotype. We identified Toll-like receptor 4, a sensor of the innate immunity system, to be responsible for infection dependent IL-6 production. In an effort to determine whether and where virions are released from endosomal compartments into the cytosol, we found that the hydrophobic domains of minor capsid proteins, exposed on the surface of virions after their partial disassembly in the ER, play an important role in effective escape of virions from the lumen part of endoplasmic reticulum into the cytosol, Although naked, partially disassembled virions appear before translocation to the nucleus in the cytosol, viral DNA is not recognized by cytosolic sensors at this phase of infection Sensing of MPyV resulting in IFN production occurs first during viral replication. Mutant virus,...
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Molecular mechanisms of apoptosis regulation by fatty acids in pancreatic β-cells
Němcová, Vlasta ; Kovář, Jan (advisor) ; Anděra, Ladislav (referee) ; Mělková, Zora (referee)
The incidence of type 2 diabetes is growing rapidly and represents a big threat for the human health care and economy system as well in the 21st century. The association of type 2 diabetes with obesity is apparent and dysfunction and apoptosis of pancreatic β-cells caused by elevated levels of fatty acids in circulation are considered as an important factor contributing to the development of this disease. However, molecular mechanisms that underlie these detrimental effects of fatty acids are only partially understood. The aim of this research project was to contribute to elucidation of mechanisms by which saturated and unsaturated fatty acids regulate viability and apoptosis induction in human pancreatic β-cells in vitro. Employing human pancreatic β-cell line NES2Y, we showed that increased levels of relevant dietary saturated fatty acids (palmitic and stearic acid) induce apoptosis of pancreatic β-cells, in contrast to relevant dietary unsaturated fatty acids (e.g. palmitoleic and oleic acid). We found that stearic acid-induced apoptosis is accompanied by significant activation of caspase-2, -6, -7, -8 and -9, but not by significant activation of caspase-3. Nevertheless, it was not associated with significant cytochrome c release, alteration in PIDD, Fas receptor and Fas ligand expression and...
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Effects of heme arginate in HIV-1 acute infection and in latency reversal
Prakash, Shankaran ; Mělková, Zora (advisor) ; Hirsch, Ivan (referee) ; Hejnar, Jiří (referee)
The available antiretroviral compounds can effectively suppress the replication of HIV-1 and block the disease progression. However it is impossible to eradicate the virus from the organism as the HIV-1 integrated in the genome is not affected by the existing anti-HIV-1 drugs. Therefore, new latency reversing agents are being actively developed as part of "shock and kill" therapy to reactivate the provirus and clear the reservoir. Normosang (heme arginate; HA) is a human hemin- containing compound used to treat acute porphyria. Heme is physiologically catabolised by heme oxygenases to form iron (Fe2+ ), carbon monoxide (CO) and biliverdin that is further converted to bilirubin by biliverdin reductase. In this study, we have demonstrated that HA inhibited HIV-1 replication during the acute infection, which was accompanied by the inhibition of reverse transcription. On the other hand, HA synergised with phorbol myristyl acetate (PMA) and reactivated the HIV-1 provirus in ACH-2 cells and the HIV-1 "mini-virus" in Jurkat cell clones A2 and H12. HIV-1 ''mini-virus'' was reactivated also by HA-alone. Further, we have studied the effects of heme degradation products on latent HIV-1 reactivation when added individually. We employed addition of ascorbate to generate Fe2+ , resulting in an increased...
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Polyomavirus minichromosome structure
Satratzemis, Christos ; Forstová, Jitka (advisor) ; Mělková, Zora (referee)
The polyomavirus genome is present in the host cell as circular double-stranded DNA associated with nucleosomes. Consequently, the expression of polyomavirus genes is affected by the location of nucleosomes on DNA and histone modifications. This thesis reviews the current state of knowledge regarding the polyomavirus minichromosome structure and the effects of nucleosome phasing and histone modifications on polyomaviral replication cycle. In addition, factors conditioning these phenomena are discussed. Drawing on available literature, neither nucleosome phasing nor histone modifications appear to be random. However, not all viral DNA molecules are identical in these respects. Processes such as early and late transcription, replication and encapsidation thus occur only within certain fractions of the set of DNA molecules
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Interaction of transmembrane proteins ASCT1 and ASCT2 with retroviral envelope glycoproteins
Trávníček, Martin ; Trejbalová, Kateřina (advisor) ; Mělková, Zora (referee)
Transmembrane proteins ASCT1 and ASCT2 are ubiquitous neutral amino acid transporters. Apart from their transporter function in metabolically active cells, they also serve as receptors for a wide group of retroviruses. All retroviruses recognizing the transmembrane receptor ASCT2/ASCT1 share a similar env gene, encoding the envelope glycoprotein. Syncytin-1 is the envelope glycoprotein, encoded by human endogenous retrovirus type W, produced in placental cytotrophoblasts of primates, including human. Interaction of receptor binding domain of Syncytin-1 and specific extracellular region of ASCT2 is responsible for fusion of neighbouring cells and formation of multinucleated syncytiotrophoblast. The importance of syncytiotrophoblast lies in higher efficiency of feto-maternal exchange of nutrients and simultaneously in modulation of immune response of mother towards fetus. Defect in syncytiotrophoblast differentiation often leads to complications during pregnancy and impairs the proper development of embryo. Characterization of protein domains responsible for the interaction between Syncytin-1 and its receptors is important to uncover genetic causes of these pathologies. Furthermore, understanding the interaction helps us to clarify the mechanism of cell entry and explains the molecular basis of host...
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