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Regulation of STING function during murine polyomavirus infection
Šnejdarová, Aneta ; Horníková, Lenka (advisor) ; Pimková Polidarová, Markéta (referee)
Stimulator of Interferon Genes (STING) is the adapter protein of an innate immunity signalling pathway, involved in detection of double-stranded DNA (dsDNA) in the cell cytoplasm, which leads to the expression of pro-inflammatory genes, including the production of type I interferon. Eventhough during the infection with a dsDNA virus, murine polyomavirus (MPyV), the STING protein is activated, the resulting interferon production is moderate. Therefore, it can be assumed that the function of the STING protein is regulated in MPyV-infected cells. The aim of this thesis was to investigate three mechanisms by which the regulation can occur, namely through protein interaction partners, post- translational modifications, or changes in the subcellular localization of the STING protein. A cell-line of mouse fibroblasts stably expressing the STING protein fused with the HA-tag was established to facilitate the research. Furthermore, two plasmids were prepared, that encode the STING protein fused with the green fluorescent protein, facilitating the monitoring of the localization of the protein in the cell, or with a composite tag containing an in vivo biotinylated BioEaseTM -tag enabling effective isolation of the STING protein. The results of colocalization observations and coimmunoprecipitation suggest that...
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Vesicular trafficking from acidic compartments to the endoplasmic reticulum
Polidarová, Markéta ; Forstová, Jitka (advisor) ; Plocek, Vítězslav (referee)
The cell uses retrograde transport from endosomes to Golgi apparatus and further to the endoplasmic reticulum to recycle its receptors and other proteins. There are several pathways starting on different types of endosomes aimed to the trans-Golgi network and from it further to the endoplasmic reticulum. From the early and maturing endosomes the proteins are transported using the retromer complex. Rab9 GTPase is essential for transport from the late endosomes. Rab6 and Rab11 play major role in the transport form the recycling endosomes. There are two pathways going through the Golgi apparatus. The first one is mediated by COPI vesicles which are regulated by Arf1 GTPase and the pathway is sensitive to brefeldin A. The second pathway is regulated by Rab6 GTPase. Except for endogenous proteins the retrograde transport is used by protein toxins and small unenveloped DNA viruses as well. Rab6 pathway from the recycling endosomes and through the Golgi apparatus is characteristic for Shiga toxin. The retrograde transport of ricin starts on the early endosomes and is less clear. Scientists only started uncovering the transport of small unenveloped DNA viruses.
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Protein STING targeting for chronic hepatitis B treatment
Pimková Polidarová, Markéta ; Birkuš, Gabriel (advisor) ; Forstová, Jitka (referee) ; Rumlová, Michaela (referee)
Chronic hepatitis B (CHB) is an infectious disease caused by the hepatotropic hepatitis B virus (HBV). CHB affects millions of people worldwide, but the treatment options are still limited, and virus elimination is rarely achieved. The immunomodulatory approaches towards CHB treatment are recently being investigated. In this thesis, we focused on the anti-HBV potential of the cyclic- GMP-AMP synthase (cGAS)-stimulator of interferon genes (STING) DNA-sensing innate immunity pathway, which upon activation leads to the secretion of proinflammatory cytokines. We screened synthetic cyclic dinucleotide (CDN)-based STING agonists and their lipophilic prodrugs prepared in our laboratory in reporter cell lines and peripheral blood mononuclear cells (PBMC). We selected candidate compounds with superior cGAS-STING pathway activation properties compared to the natural eukaryotic STING agonist. We identified 3′,3′-c-di(2′-fluoro,2′- deoxyAMP) to have improved cGAS-STING pathway activation properties over the five most abundant STING isoforms found in the humans, including the variants that do not respond well to 3′,3′-CDNs. The symmetric bis-pivaloyloxymethyl prodrug of 3′,3′-c-di(2′-fluoro,2′-deoxyAMP) further increased the activity of parent CDNs by enhancing their intracellular entry. We showed that the...
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Utilization of mouse polyomavirus derived virus-like particles for cargo delivery into cells
Polidarová, Markéta ; Španielová, Hana (advisor) ; Šmahel, Michal (referee)
and key words Mouse polyomavirus-derived virus-like particles composed from major capsid protein VP1 (MPyV VP1-VLPs) are interesting structures for use as a delivery system of various cargos into cells. VP1 protein self-assembles into icosahedral particles of 45 nm in diameter that are hollow highly regular nanoparticles. In this work, model small molecule cargo, Cyclodextrin-Based Bimodal Fluorescence/MRI Contrast Agent, was encapsidated into MPyV VP1-VLPs. The cargo was stably associated with VLPs and was delivered into mammalian cells using these VLPs. To prevent VLPs entrapment in endolysosomal compartments and increase the potential of VLPs applications, MPyV VP1 protein was modified by insertion of histidine-tag (6 histidine long sequence surrounded by glycine and serine) sequences into VP1 surface loop DE, because histidine modification of synthetic systems had enhancing effect on endosome escape and cargo delivery. With the use of in Bac-to-Bac® baculovirus expression system His-VP1 protein was expressed in insect cells and a variety of VP1-assemblies was obtained: long tubules and small 20nm VLPs formed from VP1 with 4 histidine-tags in DE loop, and novel VP1 nanostructure, which we named nano-jumpers, formed from VP1 with 2 histidine-tags. Nonetheless the endosome escape properties of...
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Vesicular trafficking from acidic compartments to the endoplasmic reticulum
Polidarová, Markéta ; Forstová, Jitka (advisor) ; Plocek, Vítězslav (referee)
The cell uses retrograde transport from endosomes to Golgi apparatus and further to the endoplasmic reticulum to recycle its receptors and other proteins. There are several pathways starting on different types of endosomes aimed to the trans-Golgi network and from it further to the endoplasmic reticulum. From the early and maturing endosomes the proteins are transported using the retromer complex. Rab9 GTPase is essential for transport from the late endosomes. Rab6 and Rab11 play major role in the transport form the recycling endosomes. There are two pathways going through the Golgi apparatus. The first one is mediated by COPI vesicles which are regulated by Arf1 GTPase and the pathway is sensitive to brefeldin A. The second pathway is regulated by Rab6 GTPase. Except for endogenous proteins the retrograde transport is used by protein toxins and small unenveloped DNA viruses as well. Rab6 pathway from the recycling endosomes and through the Golgi apparatus is characteristic for Shiga toxin. The retrograde transport of ricin starts on the early endosomes and is less clear. Scientists only started uncovering the transport of small unenveloped DNA viruses.
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