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Nucleic acids as terapeutic agent
Ráčková, Lucie ; Španová, Alena (referee) ; Rittich, Bohuslav (advisor)
With the development of molecular biology development of oncotherapy proceeds. The major progress of modern medicine is gene therapy. In the gene therapy are two categeories, namely, viral vectors and nonviral vectors which are used mainly. Nonviral vectors include plasmids. Plasmid DNA used in medicine must be perfectly purified. Chromatographic methods are mainly used at present. Research and development deals with other methods for example two-phase aqueous systems and magnetic carriers. In experimental part of this thesis, isolation of pUC 19 plasmid DNA from Escherichia coli JM 109 (pUC 19) cell culture was performed via method of alkaline lysis. Quality of isolated plasmid DNA was verified spectrophotometrically and by agarose gel electrophoresis. Isolated plasmid DNA was purified using three methods: RNA in plasmid DNA was precipitated by lithium chloride, RNA was degraded by immobilized RNase A and plasmid DNA was purified using two-phase aqueous system.
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Subunit c of mammalian F1Fo ATP synthase - from molecular mechanisms of assembly to potential therapies
Marković, Aleksandra ; Mráček, Tomáš (advisor) ; Trnka, Jan (referee) ; Rohlena, Jakub (referee)
Mammalian F1Fo ATP synthase plays a crucial role in ATP production through the process of oxidative phosphorylation. Assembly of this multisubunit protein complex requires specific assembly factors. Notably, the assembling of subunit c in mammals requires several factors, yet despite decades of research, the import of subunit c, its incorporation into the inner mitochondrial membrane, and the assembly of monomers towards octameric c-ring remain enigmatic. To shed new light on this process, we first screened for interacting partners of subunit c using a mass spectrometry-based approach. Our screen identified three proteins as the most prominent interactors of subunit c- TMEM70, TMEM242, and c15orf61, which we subsequently characterized. For the initial characterization of the TMEM242 function, we generated both knockdown and knockout HEK293 models. TMEM242 knockdown led to impaired biogenesis and decreased levels of assembled ATP synthase without affecting the content of other OXPHOS complexes. On the contrary, complete deficiency of TMEM242 lead also to the downregulation of complexes I and IV, which indicates that the primary target of TMEM242 is ATP synthase. While other studies suggested that both TMEM242 and TMEM70 interact with mitochondria complex I intermediate assembly (MCIA), our...
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Novel methods of treatment of B cell malignancies based on immunotherapy with genetically modified T cells
Novotná, Natálie ; Otáhal, Pavel (advisor) ; Šmahel, Michal (referee)
CAR T cell therapy represents a promising method in treatment of hematological malignancies. Gene immunotherapy uses modified T cells that express a chimeric antigen receptor (CAR) on their surface. Modified T lymphocytes are able to recognize and destroy target cells based on specific surface markers. Although CAR T cell therapy is used in clinical practice, there is a number of limitations that reduce its effectiveness. The aim of this thesis is to explore new possibilities of making the entire therapy more efficient through endogenous secretion of interleukins (IL-7, IL-15, IL-21) under the control of inducible promoters, and thus to strengthen the persistence and expansion of CAR T cells in vivo. For this purpose, inducible expression systems containing the gene for CAR19 receptor specifically recognizing the CD19 molecule and the interleukin gene located under inducible NFAT or NR4A promoters, were constructed. The assembled vectors were electroporated into PBMC cells using the PiggyBac transposon system to achieve stable expression in T lymphocytes. After co-cultivation with RAMOS cell line, data were obtained by measurement on a flow cytometer and the ELISA method. Based on the results, it is evident that stimulated CAR T cells are able to generate higher concentrations of interleukins,...
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Translation potential of current preclinical techniques for gene therapy of neurological diseases in clinic. A critical review.
Žideková, Paulína ; Novák, Ondřej (advisor) ; Jendelová, Pavla (referee)
Research in the field of gene therapy has potential to become a revolutionary way to the existing treatment for a wide spectrum of neurological diseases. To treat these disorders causally, by specific substituting, deleting, silencing or editing faulty genes could be a privilege of gene therapy. The concept of translational medicine is to facilitate the transfer of working principles in preclinical research into treatment in humans. Its key issue is to overcome limitations associated with the gap between the tremendous variety molecular biology tools of preclinical research and the lack of simple corresponding options in humans. Clinical implementation of most of the preclinical approaches is still considered to be limited. The main focus of this thesis is to summarize latest advancements of molecular and genetic engineering tools that themselves or in combination have the potential to promote most preclinical gene therapy of neurological diseases to clinical use. Based on that, this study aims to suggest perspective methods of treatment for selected neurological diseases.
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4th CCP Phenogenomics Conference abstract book
Sedláček, Radislav
The fourth CCP Phenogenomics Conference was held as a hybrid meeting. The scientific committee selected the topic of rare diseases: experimental models & delivery of therapies as the main thematic focus of the 2022 Conference. The Conference provided again an excellent opportunity to support networking and interactions among the researchers, CCP staff, users and experts from the commercial sector.
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4th CCP Phenogenomics Conference abstract book
Sedláček, Radislav
The fourth CCP Phenogenomics Conference was held as a hybrid meeting. The scientific committee selected the topic of rare diseases: experimental models & delivery of therapies as the main thematic focus of the 2022 Conference. The Conference provided again an excellent opportunity to support networking and interactions among the researchers, CCP staff, users and experts from the commercial sector.
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Current approaches to cystic fibrosis therapy
Chmelíková, Barbora ; Kubíčková, Božena (advisor) ; Marková, Vendula (referee)
This bachelor thesis is focused on possible herapeutic methods for cystic fibrosis with main focus on modulators. The individual modulators are described in terms of their function, their differences and application possibilities. The thesis are also discuss other methods of treatment of cystic fibrosis, both for the respiratory tract and gastrointestinal tract. The thesis itself will be divided into three complementary parts. The first theoretical part defines the basic concepts of terms related to cystic fibrosis, the second follow-up practical part is focused on the comparison of the various methods of treatment of cystic fibrosis and the third part in the form of detailed analysis of the individual modulators. As for the methodology of the work, a method of literature search using secondary verified sources will be used. Keywords: cysticfibrosis, gene therapy, therapy, modulator, potentiator, correctors
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Nanoparticle-Mediated Delivery System for Gene Therapy
Dvořáková, Nikola ; Ellederová, Zdeňka (advisor) ; Šálek, Petr (referee)
Gene editing with the CRISPR/Cas9 system is one of the options that sets a new trend in the development of gene therapy. The most commonly used delivery of DNA into the cells are via viruses. Nevertheless, they are often unable to take CRISPR/Cas9 system, which can be bigger than several kb. Nanoparticles (NPs), as non-viral transporters, seem to be a good alternative delivery system. For this work magnetic Fe3O4 NPs (MNPs) were selected, because of their excellent properties such as multifunctionality, biocompatibility, easy degradation and simple synthesis. The aim of this work was to synthesise MNPs and a complex of MNPs coated with PEI/CRISPR-Cas9 plasmid and to characterize them by physicochemical methods. The created complex MNPs/PEI/CRISPR-Cas9 was defined by exact parameters that are suitable for possible cell uptake. The hypothesis of stabilization of the MNPs/CRISPR-Cas9 plasmid complex by polyethylenimine (PEI), which can also protect plasmid DNA against restriction endonucleases, was verified. Next a stable modified cell line HEK293-TLR3, designed to evaluate the efficacy of double strand break (DSB) repair by nonhomologous end joining (NHEJ) or homologous recombination (HR) was, transfected with the synthesised MNPs/PEI/CRISPR-Cas9 complex. The results indicate a 25% transfection...
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Polymer systems for siRNA delivery
Blažková, Jana ; Pechar, Michal (advisor) ; Šťovíček, Vratislav (referee)
The process of RNA interference (RNAi) is a natural phenomenon posttranscriptionally controlling gene expression by means of small double-stranded RNA molecules (dsRNA). Small interfering RNA (siRNA) is a small dsRNA that can be used for targeted gene silencing as an alternative therapeutic treatment of genetic diseases. For in vivo administration, siRNA must be protected against degradation to ensure its efficient delivery to target cells using sophisticated vectors. This work is focused on description of non-viral vectors based on cationic polymers, forming polyelectrolyte complexes with siRNA (polyplexes), and surface-modifying hydrophilic polymers enabling protection of the vector during its transport in the bloodstream.
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Epidemiology and preventive measures in inherited retinal dystrophies in the Czech Republic.
Kousal, Bohdan ; Lišková, Petra (advisor) ; Vlková, Eva (referee) ; Mahelková, Gabriela (referee)
Introduction: Inherited retinal diseases (IRDs) are one of the most common causes of incurable blindness in children and young adults. In the Czech Republic, prior to the start of our work, these disorders had not been the subject of a systematic research. The aim of the study was to identify, clinically characterize and molecular genetically analyse Czech patients with monogenic IRDs and based on the knowledge gained subsequently implement preventive and therapeutic measures to clinical practice. Material and methods: We have performed a comprehensive clinical examination, genealogical analysis and molecular genetic investigation in patients with IRDs and their family members. Detailed ocular examination included spectral domain optical coherence tomography, high-resolution fundus photography and autofluorescence imaging. DNA was isolated from venous blood samples or buccal cells. Causal variants were searched for using Sanger and massively parallel sequencing, and their pathogenicity was evaluated in the context of previously published data, bioinformatical analysis and segregation in available family members. Results: In total, 103 individuals from 76 Czech families diagnosed with IRDs were characterized and their data published. Specifically, we have described clinical and molecular genetic...
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