Global ETD Search

111	Aurora A kinase function during anaphase Lioutas, Antonio, 1980- 09 November 2012 (has links) Aurora A (AurA) is an important mitotic kinase mainly studied for its involvement in cell cycle progression, centrosome maturation, mitotic spindle pole organization and bipolar spindle formation. It localizes to duplicated centrosomes and spindle microtubules (MTs) during mitosis where it regulates various factors participating in metaphase spindle formation. AurA is degraded late in mitosis suggesting that it might also have a function in anaphase. In this study we focused in understanding AurA function during anaphase in two different experimental systems. First, we kept AurA active in cycled Xenopus egg extracts and found that MTs maintained their mitotic organization longer throughout mitotic exit. We also observed chromosome segregation defects and problematic nuclear envelope formation. These observations indicate that AurA activity needs to be down-regulated for the transition from metaphase back to interphase. To get insights into the role of AurA during metaphase-anaphase transition we initially asked whether its kinase activity is still necessary for the maintenance of the metaphase spindle. We saw that the inhibition of AurA kinase activity in metaphase resulted to a collapse of the established metaphase spindle in HeLa cells. Indicating that AurA activity is necessary for the metaphase spindle maintenance. Then, we looked whether AurA kinase activity is still necessary during anaphase. We inhibited AurA at the onset of anaphase in Hela cells and found that anaphase spindles were smaller. We also observed that the MT structure responsible for anaphase spindle elongation, the central spindle, was defectively assembled and organized. Moreover, in cells where AurA was inhibited segregation of chromosomes was defective. These results indicate that AurA kinase activity is necessary for anaphase spindle elongation, central spindle assembly and organization and chromosome segregation. To understand further how AurA regulates anaphase spindle formation we looked known AurA substrates. We depleted TACC3, a known AurA substrate involved in MT formation earlier in mitosis and observed that TACC3 depletion phenocopied AurA inhibition. This indicates that TACC3 has a function in MT organization and chromosome segregation during anaphase and this function could possibly be regulated by AurA. In this study we have demonstrated that AurA activity is essential for metaphase spindle maintenance. We also found that during anaphase when AurA is either maintained active or inhibited MT organization is greatly affected and chromosome segregation is defective. Suggesting that AurA activity needs to be tightly controlled during anaphase for a correct completion of mitosis. / Aurora A (AurA) es una quinasa mitótica importante que se ha estudiado principalmente en su papel durante la progresión del ciclo celular, la maduración del centrosoma, la organización y la formación del polo y del huso mitótico. Durante la mitosis, AurA se localiza en los centrosomas duplicados y en los microtúbulos (MTs) del huso y se ha observado que regula varios factores que participan en la formación del huso mitótico. AurA se degrada al final de la mitosis indicando que pueda tener una función durante la anafase. En este estudio nos hemos centrado en la comprensión de la función de AurA durante la anafase en dos sistemas experimentales diferentes. En primer lugar, utilizando extractos de huevos de Xenopus hemos mantenido AurA activa durante la transición de metafase a anafase y hemos visto que los MTs del huso mitótico mantienen su organización durante más tiempo. También hemos observado que cuando AurA se mantiene activa existen defectos en la segregación cromosómica y la formación de la membrana nuclear. Esto indica que la actividad de AurA tiene un papel regulador sobre los MTs y la chromatina durante la transición de la metafase a la interfase. Para entender cual es la función de AurA durante la transición de metafase a anafase primero hemos estudiado si la actividad de la quinasa es necesaria para el mantenimiento del huso mitótico. Hemos visto que la inhibición de la actividad quinasa AurA resultó en el colapso del huso durante la metafase en células HeLa. Esto indica que la actividad de AurA es necesaria para el mantenimiento del huso mitótico de metafase. A continuación hemos analizamos si la actividad quinasa de AurA sigue siendo necesaria para la anafase. Para ello hemos inhibido AurA en células Hela al inicio de la anafase. En estas condiciones los husos de la anafase son más pequeños y la estructura de los MTs responsable del alargamiento del huso mitótico durante la anafase, el huso central, se organiza defectuosamente. Además, se encontraron errores durante la segregación de los cromosomas. Estos resultados indican que la actividad quinasa de AurA es necesaria para el alargamiento del huso durante la anafase y la organización y segregación cromosómica. Para entender el mecanismo de la función de AurA durante la anafase hemos estudiado a sustratos de AurA. Al estudiar TACC3 , un sustrato conocido de AurA que participa en la formación de MTs en las fase iniciales de la mitosis hemos encontrado que su eliminación de células HeLa produce el mismo fenotipo que la inhibición de AurA. Esto indica que TACC3 tiene una función en la organización de MT y la segregación de cromosomas durante la anafase y que esta función podría estar regulada por la quinasa AurA. En este estudio hemos demostrado que la actividad quinasa de AurA es esencial para el mantenimiento del huso mitótico. También hemos encontrado que durante la anafase cuando la quinasa AurA se mantiene activa o se inhibe la organización de los MTs del huso mitótico se ve muy afectada y los cromosomas se segregan defectuosamente. Por tanto los resultados de este estudio indican que la actividad quinasa de AurA está estrechamente controlada durante la anafase para el correcto cumplimiento de la mitosis. Fus mitòtic Xenopus laevis Embriologia Centrosomes Mitosi HeLa cells Xenopus egg extract Cell cycle Mitotis Mitotic spindle Centrosome Kinase Anaphase Central spindle Microtubules Aurora A TPX2 TACC3 Augmin 576
112	Exploration of Zinc finger CCCH domain-containing protein 11A’s role in mammalian cell NFkB Pathway Wang, Jianxiang January 2019 (has links) ZC3H11A (ZC3) protein has been reported to be part of the TREX (TRanscription-EXport) nuclear export system for mammalian cells. According to our previous publication, ZC3 not only plays an unelucidated role in the TREX complex, but also supports the growth of several human nucleus replicating virus, such as influenza virus, adenovirus (HAdV), herpes simplex virus and HIV. We thought to further elucidate the role of ZC3 in immunological stress based on previous observations that ZC3 was upregulated in stress condition. Our previous experiment tested the effect of knocking out ZC3 in HeLa cell then stimulating the cells with IL-1β to induce immunological stress. It showed that IL-1β stimulated ZC3 knockout Hela cells produce more than double fold IL6 compared to IL-1β stimulated HeLa Cas 9 wild type. Since IL-6 is downstream of NFkB signalling pathway, we aimed to explore a possible role of ZC3 protein in mammalian cell’s NFkB pathway. Our primary results showed that NFkB pathway might be more upregulated in ZC3 KO cells than in wild type HeLa Cas9 cells. This up-regulation was found to be correlated to defective IkBα inhibitory mRNA biogenesis in knockout cells. Our results indicate that ZC3 might play a role in IkBα inhibitory mRNA biogenesis, process, and/or export. Further work is needed to describe the exact role of ZC3 in IKBα mRNA biogenesis. ZC3H11A NFkB HeLa cells Viral-host interaction Cell and Molecular Biology Cell- och molekylärbiologi Övrig annan medicin och hälsovetenskap
113	Secretion and Signaling Activities of Lipoprotein-Associated Hedgehog and Non-Sterol-Modified Hedgehog in Flies and Mammals Palm, Wilhelm, Swierczynska, Marta M., Kumari, Veena, Ehrhart-Bornstein, Monika, Bornstein, Stefan R., Eaton, Suzanne 10 December 2015 (has links) Hedgehog (Hh) proteins control animal development and tissue homeostasis. They activate gene expression by regulating processing, stability, and activation of Gli/Cubitus interruptus (Ci) transcription factors. Hh proteins are secreted and spread through tissue, despite becoming covalently linked to sterol during processing. Multiple mechanisms have been proposed to release Hh proteins in distinct forms; in Drosophila, lipoproteins facilitate long-range Hh mobilization but also contain lipids that repress the pathway. Here, we show that mammalian lipoproteins have conserved roles in Sonic Hedgehog (Shh) release and pathway repression. We demonstrate that lipoprotein-associated forms of Hh and Shh specifically block lipoprotein-mediated pathway inhibition. We also identify a second conserved release form that is not sterol-modified and can be released independently of lipoproteins (Hh-N/Shh-N). Lipoprotein-associated Hh/Shh and Hh-N/Shh-N have complementary and synergistic functions. In Drosophila wing imaginal discs, lipoprotein-associated Hh increases the amount of full-length Ci, but is insufficient for target gene activation. However, small amounts of non-sterol-modified Hh synergize with lipoprotein-associated Hh to fully activate the pathway and allow target gene expression. The existence of Hh secretion forms with distinct signaling activities suggests a novel mechanism for generating a diversity of Hh responses. info:eu-repo/classification/ddc/610 ddc:610
114	Modification of aspect ratio and surface charge to decrease sequestration of MRI contrast nanomaterials Van Gordon, Kyle 30 June 2020 (has links) Contrast agents for magnetic resonance imaging (MRI) are but one of a variety of nanosystems that have incredible potential for the detection and diagnosis of cancer. Nanosystems share a common disadvantage: they are quickly sequestered by biological processes that clear foreign material from the body, requiring ever larger doses to accumulate in targets, and reducing their overall effectiveness and viability. This thesis explores a pair of strategies for nanomaterials to boost their evasiveness from these defensive systems in the context of lanthanide MRI contrast agents, in an attempt to increase their probability to collect in cancerous tissue. Chapter 1 provides precedent and rationale for the modification of two parameters regarding novel nanosystem design: aspect ratio and zeta potential. Chapter 2 details the controlled syntheses and analysis of sodium dysprosium fluoride nanomaterials at a range of aspect ratios. Chapter 3 concerns the construction of tunable zwitterionic polymer coatings for synthesized nanomaterials to demonstrate control over the zeta potential in aqueous dispersion. Chapter 4 tests polymer-coated spherical nanoparticles and nanorods for internalization into or adsorbance onto a cancerous cell line. Chapter 5 summarizes the work of the previous chapters and suggests future research approaches. Though internalization or adsorbance onto HeLa cells was not observed for prepared nanomaterials, control over their aspect ratio at the synthetic level and zeta potential via constructed zwitterionic polymers was demonstrated, with implications for application to a plethora of nanosystems. / Graduate nanoparticles nanorods nanomaterials MRI relaxation lanthanides contrast agents T1 T2 dysprosium PMAO zeta potential HeLa internalization assay aspect ratio EPR effect MPS
115	Lärande för hållbar utveckling i moderna språk tyska : potential, utmaning och uppdrag / Education for sustainable development in German language learning : potential, challenge, and mission Auf der Strasse, Ada Alexandra January 2024 (has links) This study examines how modern language teachers in secondary schools in Sweden reflect on their capacities and motivation to implement Education for Sustainable Development [ESD] (lärande för hållbar utveckling [LHU]) in their lessons. Based on the theoretical framework of teachers´ beliefs, a postal survey was prepared, combining a Likert scale with open questions. As for now, the teachers in German in this study are seemingly unaware of the connection between ESD and their subject´s main purpose, which is to prepare the students to initiate and participate in authentic, communicative situations in the target language, and the requirement to foster intercultural dialogs within Europe. Neither are they aware of how the neuropsychological processes involved in foreign language learning are linked to the global sustainable goals SDG 4.7, SDG 16, and SDG 17 within Agenda 2030. Instead, the study confirms how the historical development of the term sustainability and ESD (LHU) has left a trail of confusion behind itself. As a result, six attitude types could be defined, each with different challenges based on the teachers' understanding of ESD and their underlying philosophical, ideological, and professional convictions. Besides the difficulties of placing their own subject within ESD, most teachers are convinced about the importance of sustainable development for mankind, which creates a dilemma of intrinsic incoherence and therefore less engagement. To increase their sense of capacity, they are unified falling back on former, contra-productive practices and turning to texts- and workbooks for help. The study concludes that there is a risk, that when language teachers are not given access to relevant knowledge and professional learning communities, in which they can explore the connection between their subject, ESD, and Agenda 2030, the Swedish society and schools will further lose the subject´s values and its unique neuropsychological related potential. This potential includes the ability and motivation to initiate and participate in peace-building intercultural dialogues within and outside Sweden, even if one´s language standards are still inadequate, as well as an individual prerequisite for empathy and compassion. Lärande för hållbar utveckling LHU Education for Sustainable Development ESD moderna språk Tyska ESD for 2030 hela skola ansats Whole School Approach WSA Educational Sciences Utbildningsvetenskap
116	Structure Elucidation and Biological Evaluation of a Novel Steroidal Saponin, Cholestanol Glucoside Isolated from Saraca Asoca Enodophytic Fuungus, Lasiodiplodia Theobromae Valayil, Jinu Mathew January 2015 (has links) (PDF) Although the molecular mechanisms underlying the onset and progression of cancer has been unraveled to a great extend, cancer continues to remain a leading cause of death around the world. Clinical efficacy of the existing anticancer drugs are largely compromised by the inherent and acquired resistance of cancer cell types and the severe side effects evoked by chemotherapeutic agents. Hence, the search for novel anticancer drugs with minimum side effects remains an active area of cancer research. Although molecular targeted drugs are preferred over the conventional cytotoxic chemotherapy, the screening of natural compounds with cytotoxic potentialities continues as they can serve as lead structures for the development of tumor selective anticancer drugs. Plants and microorganisms have been the prominent sources of therapeutic agents. Microorganisms being readily renewable, inexhaustible sources of diverse bioactive secondary metabolites are preferred over plants as sources of bioactive compounds. Endophytes are microorganisms that reside within the living tissue of host plant and they enhance the survival value of the host plant by mediating various stress tolerance mechanisms. Endophytic fungi have gained attention as potential sources of bioactive secondary metabolites following the discovery of a taxol producing endophytic fungus Taxomyces adrenae, from Taxus brevifolia. Moreover, endophytes occupy a unique biological niche in which they maintain a balanced interaction with the host organism and other co-inhabiting microorganisms. All these factors contribute to the chemical diversity of the metabolites they produce. Plants restricted to extreme or unique habitats or those with ethnobotanical value are likely to lodge endophytes that possess a unique hoard of secondarymetabolites. Saraca asoca is a traditionalmedicinal plant with its occurrence restricted to countries such as India, Sri Lanka, Burma and Malaysia. The purpose of the present study is to explore the endophytic fungal population associated with S. asoca in search of novel anticancer lead structures. S. asoca was found to house a diverse endophytic fungal population belonging to 37 different species. Identification of the fungal isolates was based on ITS (internal transcribed spacer region) sequence analysis as well as colony and spore characteristics. The organic extracts of all fungal species were assessed for their in vitro cytotoxicities in three human cancer cell lines, HeLa, HepG2 and PC3 byMTT assay. 18 species exhibited remarkable cytotoxic activities, among which Pestalotiopsis sp. 6 exhibited themost significant cytotoxicity. The strain with second highest activity was Lasiodiplodia theobromae. In order to identify the active principle present in the organic extracts of Pestalotiopsis sp. 6 and L. theobromae, the organic extracts were chromatographed on TLC plates and individual compounds were recovered by scraping off from the TLC plates and extracting with methanol. The cytotoxicity assay of the TLC purified compounds suggested the cytotoxic activity of Pestalotiopsis sp.6 to be a synergetic effect of two or more compounds whereas the cytotoxicity of L. theobromae organic extract was largely due to a single compound. Hence the active principle present in L. theobromae organic extract was purified by bioassay - guided column chromatography. Repeated chromatography of the crude extract using three silica gel columns resulted in the isolation of anticancer compound. Based on the analysis of ESI-MS, IR, NMR and UV spectral data, the isolated compound was identified as a novel steroidal saponin, cholestan-3-O-¯-Dglucopyranoside (cholestanol glucoside - CG). The in vitro cytotoxic effects of CG towards seven human cancer cell lines, HeLa, HepG2, PC3, U251,MCF 7, OVCAR3 and A549 were examined. Among the cell lines screened, HeLa cells weremost vulnerable to CG treatment, with an IC50 value of 3.2 ¹M. Hence themode of cell death induction in HeLa cells by CG was further investigated. Analysis of cell cycle progression by propidium iodide (PI) staining revealed that CG arrests the cells in S phase of cell cycle prior to the induction of cell death. The morphological and biochemical features of apoptosis were investigated by nuclear staining, DNA fragmentation assay and Annexin V-FITC/ PI dual staining. All these results suggested that CG effectively induced apoptosis in HeLa cells in a concentration dependent manner. It was also found that CG treatment induced remarkable ROS generation and mitochondrial membrane potential loss. The pretreatment of cells with an antioxidant, N-acetyl cysteine (NAC), blocked CG induced ROS generation, mitochondrialmembrane depolarization and apoptotic cell death. Hence it could be concluded that CG kills the cancer cells by augmenting their basal oxidative stress and hence is less likely to be toxic to normal cells. Moreover, a high Bax to Bcl-2 ratio, high levels of Apaf-1 and p53, activation of procaspase-3 and procaspase-9 and cleavage of PARP were observed in CG treated HeLa cells. Taken together, our results suggested that CG induced apoptosis in HeLa cells via ROS mediated mitochondria dependent pathway. Biosynthesis of secondarymetabolites by filamentous fungi is influenced by the availability of nutrient factors. Therefore, it is essential to optimize the culturemedium components to ensure a maximum and consistent yield of desired metabolite by the fungal isolate. We designed a chemically defined production medium for CG production by L. theobromae. Carbon source, nitrogen source and microelements in the production medium were further optimized in stationary flask cultures to improve the mycelial growth and yield of CG by L. theobromae. The conventional one-factor at a time (OFAT)method was employed for the optimization of carbon and nitrogen sourceswhose contribution effects towards the final yield are large. Response surface methodology (RSM) was employed for the optimization of microelements. Optimization of culturemedium enhanced the yield of CG from 10mg L¡1 to 50mg L¡1. Various secondarymetabolites are produced by organisms in response to different stress conditions. This knowledge has been exploited in plant cell culture systems to increase the yield of particular secondary metabolites by artificial implementation of stress conditions. We investigated the effect of oxidative, osmotic and heat shock stresses on the production of CG by L. theobromae. Heat shock and osmotic stresses in liquid cultures were found to enhance the yield of CG by 1.2-fold, relative to the controls. Oxidative stress by both menadione and H2O2 enhanced the yield by 1.8-fold compared to the controls. Thus oxidative stress proved to be an efficient enhancer of CG production by L. theobromae. These findings ensure a large scale, cost-effective production of CG. Endophytic Fungi Saraca Asoca Endophytic Fungus Steroidal Saponin Cholestanol Glucoside HeLa Cells Apoptosis Endophytes Anti Cancer Compounds Bioactive Secondary Metabolites Natural Products Drug Therapy Enodophytic Fuungus Saraca asoca Lasiodiplodia theobromae Cholestanol Glucoside Steroidal Saponin Biochemistry
117	Subcellular Localization and Partial Purification of Prelamin a Endoprotease: An Enzyme Which Catalyzes the Conversion of Farnesylated Prelamin a to Mature Lamin A Kilic, Fusun, Johnson, D A., Sinensky, M. 30 April 1999 (has links) The nuclear lamina protein, lamin A is produced by proteolytic cleavage of a 74 kDa precursor protein, prelamin A. The conversion of this precursor to mature lamin A is mediated by a specific endoprotease, prelamin A endoprotease. Subnuclear fractionation indicates that the prelamin A endoprotease is localized at the nuclear membrane. The enzyme appears to be an integral membrane protein, as it can only be removed from the nuclear envelope with detergent. It is effectively solubilized by the detergent n-octyl-beta-D-glucopyranoside and can be partially-purified (approximately 1200-fold) by size exclusion and cation exchange (Mono S) chromatography. Prelamin A endoprotease from HeLa cells was eluted from Mono S with 0.3 M sodium chloride as a single peak of activity. SDS-PAGE analysis of this prelamin A endoprotease preparation shows that it contains one major polypeptide at 65 kDa and smaller amounts of a second 68 kDa polypeptide. Inhibition of the enzyme activity in this preparation by specific serine protease inhibitors is consistent with the enzyme being a serine protease. acrylic resins detergents electrophoresis polyacrylamide gel glucosides (metabolism) hela cells (enzymology) humans lamin type a lamins nuclear proteins (metabolism) protein precursors (metabolism) protein prenylation subcellular fractions (enzymology) Biological Sciences
118	Discovering, Understanding, and Targeting Lipid Metabolism and Cytoskeleton Structural Changes in Stress-Adaptive Cancer Cells Gil A Gonzalez (19176721) 19 July 2024 (has links) <p dir="ltr">Cancer biological mechanisms are a vastly researched area in the field, yet they are not well understood in the various contexts in which cancer is found. Cancerous tumors often exist in harsh, stressful environments for normal cells, but cancer cells can thrive in these conditions. The tumor microenvironment (TME) typically has low oxygen levels (hypoxia), high acidity, and low nutrition. Exposure to the TME leads to many metabolic changes in the cells, enabling cancer to continue proliferating and migrating. However, these metabolic changes are not well understood, especially at the single-cell level. The ability to monitor cells in real time to determine the physical characteristics they undergo is critical to understanding the impact of these metabolic changes. Conventional methods focus on determining the genomic and proteomic changes in large numbers of cells, which may be overlooked if the changes are homogeneous across samples. In this work, we demonstrate the power of using multiple imaging techniques in combination with biochemical methods to visualize metabolic changes and determine the causes in various cancer cells under extreme hypoxia conditions.</p><p dir="ltr">The changes in the microtubule network that occur under hypoxia at the single-cell level are not widely researched. The use of confocal fluorescence microscopy can determine microtubule polymerization in conjunction with eGFP-transfected EB3, a protein that assists in microtubule polymerization. We have determined that hypoxic HeLa cells produce finger-like protrusions when exposed to hypoxia that help with cell migration and, ultimately, cancer cell metastasis. The formation of these protrusions is facilitated by localized mitochondria activities in the protrusions.</p><p dir="ltr">The metabolic changes in lipid droplets (LDs) under hypoxia at the single-cell level remain an elusive topic. The use of stimulated Raman spectroscopy (SRS) and coherent anti-Stokes Raman scattering (CARS) can determine the quantity and spatial-temporal distribution of LDs in cancer cells. We have found that LDs redistribute to the endoplasmic reticulum (ER) and increase in intensity in hypoxic MIA PaCa-2 and A549 cells. Time-lapse CARS microscopy revealed a release-accumulate process of these LDs on ER in hypoxia. We also studied the impact of carbon sources on LD formation and found that MIA PaCa2 cells prefer direct lipid uptake while glucose is also essential to reduce lipotoxicity. The use of hyperspectral stimulated Raman scattering (hSRS) also reveals that the content of the LDs changes to include less cholesteryl ester and a decrease in lipid saturation level.</p><p dir="ltr">Collectively, these findings shed new light on the understanding of cytoskeleton dynamics and lipid metabolism in hypoxic conditions. The discoveries made within this research would lead to better treatment strategies for effective treatment of hypoxia-resistant cancer cells.</p> SRS imaging system confocal microscope lasers lipid metabolism disturbance hypoxia cell imaging cytoskeletal microtubule dynamics Mia PaCa -2 pancreatic cancer cell lines HeLa cell culture system EB3-GFP tumor microenvironment cancer cell culture system
119	Veränderungen in der Genexpression fremdstoffmetabolisierender Enzyme und Bedeutung genetischer Polymorphismen unter besonderer Berücksichtigung von HIV-Virustatika Gashaw, Isabella 20 October 2003 (has links) Die Therapie der HIV Infektion besteht aus Kombination mehrerer antiretroviraler Substanzen und birgt ein erhöhtes Risiko an Arzneimittelwechselwirkungen. Das bekannte Problem der Virusresistenz kann zudem durch Enzyminduktion begünstigt werden. Das Ziel der vorliegenden Arbeit lag in Untersuchungen zu Einflüssen der Virustatika auf die Expression von Cytochrom P450 Enzymen: 1A1, 1B1, 3A4 sowie der P-Glykoproteins (MDR1) an immortalisierten Zellsystemen. Die Protease Inhibitoren Indinavir, Nelfinavir, Ritonavir und Saquinavir induzierten die Regulation der mRNA Expression über den Aryl-Kohlenwasserstoff-Rezeptor (AhR) und den Pregnan-X-Rezeptor (PXR) dosisabhängig und signifikant. Die Nukleosidischen Reverse Transkriptase Inhibitoren Zalcitabin, Zidovudin und Lamivudin sowie der Nicht-Nukleosidische Inhibitor Nevirapin zeigten induktive Eigenschaften nur für die AhR Zielgene CYP1A1 und CYP1B1. Amprenavir und Efavirenz aktivierten die PXR-Regulation. Die möglichen Auswirkungen der Induktion der untersuchten Gene wurden ausführlich diskutiert. Die molekularen Grundlagen der interindividuell variierenden Aktivität von CYP3A wurden in einer Probandenstudie untersucht. Es wurden die mRNA Expression in den Leukozyten, die Aktivität des Enzyms und einige bekannte Polymorphismen unter Einwirkung von Rifampicin untersucht und diskutiert. / The therapy of HIV infection requires a combination of several antiretroviral substances accompanying risk factors for drug-drug interactions. Moreover, virus resistance can be promoted by enzyme induction caused by antiretroviral drugs. The aim of the study was to investigate the influences of antiretroviral substances on the expression of cytochrome P450 enzymes: 1A1, 1B1, 3A4 and p-glycoprotein (MDR1) using immortalized cell systems. The protease inhibitors indinavir, nelfinavir, ritonavir and saquinavir induced significantly the regulation of mRNA expression through the aryl hydrocarbon receptor (AhR) and the pregnane-x-receptor (PXR) in a concentration-dependent manner. The nucleoside reverse transcriptase inhibitors zalcitabine, zidovudine and lamivudine and the non-nucleoside reverse transcriptase inhibitor nevirapine showed inductive properties only for the AhR target genes CYP1A1 and CYP1B1.Amprenavir and efavirenz activated the PXR target genes. Potentially effects of the described induction are discussed. In a second part of the work, the molecular mechanisms of the individual varying activity of the CYP3A enzyme were investigated applying an in vivo study. CYP3A4 mRNA expression and rifampicin mediated induction in leucocytes were correlated with systemic enzyme activity under induction and known polymorphisms. Cytochrom P450 MDR1 HIV CYP1A1 CYP1B1 CYP3A4 P-Glykoprotein Antiretrovirale Therapie HEPG2 COLO-320 HELA Alprazolam Protease Inhibitoren RT-PCR cytochrome P450 MDR1 HIV CYP1A1 CYP1B1 CYP3A4 P-Glycoprotein antiretroviral therapy HEPG2 COLO-320 HELA alprazolam protease inhibitors RT-PCR 570 Biowissenschaften, Biologie 32 Biologie VS 8750 WG 4050 XD 8000 ddc:570
120	Genotoxicity and cytotoxicity of zinc oxide and titanium dioxide in HEp-2 cells Osman, I. F., Baumgartner, A., Cemeli, E., Fletcher, J. N., Anderson, D. January 2010 (has links) AIMS: The rapidly growing industrial and medical use of nanomaterials, especially zinc oxide and titanium dioxide, has led to growing concerns about their toxicity. Accordingly, the intrinsic genotoxic and cytotoxic potential of these nanoparticles have been evaluated. MATERIALS & METHODS: Using a HEp-2 cell line, cytotoxicity was tested along with mitochondrial activity and neutral red uptake assays. The genotoxic potential was determined using the Comet and the cytokinesis-blocked micronucleus assays. In addition, tyrosine phosphorylation events were investigated. RESULTS & CONCLUSION: We found concentration- and time-dependent cytotoxicity and an increase in DNA and cytogenetic damage with increasing nanoparticle concentrations. Mainly for zinc oxide, genotoxicity was clearly associated with an increase in tyrosine phosphorylation. Our results suggest that both types of nanoparticles can be genotoxic over a range of concentrations without being cytotoxic. Cell Survival/drug effects Comet Assay DNA Damage DNA, Neoplasm/drug effects Female HeLa Cells/drug effects/pathology Humans Lysosomes/drug effects/metabolism Nanoparticles/toxicity Phosphotyrosine/metabolism Photosensitizing Agents/toxicity Titanium/toxicity Uterine Cervical Neoplasms/pathology Zinc Oxide/*toxicity REF 2014

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