4 resultados para Genetically modified organisms

em ArchiMeD - Elektronische Publikationen der Universität Mainz - Alemanha


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The research has included the efforts in designing, assembling and structurally and functionally characterizing supramolecular biofunctional architectures for optical biosensing applications. In the first part of the study, a class of interfaces based on the biotin-NeutrAvidin binding matrix for the quantitative control of enzyme surface coverage and activity was developed. Genetically modified ß-lactamase was chosen as a model enzyme and attached to five different types of NeutrAvidin-functionalized chip surfaces through a biotinylated spacer. All matrices are suitable for achieving a controlled enzyme surface density. Data obtained by SPR are in excellent agreement with those derived from optical waveguide measurements. Among the various protein-binding strategies investigated in this study, it was found that stiffness and order between alkanethiol-based SAMs and PEGylated surfaces are very important. Matrix D based on a Nb2O5 coating showed a satisfactory regeneration possibility. The surface-immobilized enzymes were found to be stable and sufficiently active enough for a catalytic activity assay. Many factors, such as the steric crowding effect of surface-attached enzymes, the electrostatic interaction between the negatively charged substrate (Nitrocefin) and the polycationic PLL-g-PEG/PEG-Biotin polymer, mass transport effect, and enzyme orientation, are shown to influence the kinetic parameters of catalytic analysis. Furthermore, a home-built Surface Plasmon Resonance Spectrometer of SPR and a commercial miniature Fiber Optic Absorbance Spectrometer (FOAS), served as a combination set-up for affinity and catalytic biosensor, respectively. The parallel measurements offer the opportunity of on-line activity detection of surface attached enzymes. The immobilized enzyme does not have to be in contact with the catalytic biosensor. The SPR chip can easily be cleaned and used for recycling. Additionally, with regard to the application of FOAS, the integrated SPR technique allows for the quantitative control of the surface density of the enzyme, which is highly relevant for the enzymatic activity. Finally, the miniaturized portable FOAS devices can easily be combined as an add-on device with many other in situ interfacial detection techniques, such as optical waveguide lightmode spectroscopy (OWLS), the quartz crystal microbalance (QCM) measurements, or impedance spectroscopy (IS). Surface plasmon field-enhanced fluorescence spectroscopy (SPFS) allows for an absolute determination of intrinsic rate constants describing the true parameters that control interfacial hybridization. Thus it also allows for a study of the difference of the surface coupling influences between OMCVD gold particles and planar metal films presented in the second part. The multilayer growth process was found to proceed similarly to the way it occurs on planar metal substrates. In contrast to planar bulk metal surfaces, metal colloids exhibit a narrow UV-vis absorption band. This absorption band is observed if the incident photon frequency is resonant with the collective oscillation of the conduction electrons and is known as the localized surface plasmon resonance (LSPR). LSPR excitation results in extremely large molar extinction coefficients, which are due to a combination of both absorption and scattering. When considering metal-enhanced fluorescence we expect the absorption to cause quenching and the scattering to cause enhancement. Our further study will focus on the developing of a detection platform with larger gold particles, which will display a dominant scattering component and enhance the fluorescence signal. Furthermore, the results of sequence-specific detection of DNA hybridization based on OMCVD gold particles provide an excellent application potential for this kind of cheap, simple, and mild preparation protocol applied in this gold fabrication method. In the final chapter, SPFS was used for the in-depth characterizations of the conformational changes of commercial carboxymethyl dextran (CMD) substrate induced by pH and ionic strength variations were studied using surface plasmon resonance spectroscopy. The pH response of CMD is due to the changes in the electrostatics of the system between its protonated and deprotonated forms, while the ionic strength response is attributed from the charge screening effect of the cations that shield the charge of the carboxyl groups and prevent an efficient electrostatic repulsion. Additional studies were performed using SPFS with the aim of fluorophore labeling the carboxymethyl groups. CMD matrices showed typical pH and ionic strength responses, such as high pH and low ionic strength swelling. Furthermore, the effects of the surface charge and the crosslink density of the CMD matrix on the extent of stimuli responses were investigated. The swelling/collapse ratio decreased with decreasing surface concentration of the carboxyl groups and increasing crosslink density. The study of the CMD responses to external and internal variables will provide valuable background information for practical applications.

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ABSTARCT Biotechnology has enabled the modification of agricultural materials in a very precise way. Crops have been modified through the insertion of new traits or the inhibition of existing gene functions, named Genetically Modified Organism (GMO), and resulted in improved tolerance of herbicide and/or increased resistance against pests, viruses and fungi. Commercial cultivation of GMO started in 1996 and increased rapidly in 2003 according to a recently released report by the International Service for the Acquisition of Agri-Biotech Applications (ISAAA), depicted continuing consumer resistance in Europe and other part of the world. Upon these developments, the European Union regulations mandated labeling of GMOs containing food and as a consequence, the labeling of GMO containing product in the case of exceeding the1% threshold of alien DNA is required. The aim of the study is to be able to detect and quantify the GMO from the mixture of natural food components. The surface plasmon resonance (SPR) technique combined with fluorescence was used for this purpose. During the presented studies, two key issues are addressed and tried to solve; what is the best strategy to design and built an interfacial architecture of a probe oligonucletide layer either on a two dimensional surface or on an array platform; and what is the best detection method allowing for a sensitive monitoring of the hybridisation events. The study includes two parts: first part includes characterization of different PNAs on a 2D planar surface by defining affinity constants using the very well established optical method “Surface Plasmon Fluorescence Spectroscopy”(SPFS) and on the array platform by “Surface Plasmon Fluorescence Microscopy” (SPFM), and at the end comparison of the sensitivity of these two techniques. The second part is composed of detection of alien DNA in food components by using DNA and PNA catcher probes on the array platform in real-time by SPFM.

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In den letzten Jahren gewann die Erforschung des Sphingolipidstoffwechsels in den verschiedensten Zellsystemen immer mehr an Bedeutung, da es sich zeigte, dass einige Sphingolipidspezies, vor allem Ceramid und Sphingosin-1-Phosphat, als wichtige intra- und extrazelluläre Botenstoffe wirken und bei einer Vielzahl unterschiedlicher zellulärer Antworten, wie Apoptose, Proliferation und Migration, eine wichtige Rolle spielen. Während Ceramid eher pro-apoptotisch und wachstumshemmend wirkt, begünstigt Sphingosin-1-Phosphat als „Gegenspieler“ eher die Proliferation und das Zellwachstum. Ceramid kann relativ schnell in Sphingosin-1-Phosphat umgewandelt werden durch die Wirkung zweier Enzymklassen, den Ceramidasen und den Sphingosinkinasen. Konsequenterweise ist die Regulation dieser Enzyme von entscheidender Bedeutung für das zelluläre Gleichgewicht zwischen Ceramid und Sphingosin-1-Phosphat. Im Rahmen dieser Dissertation wurde die Wirkung von extrazellulären Nukleotiden, die ebenfalls als Regulatoren zahlreicher zellulärer Antworten, wie z.B. Proliferation und Migration, bekannt sind und über entsprechende Oberflächenrezeptoren, die Purinrezeptoren, wirken, auf die Aktivität besonders der Sphingosinkinasen 1 und 2 näher untersucht. Es sollte geklärt werden, ob die Sphingosinkinasen an einigen durch extrazelluläre Nukleotide induzierbaren zellulären Antworten, in diesem Falle der Migration und der Proliferation von Zellen, beteiligt sind. Als Zellsystem wurden Nierenmesangiumzellen verwendet, da diese Zellen bei verschiedenen entzündlichen Nierenerkrankungen (Glomerulonephritiden) eine wichtige Rolle spielen. Es konnte in dieser Arbeit gezeigt werden, dass extrazelluläre Nukleotide die Aktivität der Sphingosinkinase 1 in den Mesangiumzellen stimulieren können. Zu beobachten ist dabei eine biphasische Aktivitätssteigerung der Sphingosinkinase 1. Die erste Aktivitätssteigerung nach einer Kurzzeitstimulation ist dabei auf eine Phosphorylierung des Enzyms zurückzuführen, während die zweite Aktivitätssteigerung mit einer Aktivierung des Sphingosinkinase 1-Promotors, einer verstärkten mRNA-Expression und einer de novo Proteinsynthese zu erklären ist. Diese Induktion kann durch die Verwendung von Hemmstoffen des PKC- und MAPK-Signalweges, sowie durch Verwendung eines Transkriptions- (Actinomycin D) oder eines Translationsinhibitors (Cycloheximid) blockiert werden. Die Halbwertszeit der mRNA der Sphingosinkinase 1 in den Mesangiumzellen konnte auf ca. 20 Minuten bestimmt werden. Im Gegensatz dazu ist die Sphingosinkinase 2 nicht durch ATP aktivierbar, wohl aber durch diverse Abbauprodukte von ATP, wie AMP und Adenosin, sowie durch UTP und seine Abbauprodukten UDP und UMP. Die neutrale Ceramidase kann nicht durch ATP und UTP aktiviert werden, wohl aber durch P2X7-Rezeptoragonisten (Bz-ATP, αβ-Me-ATP, γS-ATP) und TPA. In einem zweiten Schritt wurde die Rolle der Sphingosinkinasen und der neutralen Ceramidase bei der durch extrazelluläre Nukleotide induzierten Migration und Proliferation untersucht. Es zeigte sich mit Hilfe von genspezifischer siRNA zur Depletion der Sphingosinkinasen und der neutralen Ceramidase, sowie durch Verwendung von Kinase-Hemmstoffen und damit einhergehend der Inhibierung der Signalwege und mit Hilfe von verschiedenen Zelllinien isoliert aus Wildtyp-, SPHK 1-überexprimierenden und mSPHK1-defizienten Mäusen, dass die Aktivierung der Sphingosinkinase 1 durch extrazelluläre Nukleotide von entscheidender Bedeutung für die Migrationsfähigkeit der Zellen ist, jedoch keinen signifikanten Einfluss auf die Proliferationsrate der Mesangiumzellen hat. Auch die Aktivität der neutralen Ceramidase ist von entscheidender Bedeutung für die Migrationsfähigkeit der Zellen. Durch Depletion der neutralen Ceramidase scheint Ceramid in den Zellen zu akkumulieren, was die Proliferationsrate reduziert. Für die Proliferation der Mesangiumzellen könnte die Sphingosinkinase 2 als negativer Regulator fungieren, wie die Experimente mit der genspezifischen siRNA unter UTP-Stimulation gezeigt haben. Für die Migration der Mesangiumzellen gilt darüber hinaus, dass auch das Produkt der Sphingosinkinase 1, Sphingosin-1-Phosphat, in der Lage ist, die Migration zu stimulieren. Im Gegensatz dazu spielt Sphingosin-1-Phosphat für die Induktion der Proliferation der hier verwendeten Zellen keine wesentliche Rolle. Zusammenfassend zeigen die Daten, dass die Sphingosinkinase 1 und vorgeschaltet auch die neutrale Ceramidase bei der Migration von Mesangiumzellen eine zentrale Rolle spielen und damit als therapeutische Angriffspunkte bei der Behandlung von Krankheiten, die durch eine vermehrte Migration gekennzeichnet sind, in Frage kommen.

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Immunotherapy with T cells genetically modified by retroviral transfer of tumor-associated antigen (TAA)-specific T cell receptors (TCR) is a promising approach in targeting cancer. Therefore, using a universal TAA to target different tumor entities by only one therapeutic approach was the main criteria for our TAA-specific TCR. Here, an optimized (opt) αβ-chain p53(264-272)-specific and an opt single chain (sc) p53(264-272)-specific TCR were designed, to reduce mispairing reactions of endogenous and introduced TCR α and TCR β-chains, which might lead to off-target autoimmune reactions, similar to Graft-versus-host disease (GvHD). rnIn this study we evaluated the safety issues, which rise by the risk of p53TCR gene transfer-associated on/off-target toxicities as well as the anti-tumor response in vivo in a syngeneic HLA-A*0201 transgenic mouse model. We could successfully demonstrate that opt sc p53-specific TCR-redirected T cells prevent TCR mispairing-mediated lethal off-target autoimmunity in contrast to the parental opt αβ-chain p53-specific TCR. Since the sc p53-specific TCR proofed to be safe, all further studies were performed using sc p53-specific TCR redirected T cells only. Infusion of p53-specific TCR-redirected T cells in Human p53 knock-in (Hupki) mice after lymphodepletion-preconditioning regimen with either sublethal body irradiation (5Gy) or chemotherapy (fludarabine and cyclophosphamide) in combination with vaccination (anti-CD40, CpG1668 and p53(257-282) peptide) did not result in a depletion of hematopoietic cells. Moreover, adoptive transfer of high numbers of p53-specific TCR-redirected T cells in combination with Interleukin 2 (IL-2) also did not lead to toxic on-target reactions. The absence of host tissue damage was confirmed by histology and flow cytometry analysis. Furthermore, p53-specific TCR-redirected T cells were able to lyse p53+A2.1+ tumor cells in vitro. However, in vivo studies revealed the potent suppressive effect of the tumor microenvironment (TME) mediated by tumor-infiltrating myeloid-derived suppressor cells (MDSC). Accordingly, we could improve an insufficient anti-tumor response in vivo after injection of the sc p53-specific TCR-redirected T cells by additional depletion of immunosuppressive cells of the myeloid lineage.rnTogether, these data suggest that the optimized sc p53(264-272)-specific TCR may represent a safe and efficient approach for TCR-based gene therapy. However, combinations of immunotherapeutic strategies are needed to enhance the efficacy of adoptive cell therapy (ACT)-mediated anti-tumor responses.