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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
31

Modulating the p53 response to DNA damage by applying different perturbations types

Cristiano, Elena 01 November 2016 (has links)
Der Tumorsuppressor p53 spielt eine wichtige Rolle bei der Aufrechterhaltung der zellulären Homöostase und verhindert die Bildung und Entwicklung von Krebs. Frühere Studien auf Einzelzellebene haben gezeigt, der p53 nach dem Auftreten von DNS Schäden in einer Serie gleichförmiger Pulse im Kern akkumuliert. Um den Einfluss von Temperatur, dem Zustand des NFκB Weges oder dem Vorhandensein von Wachstumsfaktoren auf die p53 Dynamiken nach DNS-Schäden zu untersuchen, wurden in dieser Arbeit A549 und MCF10A p53 Reporter-Zelllinien verwendet. Um Daten mit hoher zeitlicher und räumlicher Auflösung auf Einzelzellebene zu erhalten, wurde Zeitraffer-Fluoreszenzmikroskopie verwendet. Überraschenderweise zeigten A549 Zellen, die mit γ-Strahlung behandelt wurden, eine höhere p53 Akkumulation und ein verlängertes Zeitintervall zwischen den p53 Pulsen, wenn sie bei 30°C inkubiert wurden im Vergleich zu Zellen unter physiologischen Bedingungen. Hingegen zeigten Zellen bei 40°C eine höhere p53 Pulsfrequenz. Außerdem wurde die p53 Zielgen-Expression durch die Änderungen in der Dynamik beeinflusst. In den beiden Zelllinien, A549 und MCF10A, wurde die p53 Dynamik durch Inhibierung des NFκB Signalweges verändert, nicht aber durch dessen Aktivierung mittels TNF. So verlängert die Inhibierung des NFkB Signalweges das Zeitintervall zwischen p53 Pulsen, was sich auch in der Expression von p53 Zielgenen wiederspiegelt. Weiterhin konnte in MCF10A Zellen durch Experimente mit verschiedenen Medien-Bedingungen gezeigt werden, dass p53 Dynamiken vor allem durch die Anwesenheit von EGF und Hydrocortison geprägt werden. So führt EGF zu einem pulsierenden p53 Verhalten, während Hydrocortison alleine die p53 Antwort vollständig aufhebt.. Diese Studie macht deutlich, wie wichtig es ist, das Verhältnis von zellulärem Zustand und p53 Antwort systematisch zu untersuchen, um Krebstherapien wirksamer zu machen / The tumor suppressor p53 plays important roles in maintaining cellular homeostasis and in preventing the formation and development of cancer. Previous studies on p53 activation after DNA damage have reported that it shows a series of regular discrete pulses of protein accumulation over time at the single cell level. In this work A549 and MCF10A p53 reporters cell line were used to investigate how p53 dynamics after DNA damage were affected by changes in temperature, by changes in the state of the NFκB pathway and changes in the provided growth factors. Time-lapse florescent microscopy was used to obtain single cell data with high temporal and special resolution at the single cell level. Surprisingly A549 cells treated with γ-irradiation showed higher level of p53 accumulation and increased time between p53 pulses when imaged at 30°C than cells imaged under physiological conditions. Cells imaged at 40°C showed instead higher p53 pulse frequency. P53 target gene expression was also affected by these changes in dynamics. In both A549 and MCF10A cells, p53 dynamics were changed by NFκB pathways inhibition but not activation via TNFα. Upon inhibition of the NFκB pathway the timing between p53 pulses was increased leading to changes also in p53 target genes expression. In MCF10A cells experiments done under different medium conditions proved that p53 dynamic in this cell line was shaped mainly by the presence of EGF and hydrocortisone that are usual components of the media. EGF leads to a more pulsatile p53 behavior while hydrocortisone completely abrogates the p53 response. These discoveries pointed out the need to study more systematically the relationship between the p53 response to a given stress and the cellular state in order to make cancer therapies more effective.
32

A Systems Biology Approach to Develop Models of Signal Transduction Pathways

Huang, Zuyi 2010 August 1900 (has links)
Mathematical models of signal transduction pathways are characterized by a large number of proteins and uncertain parameters, yet only a limited amount of quantitative data is available. The dissertation addresses this problem using two different approaches: the first approach deals with a model simplification procedure for signaling pathways that reduces the model size but retains the physical interpretation of the remaining states, while the second approach deals with creating rich data sets by computing transcription factor profiles from fluorescent images of green-fluorescent-protein (GFP) reporter cells. For the first approach a model simplification procedure for signaling pathway models is presented. The technique makes use of sensitivity and observability analysis to select the retained proteins for the simplified model. The presented technique is applied to an IL-6 signaling pathway model. It is found that the model size can be significantly reduced and the simplified model is able to adequately predict the dynamics of key proteins of the signaling pathway. An approach for quantitatively determining transcription factor profiles from GFP reporter data is developed as the second major contribution of this work. The procedure analyzes fluorescent images to determine fluorescence intensity profiles using principal component analysis and K-means clustering, and then computes the transcription factor concentration from the fluorescence intensity profiles by solving an inverse problem involving a model describing transcription, translation, and activation of green fluorescent proteins. Activation profiles of the transcription factors NF-κB, nuclear STAT3, and C/EBPβ are obtained using the presented approach. The data for NF-κB is used to develop a model for TNF-α signal transduction while the data for nuclear STAT3 and C/EBPβ is used to verify the simplified IL-6 model. Finally, an approach is developed to compute the distribution of transcription factor profiles among a population of cells. This approach consists of an algorithm for identifying individual fluorescent cells from fluorescent images, and an algorithm to compute the distribution of transcription factor profiles from the fluorescence intensity distribution by solving an inverse problem. The technique is applied to experimental data to derive the distribution of NF-κB concentrations from fluorescent images of a NF-κB GFP reporter system.
33

The Impact of ROS Scavenging on NMDA and AMPA Receptor Whole Cell Currents in Pyramidal Neurons of the Anoxia Tolerant Western Painted Turtle

Dukoff, David 22 November 2013 (has links)
Extended periods of oxygen deprivation cause brain death in mammals but the western painted turtle overwinters in anoxic mud for months without damage. Neural protection is achieved through decreases in the whole cell currents of N-methyl-D-aspartate and alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptors (NMDAR and AMPAR) that are dependent on a mild increase in intracellular calcium from the mitochondria. The goal of this research was to determine if natural anoxic decreases in reactive oxidative species (ROS) serve as the signal to bring about these changes. Reductions in cellular ROS levels were demonstrated to have no effect on AMPAR currents or intracellular calcium and produced massive increases in NMDAR currents, indicating that ROS depression does not directly mediate anoxic alterations. Interestingly, mammalian neural tissue also experiences a similar increase in NMDAR whole cell current in response to reducing agents suggesting a possible conserved mechanism for normoxic receptor control.
34

L’apolipoprotéine A-I interagit avec l’adhésine impliquée dans l’adhérence diffuse (AIDA-I) d’Escherichia coli : rôle lors du processus d’adhésion et d’invasion

René, Mélissa 05 1900 (has links)
L’adhésine impliquée dans l’adhérence diffuse (AIDA-I) est une adhésine bactérienne présente chez certaines souches d’Escherichia coli qui, associée aux toxines Stx2e ou STb, contribue à l’apparition de la maladie de l’œdème ou de la diarrhée post-sevrage chez les porcelets. AIDA-I est un autotransporteur qui confère des capacités d’autoaggrégation, de formation de biofilms et d’adhésion. L’objectif principal du projet de recherche consistait en la recherche de récepteur(s) potentiel(s) d’AIDA-I. Les bactéries pathogènes adhèrent aux cellules-cibles soit en liant directement des molécules à la surface cellulaire ou en utilisant des molécules intermédiaires qui permettent de diminuer la distance séparant la bactérie de la cellule-cible. Puisque le sérum est un fluide qui contient de nombreuses molécules, celui-ci a été utilisé comme matériel de départ pour l’isolement de récepteur(s) potentiels. Nous avons isolé un récepteur potentiel à partir du sérum porcin : l’apolipoprotéine A-I. L’interaction entre l’apolipoprotéine A-I et AIDA-I a été confirmée par ELISA et microscopie à fluorescence. La capacité à envahir les cellules épithéliales offre aux pathogènes la possibilité d’établir une niche intracellulaire qui les protègent contre les attaques du milieu extérieur. La présente étude a démontré que la présence d’AIDA-I en tant que seul facteur de virulence chez une souche de laboratoire permet de conférer la capacité d’envahir les cellules sans promouvoir la survie intracellulaire. L’étude de la souche sauvage 2787, exprimant AIDA-I en association avec d’autres facteurs de virulence, a démontré une différence significative pour les phénotypes d’invasion et de survie intracellulaire face à la souche de laboratoire exprimant AIDA-I. / The adhesin involved in diffuse adherence (AIDA-I) is a bacterial adhesin associated with some Escherichia coli strains that might, when associated with toxin Stx2e or STb, contribute to the development of edema disease or post-weaning diarrhea in piglets. AIDA-I is an autotransporter that mediates various phenotypes such as adhesion, autoaggregation and biofilm formation. The main aim of our project was to find potential receptor(s) for AIDA-I. Pathogens can either bind cell directly by targeting exposed cell surface molecules or use an intermediate molecule as a bridge to lessen the space separating them from their target cell. Serum is known to contain a wide range of molecules so it has been used as raw material for the isolation of a putative receptor for AIDA-I. We isolated a putative receptor for AIDA-I: the apolipoprotein A-I. The interaction between the apolipoprotein A-I and AIDA-I was confirmed by ELISA and fluorescent microscopy. The capacity to invade epithelial cell enables pathogens to create an intracellular niche that protects them against attacks from the extracellular environment. The present report has shown that the presence of AIDA-I as the sole virulence factor in a laboratory strain, enable bacteria to invade cultured cells but does not promote intracellular survival. Studies conducted on wild-type strain 2787, which express AIDA-I in association with other virulence factors, has shown a significant difference in invasion and intracellular survival phenotypes compared to the laboratory strain expressing AIDA-I.
35

The Impact of ROS Scavenging on NMDA and AMPA Receptor Whole Cell Currents in Pyramidal Neurons of the Anoxia Tolerant Western Painted Turtle

Dukoff, David 22 November 2013 (has links)
Extended periods of oxygen deprivation cause brain death in mammals but the western painted turtle overwinters in anoxic mud for months without damage. Neural protection is achieved through decreases in the whole cell currents of N-methyl-D-aspartate and alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptors (NMDAR and AMPAR) that are dependent on a mild increase in intracellular calcium from the mitochondria. The goal of this research was to determine if natural anoxic decreases in reactive oxidative species (ROS) serve as the signal to bring about these changes. Reductions in cellular ROS levels were demonstrated to have no effect on AMPAR currents or intracellular calcium and produced massive increases in NMDAR currents, indicating that ROS depression does not directly mediate anoxic alterations. Interestingly, mammalian neural tissue also experiences a similar increase in NMDAR whole cell current in response to reducing agents suggesting a possible conserved mechanism for normoxic receptor control.
36

Identificação da ligação direta de uma Fosfolipase D de Loxosceles gaucho às plaquetas. / Identification of direct binding of a Phospholipase D from Loxosceles gaucho to platelets.

Daniel Akio Fukuda 10 August 2017 (has links)
Fosfolipases D (FLD) do veneno das aranhas do gênero Loxosceles são capazes de causar entre outros efeitos, uma forte agregação plaquetária cujo mecanismo ainda não foi elucidado. Portanto, para estudar o papel das FLDs nesta atividade, uma FLD recombinante de L. gaucho (LgRec1) foi fusionada com a proteína fluorescente verde (EGFP) e utilizada como uma sonda para detectar a interação de LgRec1 com plaquetas. Essa quimera, denominada EGFP-LgRec1, manteve as principais características da LgRec1. A microscopia confocal das plaquetas mostrou que LgRec1 não requer componentes plasmáticos para se ligar às plaquetas, embora estes sejam necessários para que a LgRec1 induza agregação. Além disso, foi observado que a ação da LgRec1 leva à exposição de fosfatidilserina. Contudo, esta exposição não está relacionada à morte celular. Portanto, este trabalho mostrou que uma FLD de Loxosceles se liga a plaquetas, promovendo a exposição de fosfatidilserina, possibilitando a ligação de fatores de coagulação e resultando na agregação plaquetária. / Phospholipases D (PLD) from spider venom of the genus Loxosceles are capable of causing, among other effects, a strong aggregation of platelets and its mechanism has not yet been elucidated. Therefore, to study the role of PLDs in this activity, a recombinant L. gaucho PLD (LgRec1) was fused with a green fluorescent protein (EGFP) and used as a probe to detect the interaction of LgRec1 with platelets. This chimera, named EGFP-LgRec1, remained the main activities of LgRec1. Platelet confocal microscopy has shown that LgRec1 does not require plasma components to bind to platelets, although these are required for LgRec1 to induce aggregation. In addition, it has been observed that the action of LgRec1 leads to exposures of phosphatidylserine. However, this exposure is not related to cell death. Therefore, this work showed that a Loxosceles PLD binds to platelets, promoting an exposure of phosphatidylserine, that may act as a scaffold for coagulation factors, resulting in platelet aggregation.
37

Polarity and Endocytic Traffic in the Mammalian Cell

Bugyei, Francis Kyei 02 July 2014 (has links)
No description available.
38

Hydrodynamic delivery for the study, treatment and prevention of acute kidney injury

Corridon, Peter R. 07 July 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Advancements in human genomics have simultaneously enhanced our basic understanding of the human body and ability to combat debilitating diseases. Historically, research has shown that there have been many hindrances to realizing this medicinal revolution. One hindrance, with particular regard to the kidney, has been our inability to effectively and routinely delivery genes to various loci, without inducing significant injury. However, we have recently developed a method using hydrodynamic fluid delivery that has shown substantial promise in addressing aforesaid issues. We optimized our approach and designed a method that utilizes retrograde renal vein injections to facilitate widespread and persistent plasmid and adenoviral based transgene expression in rat kidneys. Exogenous gene expression extended throughout the cortex and medulla, lasting over 1 month within comparable expression profiles, in various renal cell types without considerably impacting normal organ function. As a proof of its utility we by attempted to prevent ischemic acute kidney injury (AKI), which is a leading cause of morbidity and mortality across among global populations, by altering the mitochondrial proteome. Specifically, our hydrodynamic delivery process facilitated an upregulated expression of mitochondrial enzymes that have been suggested to provide mediation from renal ischemic injury. Remarkably, this protein upregulation significantly enhanced mitochondrial membrane potential activity, comparable to that observed from ischemic preconditioning, and provided protection against moderate ischemia-reperfusion injury, based on serum creatinine and histology analyses. Strikingly, we also determined that hydrodynamic delivery of isotonic fluid alone, given as long as 24 hours after AKI is induced, is similarly capable of blunting the extent of injury. Altogether, these results indicate the development of novel and exciting platform for the future study and management of renal injury.

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