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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.
141

Generierung und Evaluation von modifizierten NK-Zellen mit SDF-1alpha-Chemotaxis und Reaktivität gegen EGFRvIII-positive Gliomzellen

Müller, Nadja 16 July 2014 (has links)
Die vorliegende Arbeit beinhaltet die Generierung und Evaluation von Natürlichen Killerzellen, die EGFRvIII-positive und SDF-1alpha sekretierende primäre Glioblastomzellen aufspüren, erkennen und effizient abtöten können. Die Kombination der gelenkten Zytotoxizität mit einer optimierten Migration von Effektorzellen des Immunsystems wird auf Grundlage der in dieser Arbeit gewonnenen Daten als ein vielversprechender Ansatz für eine zukünftige Therapie des primären Glioblastoms vorgeschlagen.
142

CD8+ T Cell and NK Responses to a Novel Dengue Epitope: A Possible Role for KIR3DL1 in Dengue Pathogenesis: A Dissertation

Townsley, Elizabeth 03 April 2014 (has links)
Variation in the sequence of T cell epitopes between dengue virus (DENV) serotypes is believed to alter memory T cell responses during second heterologous infections contributing to pathology following DENV infection. We identified a highly conserved, novel, HLA-B57-restricted epitope on the DENV NS1 protein, NS126-34. We predicted higher frequencies of NS126-34-specific CD8+ T cells in PBMC from individuals undergoing secondary, rather than primary, DENV infection due to the expansion of memory CD8+T cells. We generated a tetramer against this epitope (B57-NS126-34TET) and used it to assess the frequencies and phenotype of antigen-specific T cells in samples from a clinical cohort of children with acute DENV infection established in Bangkok, Thailand. High tetramer-positive T cell frequencies during acute infection were seen in only 1 of 9 subjects with secondary infection. B57-NS126-34-specific, other DENV epitope-specific CD8+ T cells, as well as total CD8+ T cells, expressed an activated phenotype (CD69+ and/or CD38+) during acute infection. In contrast, expression of CD71 was largely limited to DENV-specific CD8+ T cells. In vitro stimulation of CD8+ T cell lines, generated against three different DENV epitopes, indicated that CD71 expression was differentially sensitive to stimulation by homologous and heterologous variant peptides with substantial upregulation of CD71 detected to peptides which also elicited strong functional responses. CD71 may therefore represent a useful marker of antigenspecific T cell activation. During the course of our analysis we found substantial binding of B57-NS126-34 TET to CD8- cells. We demonstrated that the B57-NS126-34 TET bound KIR3DL1, an inhibitory receptor on natural killer (NK) cells. NK sensitive target cells presenting the NS126-34 peptide in the context of HLA-B57 were able to dampen functional responses of only KIR3DL1+ NK cells. Analysis of the activation of an NK enriched population in our Thai cohort revealed peak activation during the critical time phase in patients with severe dengue illness, dengue hemorrhagic fever, compared to people with mild illness. Our data identified CD71 as biologically useful marker to study DENV-specific CD8+ T cell responses and highlighted the role of viral peptides in modulating NK cell activation through KIR-MHC class I interactions during DENV infection.
143

Role of Innate Immunity Activators in the Treatment of Acute Myeloid Leukemia

Buteyn, Nathaniel J. January 2019 (has links)
No description available.
144

Développement de modèles précliniques de sphéroïdes de neuroblastome en co-culture avec des cellules NK

Mardhy, Mohamed Walid 08 1900 (has links)
Le neuroblastome pédiatrique à haut risque est incurable malgré l’intensification des traitements. Chez le patient, les cellules de neuroblastome échappent à l’activité anticancéreuse des cellules immunitaires Natural Killer (NK). Or, lorsque cultivées in vitro en monocouche (2D), les cellules de neuroblastomes redeviennent sensibles à l’activité cytotoxique des cellules NK ce qui ne reflètent pas leur résistance dans les tumeurs in situ. Nous faisons l'hypothèse que lorsque cultivées en 3D sous forme de sphéroïdes, les cellules de neuroblastome pourraient retrouver certaines caractéristiques qui les rendraient plus représentatives des tumeurs in situ au niveau immunologique. Ainsi, un tel modèle préclinique pourrait mieux refléter la résistance aux cellules NK et servir de modèle de criblage pour la découverte de médicaments potentialisant la cytotoxicité des cellules NK. Pour répondre à cette question, nous avons développé un système de culture cellulaire 3D utilisant plusieurs lignées cellulaires de neuroblastome. À ce système, une co-culture en 3D avec une lignée de cellules Natural Killer (NK92) a été mise en place. Nous avons mis en évidence que les sphéroïdes de neuroblastome présentent des changements d’expression de certains gènes qui sont retrouvées chez les patients ainsi qu’une plus grande résistance à l’activité cytotoxique des cellules NK92 en comparaison avec les lignées en monocouche. Les co cultures de sphéroïdes ont été exposées à des inhibiteurs de protéines impliquées à différents niveaux de l’épigénome afin de découvrir des médicaments qui sensibiliseraient les cellules de neuroblastome à l’activité cytotoxique des NK92. Une différence dans la sensibilité aux médicaments entre les sphéroïdes et les cellules en 2D ainsi qu’en monoculture ou en co-culture a été observée et certains composés ont été identifiés en vue de potentialiser l’activité des cellules NK92. Ainsi, nos études ont permis de mieux comprendre les mécanismes impliqués dans la résistance des cellules du neuroblastome à l’activité cytotoxique des cellules NK dans un modèle plus représentatif de la tumeur in situ. / High-risk pediatric neuroblastoma remains incurable despite intensified treatments. In patients, neuroblastoma cells evade the anti-cancer activity of Natural Killer (NK) immune cells. However, when cultured in vitro in a monolayer (2D), neuroblastoma cells become sensitive to the cytotoxic activity of NK cells, which does not reflect their resistance in tumors in situ. We hypothesize that when cultured in 3D in the form of spheroids, neuroblastoma cells could regain certain characteristics that would make them representative of tumors in situ at the immunological level. Thus, such a preclinical model could better reflect NK cell resistance and serve as a screening model for drug discovery to discover a treatment that can potentiate NK cell cytotoxicity. To answer this question, we developed a 3D cell culture system using several neuroblastoma cell lines. To this system, a 3D coculture model with a Natural Killer (NK92) cell line was set up. We have shown that neuroblastoma spheroids develop changes in the expression of certain genes that are found in patients as well as greater resistance to NK92 cells compared to monolayer cell lines. Spheroid cocultures were exposed to inhibitors of proteins involved at different levels of the epigenome to discover drugs that would sensitize neuroblastoma cells to the cytotoxic activity of NK92. A difference in drug sensitivity between spheroids and cells in 2D as well as in monoculture or coculture was observed and some compounds were identified to potentiate the activity of NK92 cells. Thus, our studies have provided a better understanding of the mechanisms involved in the resistance of neuroblastoma cells to the cytotoxic activity of NK cells in a more representative model of the tumor in situ.
145

Immune System mModulation in Victims of Intimate Partner Violence

Cheung, Michael Brian 23 December 2009 (has links)
No description available.
146

In vitro generation of human innate lymphoid cells from CD34+ hematopoietic progenitors recapitulates phenotype and function of ex vivo counterparts

Hernández Torres, Daniela Carolina 12 August 2022 (has links)
Angeborene lymphatische Zellen (ILC) sind wichtige Effektorzellen der angeborenen Immunantwort, deren Entwicklung und Aktivierungswege attraktive therapeutische Ziele darstellen. Sie bestehen aus ILC der Gruppe 1 (Natürliche Killerzellen (NK) und ILC1), ILC2 und ILC3. Neben T-Zellen leisten ILCs einen entscheidenen Beitrag zu den Typ-1-, Typ-2- und Typ-3-Immunantworten. Die Entwicklung von ILCs beim Menschen wurde jedoch noch nicht systematisch untersucht, und frühere in vitro Untersuchungen stützten sich auf die Analyse einiger weniger Marker oder Zytokine, die für die Bestimmung der Identität der verschiedenen ILC-Linien suboptimal sind. Um diese Mängel zu beheben, stellen wir hier eine Plattform vor, die zuverlässig alle menschlichen ILC-Linien aus CD34+ CD45RA+ hämatopoetischen Vorläuferzellen, gewonnen aus Nabelschnurblut und Knochenmark, erzeugt. Mit einem systematischen Ansatz zeigt diese Arbeit, dass eine einzige Kulturbedingung nicht ausreicht, um alle ILC-Untergruppen zu generieren, sondern stattdessen bestimmte Kombinationen von Zytokinen und Notch-Signalen für die Entscheidung über das Schicksal der Linien wesentlich ist. Eine umfangreiche Analyse des Transkriptoms ergab, dass der Erwerb von CD161 robust eine globale ILC-Signatur identifiziert und in vitro ILCs von T-Zell-Signaturen trennt. Die Identität spezifischer in vitro generierter ILC-Linien (NK-Zellen und ILC1, ILC2 und ILC3) wurde durch Proteinexpression, funktionelle Assays und Transkriptomanalysen auf globaler sowie auf Einzelzellebene umfassend validiert. Diese in vitro erzeugten ILC-Linien rekapitulieren die Signaturen und Funktionen ihrer ex vivo isolierten ILC-Pendants. Des Weiteren, behandeln diese Daten die Einschränkungen der Unterscheidung von menschlichen NK Zellen und ILC1 sowohl in vitro als auch ex vivo an. Darüber hinaus löst diese Plattform gängige Probleme bei der Untersuchung menschlicher ILCs, wie z. B. unzureichende Zellzahlen oder die mangelnde Verfügbarkeit von Gewebeproben. Insgesamt stellt diese Arbeit eine Ressource dar, die nicht nur zur Klärung der Biologie und Differenzierung menschlicher ILCs beiträgt, sondern auch als wichtiges Instrument zur Untersuchung der Dysregulation von ILC-Funktionen dient, die bei verschiedenen entzündlichen Erkrankungen des Menschen eine Rolle spielen. / Innate lymphoid cells (ILCs) are critical effectors of innate immunity and inflammation that consist of Group 1 ILCs (natural killer (NK) cells and ILC1), ILC2, and ILC3. As tissue resident lymphocytes, they play a crucial role type 1, type 2 and type 3 immune responses, respectively. Importantly, dysregulated ILC populations have been linked to the pathogenesis of a variety of chronic inflammatory diseases and thus represent attractive therapeutic targets with a potential for autologous cell therapies. However, human ILC generation has not been systematically explored, and previous in vitro investigations have relied on the analysis of few markers or cytokines, which are suboptimal to assign lineage identity and full functional capacity. To address these faults, we present here an effective in vitro platform, which reliably generates the core human ILC lineages from CD34+ CD45RA+ hematopoietic progenitors derived from cord blood and bone marrow. With a systematic approach, this work shows that a single culture condition is insufficient to generate all ILC subsets, and instead, distinct combinations of cytokines and Notch signaling are essential for lineage fate making decisions. In depth transcriptomic analysis revealed that acquisition of CD161 robustly identifies a global ILC signature and separates them from T cell signatures in vitro. The identity of specific ILC subsets, (NK cells and ILC1, ILC2, and ILC3) generated in vitro was validated extensively by protein expression, functional assays, and both global and single-cell transcriptome analysis. These in vitro generated ILC subsets recapitulate the signatures and functions of their ex vivo ILC counterparts. Finally, these data shed light on the limitations in untying the identity of human NK cells and ILC1 in vitro, similarly correlating to lineage identification difficulties ex vivo. Additionally, this platform tackles common problems in human ILC studies such as insufficient cell numbers and scarce availability of tissue samples. Altogether, this work presents a resource not only to aid in clarifying human ILC biology and differentiation, but also to serve as an important tool to study dysregulation of ILC functions, which have been implied in various inflammatory diseases in humans.
147

Differential effects of stress on the immune response to influenza A/PR8 virus infection in mice

Hunzeker, John T. 19 May 2004 (has links)
No description available.
148

Clonal Expansion and Epigenetic Inheritance Shape Long-Lasting NK cell Memory

Rückert, Timo 09 December 2022 (has links)
Die Selektion klonal expandierender Zellen mit einzigartigen, somatisch rekombinierten Anti-gen-Rezeptoren und die Langlebigkeit der daraus hervorgehenden Gedächtniszellen sind definierende Eigenschaften adaptiver Immunität. Dahingegen ist das angeborene Immunsystem da-rauf programmiert, mittels einer breiten Palette konservierter Rezeptoren möglichst schnell auf Pathogene zu reagieren und wird dabei auf Populationsebene epigenetisch geprägt. In dieser Arbeit möchte ich dieses Paradigma auf der Basis von Natürlichem Killer (NK) Zell-Gedächtnis an das humane Zytomegalievirus (HCMV) als Beispiel für Pathogen-spezifische Anpassung innerhalb des angeborenen Immunsystems herausfordern. Indem wir multiparametrische Einzel-zellanalysen zur Kartierung von ex vivo NK Zellen mit endogenen Barcodes in Form von soma-tischen Mutationen in mitochondrialer DNA (mtDNA) verknüpfen, können wir drastische klonale Expansionen adaptiver NK Zellen in HCMV+ Spendern nachweisen. NK-Zell-Klonotypen waren durch eine ihnen gemeinsame, inflammatorische Gedächtnissignatur mit AP1 Motiven gekennzeichnet, die eine Reihe einzigartiger Chromatin-Regionen mit Klon-spezifischer Zugänglichkeit überlagerte. NK-Zell-Klone wurden über einen Zeitraum von bis zu 19 Monaten stabil aufrechterhalten und behielten dabei ihre charakteristischen, Klon-spezifischen epigenetischen Signaturen, was die entscheidende Rolle klonaler Vererbung von Chromatin-Zugänglichkeit für die Prägung des epigenetischen Gedächtnis-Repertoires unterstreicht. Insgesamt identifiziert diese Arbeit zum ersten Mal klonale Expansion und Persistenz innerhalb des angeborenen Immunsystems im Menschen und deutet daraufhin, dass diese zentralen Mechanismen zur Ausbildung von immunologischem Gedächtnis evolutionär unabhängig von diversifizierten Antigen-Rezeptoren entstanden sind. / A hallmark of adaptive immunity is the clonal selection and expansion of cells with somatically diversified receptors and their long-term maintenance as memory cells. The innate immune system, in contrast, is wired to rapidly respond to pathogens via a broad set of germline-encoded receptors, acquiring epigenetic imprinting at the population level. The presented work challenges this paradigm by studying Natural Killer (NK) cell memory to human Cytomegalovirus (HCMV) infection as an example of pathogen-specific adaptation within the innate immune system. Leveraging single-cell multi-omic maps of ex vivo NK cells and somatic mitochondrial DNA (mtDNA) mutations as endogenous barcodes, we reveal drastic clonal expansions of adaptive NK cells in HCMV+ individuals. NK cell clonotypes were characterized by a convergent inflammatory memory signature driven by AP1 transcription factor activity, superimposed on a private set of clone-specific accessible chromatin regions. Strikingly, NK cell clones were stably maintained in their specific epigenetic states for up to 19 months, revealing that clonal inheritance of chromatin accessibility shapes the epigenetic memory repertoire. Together, this work presents the first identification of clonal expansion and persistence within the human innate immune system, suggesting these central mechanisms of immune memory have evolved independently of antigen-receptor diversification.
149

Effet du sécrétome des cellules sénescentes sur la réponse inflammatoire orchestrée par les macrophages

Dessureault, Mireille 07 1900 (has links)
L’élimination des cellules sénescentes met en jeu le SASP et les cellules immunitaires de l’immunité innée et adaptative tels que les macrophages (Mφ). Dans le cadre de ce projet, nous rapportons que le SASP a un effet pléiotropique sur l’activité des cellules immunitaires incluant leur recrutement, leur activation et leur différenciation. Nos données montrent que les Mφ humains mis en culture avec le SASP de fibroblastes humains développement un profil inflammatoire spécifique au SASP caractérisé par une sécrétion pro-inflammatoire (M1) (ex : IL- 1β, GM-CSF) et des marqueurs de surface anti-inflammatoires (M2) (cellules CD23+CD206+). Le SASP est aussi capable d’augmenter les capacités d’invasion des Mφ, tel que montré via des essais d’invasion, mais n’a pas d’effet sur la différentiation des monocytes. Nos modèles de co- culture montrent que, quoique les cellules NK sont probablement responsables de l’élimination directe et spécifique des cellules sénescentes, leur activité peut être modulée par d’autres cellules immunitaires tels que les Mφ qui réduisent l’élimination faite par les cellules NK, suggérant un profil M2. Les lymphocytes T CD8+ sont aussi essentiels pour l’élimination des cellules sénescentes puisque leur retrait retarde le processus. De plus, nous démontrons que les cellules T CD4+ mises en culture pendant 48h dans le SASP sécrètent de hauts niveaux d’IL-4, indiquant une polarisation Th2. Somme toute, ces données montrent que le SASP peut moduler l’activité des Mφ tout comme celle d’autres cellules immunitaires impliquées dans l’élimination des cellules sénescentes et peut promouvoir, étonnamment, une réponse immunosuppressive pouvant être importante pendant la réparation tissulaire. / Senescent cell clearance brings into play the senescence-associated secretory phenotype (SASP) and immune cells from the innate and adaptive immunity including macrophages (Mφ). In this study, we report that the SASP has a pleiotropic effect on immune cell activity including recruitment, activation and differentiation. We show that human Mφ exposed to the SASP of human fibroblasts develop a SASP-specific inflammatory profile characterized by pro- inflammatory (M1) secretion (e.g. IL-1β, GM-CSF) and anti-inflammatory (M2) surface markers (CD23 and CD206). The SASP also increases Mφ invasion but has no effect on monocyte differentiation. Co-culture models show that while NK cells are likely the direct effectors of senescent cell specific killing, their activity is modulated by other immune cells including Mφ, which reduced NK-mediated killing, suggesting a M2 profile. Alternatively, CD8+ T lymphocytes are essential for senescent cell killing by NK cells. Finally, CD4+ T cells cultured for 48h in the SASP secrete high-levels of IL-4, indicating a Th2 polarization. Overall, our data reveal that the SASP can modulate Mφ and other immune cells involved in senescent cell clearance and surprisingly promote an immunosuppressive response that could be important in tissue repair.
150

Ex vivo reprogramming of tumor-reactive immune cells from FVBN202 mice bearing lung metastatic mammary carcinoma: an immunotherapeutic opportunity revealed against recurrence

Hall, Charles 23 July 2013 (has links)
Metastatic breast cancer treatment has seen few advances in recent years, yet treatment resistance continues to rise, causing disease recurrence. A pilot study was performed to determine the efficacy of ex vivo expansion and reprogramming of tumor-reactive immune cells from experimental metastatic tumor-sensitized mice. Also, phenotypic changes in tumors due to metastasis or tumor microenvironment influences were characterized. Metastatic neu+ mouse mammary carcinoma (mMMC) and its distant relapsing neu-antigen-negative variant (mANV) were investigated in FVBN202 mice. Tumor-reactive central memory CD8+ T cells and activated NK/NKT cells were successfully reprogrammed and expanded during 6-day expansion from mMMC- and/or mANV-sensitized mice, resulting in tumor-specific cytotoxicity. mMMC exhibited a flexible neu-expression pattern and acquired stem-like, tumorigenic phenotype following metastasis while mANV remained stable except decreased tumorigenicity. Myeloid-derived suppressor cell (MDSC) levels were not increased. Adoptive cellular therapy (ACT) with reprogrammed tumor-reactive immune cells may prove effective prophylaxis against metastatic or recurrent breast cancer.

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