Global ETD Search

171	Insights into a Novel Signaling Pathway that Determines Cell Fate in Response to Hyperosmotic Stress Farabaugh, Kenneth Thomas, kt January 2019 (has links) No description available. Pharmacology Biomedical Research Cellular Biology Genetics Molecular Biology PKR PACT NF-kB p65 c-Rel hyperosmotic stress osmoadaptation
172	SAMHD1 Negatively Regulates the Innate Immune Responses to Inflammatory Stimuli and Viral Infection Qin, Zhihua 30 September 2020 (has links) No description available. Immunology Molecular Biology Virology SAMHD1 Innate immune responses NF-KB pathway Type I interferon pathway dNTPase activity Nuclear localization
173	Purification of SIMPL Antibody and Immunofluorescence of SIMPL Sub-Cellular Localization in Response to TNFα- and IL-1 Cogill, Steven B. 10 March 2011 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / SIMPL is a transcriptional co-activator that alters the activity of transcription factor, NF-κB. In response to pathogens, cytokines such as Interleukin-1 (IL-1) and Tumor Necrosis Factor (TNF) signal through the IL-1 and TNF-α receptors, respectively, which are found on various cell types. Activation of these receptors can result in the nuclear localization of NF-κB where it enables the transcription of several different genes key in the innate immune response. Endogenous co-localization of the SIMPL protein with NF-κB in response to these same cytokine signals has yet to be demonstrated. Polyclonal antibody generated against a truncated version of the SIMPL protein was purified from the sera obtained from immunized rabbits using affinity chromatography. The antibody was found to have a high specificity for both the native and denatured form of the protein as demonstrated by the lack of nonspecific bands observed in immunoprecipitations and Western blotting. The antibody was utilized in immunofluorescence experiments on mouse endothelial cells that were either unstimulated or were stimulated (IL-1 or TNF-α). In the absence of cytokine, SIMPL was localized in both the cytoplasm and the nucleus as opposed to NF-κB which was almost exclusively localized in the cytoplasm. In the presence of IL-1, the concentration of SIMPL in the nucleus was increased, and in the presence of TNF-α, the concentration of SIMPL in the nucleus was even greater. Results of this study identified future routes for SIMPL antibody isolation as well as to demonstrate that endogenous SIMPL protein nuclear localization may not be solely dependent upon TNF-α signaling. SIMPL Transcriptional Co-Activator NF-kB NF-kappa B (DNA-binding protein) Transcription factors Cytokines Immunoglobulins Immunofluorescence
174	MOLECULAR MECHANISMS OF SYNERGISTIC TRANSCRIPTIONAL REGULATION OF INDOLEAMINE 2,3-DIOXYGENASE Robinson, Cory Michael 02 August 2004 (has links) No description available. transcriptional regulation interferon tumor necrosis factor indoleamine 2,3-dioxygenase STAT-1 IRF-1 C/EBP-beta NF-KB
175	The Immunoregulatory and Neuroprotective roles of Dimethyl Fumarate in Multiples Sclerosis Peng, Haiyan 20 December 2012 (has links) No description available. Neurobiology Dimethyl fumarate multiple sclerosis dendritic cells NF-kB p65 MSK1 ERK1/2 Excitotoxicity AMPA Heme Oxygenase-1 Neuroprotection
176	Effets de la prostaglandine D₂ (PGD₂) sur les réponses inflammatoires et cataboliques dans les chondrocytes humains Mfuna Endam, Leandra January 2007 (has links) Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. Arthrose Prostaglandine D₂ IL-1[Beta] MMP-1 MMP-13 NO DP-1 CRTH2 MAPKs NF-kB
177	MAST3 : facteur de risque génétique aux maladies inflammatoires de l’intestin et modulateur d’inflammation Labbé, Catherine 08 1900 (has links) La maladie de Crohn (MC) et la colite ulcéreuse (CU) sont des maladies inflammatoires chroniques du tube digestif qu’on regroupe sous le terme maladies inflammatoires de l’intestin (MII). Les mécanismes moléculaires menant au développement des MII ne sont pas entièrement connus, mais des études génétiques et fonctionnelles ont permis de mettre en évidence des interactions entre des prédispositions génétiques et des facteurs environnementaux - notamment la flore intestinale – qui contribuent au développement d’une dérégulation de la réponse immunitaire menant à l’inflammation de la muqueuse intestinale. Des études d’association pangénomiques et ciblées ont permis d’identifier plusieurs gènes de susceptibilité aux MII mais les estimations de la contribution de ces gènes à l’héritabilité suggèrent que plusieurs gènes restent à découvrir. Certains d’entre eux peuvent se trouver dans les régions identifiées par des études de liaison génétique. L’objectif de mon projet de doctorat était d’identifier un ou des facteurs de risque génétique dans la région chromosomale 19p (identifiée comme région de liaison IBD6) et de le/les caractériser au niveau fonctionnel. Nous avons d’abord entrepris une cartographie d’association de la région 19p. À la suite du génotypage successif de deux cohortes indépendantes, nous avons identifié un SNP intronique et quatre SNP codants dont un non-synonyme, rs8108738, tous localisés dans le gène microtubule associated serine threonine kinase gene-3 (MAST3) et associés aux MII. Peu d’information fonctionnelle sur MAST3 était disponible. Par contre MAST2, une protéine encodée par un gène de la même famille, régule l’activité du facteur de transcription inflammatoire NF-kappaB. Nous avons confirmé l’implication de MAST3 dans l’activité de NF-kappaB via un knockdown de MAST3 et des essais gène-rapporteur. Pour poursuivre la caractérisation fonctionnelle de MAST3, nous avons choisi une approche non ciblée pour étudier les effets de la variation des niveaux d’expression de MAST3 sur la cellule. C’est-à-dire que nous avons créé un 1er modèle cellulaire de surexpression du gène MAST3 dans les cellules HEK293 et analysé l’expression pangénomique endogène. La validation de l’expression génique dans un 2e modèle cellulaire de knockdown et de type cellulaire différent (THP1), nous a permis d’identifier et de contrer les effets non-spécifiques dus aux niveaux non-physiologiques. Notre étude d’expression a mené à l’identification d’un groupe de gènes dont l’expression est régulée par MAST3. Ces gènes sont majoritairement impliqués dans des fonctions immunitaires (cytokines pro-inflammatoires, régulateurs de NF-kappaB, migration cellulaire, etc.) et une forte proportion est régulée par NF-kappaB. Nous avons évalué l’importance du groupe de gènes régulés par MAST3 dans la présentation clinique des MII à travers des études d’expression dans des biopsies intestinales de patients atteints de CU. Nous avons constaté que l’expression de ces gènes est significativement supérieure dans les régions enflammées par rapport aux régions saines de la muqueuse intestinale des patients atteints de CU. Globalement, les résultats de nos études suggèrent que le facteur de risque aux MII MAST3 agit via la voie du facteur de transcription NF-kappaB pour influencer l’expression d’un groupe de gènes impliqués dans l’inflammation intestinale typique des MII. Chaque étude génétique sur les MII a le potentiel d’orienter les recherches fonctionnelles vers de nouvelles voies biologiques causales. Le dévoilement des mécanismes moléculaires sous-jacents à ces voies permet d’augmenter les connaissances sur le développement de ces maladies vers une compréhension plus complète de la pathogenèse qui permettra d’optimiser le diagnostic et le traitement de ces maladies. / Inflammatory bowel diseases (IBD) refer to different chronic inflammatory diseases of the digestive tract mainly Crohn’s disease (CD) and ulcerative colitis (UC). Mechanisms leading to the pathogenesis of IBD are not completely understood, but genetic and functional studies have highlighted interactions between genetic predispositions and environmental factors, such as the intestinal microbiota, as contributors to the deregulation of the immune response that leads to inflammation of the intestinal mucosa. Genome-wide and targeted association studies have identified several IBD susceptibility genes. However, estimations of the contribution of these genes to heritability of the disease suggest that more are to be discovered. Some of these genes may be in previously identified IBD linkage regions. The objective of my doctoral project was first, to identify risk factors in the 19p chromosomal region (IBD6), previously identified following a genome-wide linkage study, then to characterise them functionally. We first performed a comprehensive association mapping study of the 19p region. Our two-stage genotyping strategy led to the identification of one intronic SNP and four coding SNP –including one non-synonymous SNP, rs8108738 – all located in the microtubule associated serine threonine kinase gene 3 (MAST3) and associated to IBD. Very limited functional information on MAST3 was available at that time. However MAST2 (a gene in the same family as MAST3), is involved in the regulation of inflammation master switch, transcription factor NF-B. We confirmed the involvement of MAST3 in the modulation of NF-B via a knockdown of MAST3 and gene reporter assays. In order to further characterize the function of MAST3, we chose a non-targeted approach to study the effects of the modulation of MAST3 levels on the cell. More specifically, we created a 1st cell model of MAST3 overexpression in HEK293 cells and analysed the resulting genome-wide endogenous gene expression. Validation in a 2nd cell model consisting of a knockdown of MAST3 in THP1 cells, allowed to identify non-specific gene expression due to non-physiological MAST3 levels. Our expression study led to the identification of a group of genes whose expression is modulated by MAST3. These genes are mainly involved in immune functions (pro-inflammatory cytokines, NF-B regulation, cellular migration, etc) and a majority is regulated by transcription factor NF-B. We evaluated the importance of this MAST3-regulated gene set in the clinical manifestation of IBD through an expression study on biopsies of UC patients. We found that the expression the MAST3-regulated gene set was significantly enriched in inflamed region of the intestinal mucosa of UC patients compared to healthy region. Taken together, the results of our study suggest that IBD risk factor MAST3 acts on the NF-B pathway to influence the expression of a group of genes involved in intestinal inflammation typical of IBD. Every genetic study on IBD has the potential to lead functional research towards new causal biological pathways. The unravelling of the molecular mechanisms underlying these pathways aims to improve the comprehension of the pathogenesis of IBD and hopefully will allow for optimization of diagnostic and treatment of these diseases. maladies inflammatoires de l’intestin susceptibilité génétique chromosome 19p MAST3 NF-kB expression pangénomique inflammation Inflammatory bowel diseases genetic susceptibility genome-wide expression
178	Orientia tsutsugamushi secretes two ankyrin repeat-containing effectors via a type 1 secretion system to inhibit host NF-κB function Evans, Sean M. 01 January 2017 (has links) Scrub typhus is a potentially fatal infection that threatens one billion persons in the Asia-Pacific region and is caused by the obligate intracellular bacterium, Orientia tsutsugamushi. How this organism facilitates its intracellular survival and pathogenesis is poorly understood. Intracellular bacterial pathogens utilize the Type 1 (T1SS) or Type 4 secretion system (T4SS) to translocate ankyrin repeat-containing proteins (Anks) into the host cell to modulate host cell processes. The O. tsutsugamushi genome encodes one of the largest known bacterial Ank libraries as well as Type 1 and Type 4 secretion systems (T1SS and T4SS), which are expressed during infection. In silico analyses of the Anks’ C-termini revealed that they possess characteristics of T1SS secretion signals. Escherichia coli expressing a functional T1SS was able to secrete chimeric hemolysin proteins bearing the C-termini of 19 of 20 O. tsutsugamushi Anks. In addition to infecting endothelial cells, O. tsutsugamushi infects professional phagocytes. To better understand why these innate immune cells are unable to eliminate O. tsutsugamushi, we addressed the activity of host NF-κB proinflammatory transcription factor. Screening of O. tsutsugamushi infected cells at an MOI of 1 revealed inhibition of NF-κB nuclear accumulation as early as 8 hours in HeLa and bone-marrow derived macrophage cells. When stimulating infected cells with TNF-α, IκBα degradation still occurs, however NF-κB dependent gene transcription remains downregulated. Immunofluorescence microscopic analysis of TNF-α treated cells ectopically expressing all O. tsutsugamushi Anks revealed that two nuclear trafficking Anks, Ank1 and Ank6, result in a significant decrease in NF-κB nuclear accumulation. Additionally, these Anks also significantly inhibited NF-κB dependent gene transcription. Co-immunoprecipitation experiments revealed that both Anks interact with importin-β1, exportin-1, and the p65 NF-κB subunit. Treating cells with importazole significantly reduces the nuclear accumulation of Ank1 and Ank6. Finally, treating infected cells or cells ectopically expressing Ank1 or Ank6 with leptomycin B resulted in restoration of NF-κB nuclear accumulation. With these data, we propose that O. tsutsugamushi secretes Ank1 and Ank6 to initially interact with importin-β1, which permits their nuclear entry where they then interact with NF-κB and subsequently exportin-1 to prevent NF-κB nuclear accumulation. obligate intracellular bacteria t1ss NF-kB importin exportin ankyrin Bacterial Infections and Mycoses Immunology and Infectious Disease Microbiology Pathogenic Microbiology
179	Régulation des réponses immunitaire allergiques par la kinase IKKb des cellules épitheliales intestinales : Effect sur les reactions allergique inflammatoires au niveau des muqueuses pulmonaires et de la peau / Regulation of allergic immune responses by IKKb in intestinal epithelial cells : Effect on allergic inflammation at distant mucosal sites Bonnegarde-Bernard, Astrid 05 December 2013 (has links) La régulation de l'homéostasie intestinale est de la plus haute importance en raison de la constante exposition de l'intestin aux antigènes alimentaires et à la flore commensale. La perturbation de la flore intestinale est souvent associée à diverses maladies telles que l'allergie, l'obésité et certaines maladies inflammatoires. La plupart des individus sont tolérant aux antigènes alimentaires et ne développe pas de réponse immunitaire sauf en cas de prédisposition génétique ou d'exposition à un environnement défavorable. La réponse allergique se caractérise par la production d'IgE stimulé par les lymphocytes Th2. Les symptômes allergiques sont très variés et affectent plusieurs parties de l'organisme. La plupart des travaux de recherche se sont focalisé jusqu'à présent sur le rôle des cellules de l'immunité adaptative dans le développement de l'allergie en sous-estimant le rôle majeur des cellules épithéliales et des cellules de l'immunité innée. L'objectif de ce projet est de comprendre comment les cellules épithéliales intestinales modulent la réponse immunitaire à distance vers la muqueuse pulmonaire ou la peau après stimulation allergique. L'ingestion de l'antigène associé à l'adjuvant de la toxine cholérique permet d'étudier la réponse allergique chez l'animal. Nous avons démontré sur ce modèle animal que l'absence de la kinase inhibitrice IKKb dans la voie de signalisation du facteur de transcription NF-kB altère la composition de la flore intestinal d'une part et transforme la réponse immunitaire inflammatoire au niveau pulmonaire et de la peau grâce à la présence d'IgA et de lymphocyte Th17 d'autre part. En adéquation avec les observations cliniques rapportées chez les patients allergiques (allergies alimentaires, asthme, dermatite atopique), nos résultats identifient IKKb dans la cellule épithéliale intestinale comme cible potentielle pour traiter les allergies alimentaires. De futurs efforts devront être faits pour développer de nouvelles stratégies thérapeutiques qui considèrent la muqueuse intestinale, la production d'IgA et l'importance des bactéries commensales dans le traitement des allergies. / Immune homeostasis is of paramount importance in the gastrointestinal tract, which is constantly exposed to ingested antigens and commensal microbiota. The gut microbiota can be perturbed by endogenous or exogenous factors and it is now established that microbial dysbiosis is associated with allergy, obesity, and inflammatory diseases. Ingestion of food antigens generally fails to promote brisk immune responses but rather results in a state of immune tolerance. However, aberrant immune responses can develop in individuals with a genetic predisposition. Food allergies are generally regarded as pathologic responses to food antigens mediated by excessive Th2 responses and antigen-specific IgE antibody responses. Clinical manifestations of food allergies are very broad and symptoms can affect different organs. While past research on allergy focused on the role of cells and molecules involved in adaptive immunity, epithelial cells lining the sites of antigen entry and innate immune responses have recently emerged as important players in allergy. This project was undertaken to understand the mechanisms employed by intestinal epithelial cells (IECs) to shape immune responses to allergens and influence allergic manifestations in distant mucosal sites such as the airways or the skin. Oral administration of food antigen with cholera toxin as adjuvant in experimental animals is a well-accepted model to study allergic sensitization to food antigens. Using this model, we show that a localized impairment of the canonical NF-κB pathway through deletion of IkB kinase (IKKβ) in IECs alters the gut microbiota during oral allergic sensitization and regulates the magnitude of allergic inflammatory responses at distant sites of the airway and the skin through enhancement of IgA Abs and Th17 responses. Consistent with the clinical observations linking atopic diseases (food allergy, allergic asthma, atopic dermatitis), our results identify IKKβ in IECs as a potential therapeutic target for treatment of food allergies and subsequent disease. They also suggest that future efforts for controlling allergic responses in the airways and the skin could include strategies that use the gut microbiota and promote IgA Ab responses and prevent IL-17 responses. Allergie alimentaire Asthme Réponse immunitaire Poumons Flore intestinale Peau Food allergy Asthma Immune response Lung Atopic dermatitis NF-kB Intestinal epithelial cells Microbiota IgA 616.9707
180	Papel da hipóxia na ativação da imunidade inata e na progressão da doença renal crônica associada ao modelo de ablação renal de 5/6 / Role of hypoxia in the activation of innate immunity and in the progression of chronic kidney disease associated with the renal ablation model of 5/6 Rempel, Lisienny Campoli Tono 27 September 2018 (has links) A hipóxia tecidual tem sido apontada como importante fator na patogênese da Doença Renal Crônica (DRC). No entanto, faltam evidências diretas de que a exposição prolongada à hipóxia tecidual inicie ou agrave a DRC. Nós testamos essa hipótese expondo cronicamente ratos normais e ratos com nefrectomia de 5/6 (Nx) à hipóxia. Além disso, investigamos se tal efeito da hipóxia envolveria a ativação da imunidade inata. Ratos Munich-Wistar machos adultos foram submetidos a Nx (n = 54) ou cirurgia simulada (Sham, n = 52). Vinte e seis ratos sham (S+nor) e 26 Nx (Nx+nor) permaneceram em normóxia, enquanto 26 ratos sham (S+hip) e 28 Nx (Nx+hip) foram mantidos em uma câmara de hipóxia normobárica (12% O2) por 8 semanas. Confirmamos a existência de hipóxia tecidual por imuno-histoquímica para Pimonidazol (Hypoxyprobe tm). A hipóxia foi confinada à área medular em S+nor e expandiu-se à área cortical em S+hip. A hipóxia não promoveu lesão renal nem elevação do conteúdo de IL-1beta ou TLR-4 em Sham. Em Nx, a hipóxia se estendeu para a área cortical, um processo que foi intensificado em Nx+hip, mas, inesperadamente, atenuou a hipertensão, a ativação da imunidade inata, a inflamação, a lesão renal e o estresse oxidativo. Em desacordo com os conceitos atuais, o presente estudo traz evidência de que a hipóxia pode exercer um efeito renoprotetor no modelo Nx, ao invés de atuar como um fator de lesão renal. Os mecanismos desse inesperado efeito benéfico não são claros, e podem envolver inibição da via do NF-kB, melhora do estresse oxidativo e limitação da produção de angiotensina II pelo tecido renal / Hypoxia is thought to influence the pathogenesis of chronic kidney disease (CKD), but direct evidence that prolonged exposure to tissue hypoxia initiates or aggravates CKD is lacking. We tested this hypothesis by chronically exposing normal rats and rats with 5/6 nephrectomy (Nx) to hypoxia. In addition, we investigated whether such effect of hypoxia would involve activation of innate immunity. Adult male Munich-Wistar rats underwent Nx (n=54) or sham surgery (sham, n=52). Twenty six sham (S+nor) and 26 Nx (Nx+nor) rats remained in normoxia, while 26 sham rats (S+hyp) and 28 Nx rats (Nx+hyp) were kept in a normobaric hypoxia chamber (12% O2) for 8 weeks. Hypoxia was confirmed by immunohistochemistry for Pimonidazole (Hypoxyprobe®). Hypoxia was confined to the medullar area in S+nor and spread to the cortical area in S+hyp. Exposure to hypoxia promoted no renal injury or elevation of the content of IL1beta or TLR-4 in Sham. In Nx, hypoxia extended to the cortical area, a process that was intensified in Nx+hyp but, unexpectedly, attenuated hypertension, inflammation, innate immunity activation, renal injury and oxidative stress. The present study, in disagreement with current concepts, shows evidence that hypoxia exerts a renoprotective effect in the Nx model, instead of acting as a factor of renal injury. The mechanisms for this unexpected beneficial effect are unclear, and may involve NF-kB inhibition, amelioration of oxidative stress and limitation of angiotensine II production by the renal tissue 5/6 ablation Ablação renal de 5/6 Chronic kidney disease Doença renal crônica Hipóxia Hypoxia Imunidade inata Innate immunity NF-kB NFkB pathway

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