Global ETD Search

71	The Impact of Vanadyl Sulfate-Enhanced Oncolytic Virus Immunotherapy on the Antitumor Immune Response Alluqmani, Nouf 04 December 2023 (has links) Oncolytic viruses (OVs) are promising tumor-selective treatments, and the efficacy of OV therapies has been shown to depend heavily on the successful delivery and spread of these agents within the tumor mass to generate profound immunostimulatory effects. We have previously reported the potential of vanadium-based compounds such as vanadyl sulfate (VS) as immune-stimulatory enhancers of OV immunotherapy. These compounds, in conjunction with RNA-based OVs such as oncolytic VSVΔ51, improve viral spread and oncolysis, leading to long-term antitumor immunity and prolonged survival in resistant tumor models as previously reported. This effect is associated with a virus-induced antiviral type I IFN response shifting towards a type II IFN response. Here, the systemic impact and the relevant immunological changes following VS/VSVΔ51 combination therapy were investigated to understand the immunological mechanism of action leading to improved antitumor responses. We screened for the secretion of chemokines and cytokines in vivo to understand the mechanism of action regulating the recruitment of immune cells to the tumor in the CT26WT tumor model following treatment. Additionally, the antigen-specific immune response was investigated to further identify the relevant immunological changes following treatment with the VS+VSVΔ51 combination. Our data revealed that VS+VSVΔ51 combination therapy significantly increased the levels of IFN-γ and IL-6, and other key important pro-inflammatory cytokines and chemokines. Improved tumor antigen-specific T-cell responses were observed following the combined therapy. Supported by relevant immunological changes and as a proof of concept for the design of more effective therapeutic regimens, we found that local delivery of VSVΔ51 encoded with IL-12 or with other transgenes in combination with VS further improved therapeutic outcomes in a syngeneic CT26WT colon cancer model. We found that CD8+ T cells and Natural Killer (NK) cells play significant roles in establishing the therapeutic efficacy that we observed; Furthermore, engineering new and targeted therapeutic platforms to impact the antitumor immune response further improves the therapeutic benefits of the combined therapy. Oncolytic virus antitumor immune response CD8+ T cells Natural Killer cells IL12 CXCL9 Vanadyl Sulfate immunotherapy
72	Regulation of IL-22 Production by Immature Natural Killer Cells and CD16 Expression during their Maturation Victor, Aaron Robert 23 September 2016 (has links) No description available. Biomedical Research natural killer cells innate immunity cell development IL-18 IL-22 CD16 FCGR3A
73	Stress-induced suppression of natural killer cell activity during influenza viral infection: The role of glucocorticoids and opioids Tseng, Raymond J. 07 August 2006 (has links) No description available. influenza stress glucocorticoids opioids natural killer cells NK naltrexone naloxone cytokine cytotoxicity cellularity lung spleen
74	The Influence of 3D Cell Organization in Tumor Spheroid on Natural Killer Cell Infiltration and Migration / Inverkan av 3D-cellorganisation i tumörsfäroid på naturlig mördarcellinfiltration och migration Morrone, Luigi January 2020 (has links) Natural Killer cells are a type of lymphocyte belonging to the innate immune system and they operate cell-mediated cytotoxicity and release of pro-inflammatory cytokines against cancerous cells. However, in vivo testings have shown a reduced activity of NK cells against solid tumors probably due to the negative influence of the immunosuppressive tumor microenvironment. Multicellular tumor spheroids may constitute an advantageous model in cancer biology for studying the mechanisms behind cancer immune editing since it more closely mimics the complexity of the human body compared with the 2D model counterpart. This study investigated the interaction between NK cells isolated from blood and tumor spheroids obtained from A498 renal carcinoma cells, using light-sheet microscopy imaging which allows satisfactory cell tracking in the inner layers of the spheroids. NK cells not only indeed interact with tumor spheroids, but many of them were able to penetrate the spheroids inducing some changes in the structure of the latter. NK cells were also tracked over time, displaying the migration path and calculating the speed. The fluorescence intensity of the NK cells was found reduced as soon as they penetrate the spheroid but, conversely, the speed seems to increase inside the spheroid, a possible sign of the fallibility of the tracking algorithm in this specific case. We propose solutions for more sophisticated future implementations, involving the use of marks during the experimental phase and drift corrections at the data analysis level. Natural Killer Cells Tumor Spheroids Fluorescence Microscopy Infiltration Migration Killing Medical Engineering Medicinteknik
75	Understanding the role of Type I Interferon in regulating the Innate Immune Response during Herpes Simplex Virus Type 2 Infection / Type I IFN regulates Innate Immunity during HSV-2 Infection Lee, Amanda January 2017 (has links) Type I interferons (IFN) are a potent antiviral cytokine group that are key regulators of the immune response against virus infection. Not only does this group activate antiviral states within target cells, it can modulate the innate immune response. In the studies presented, we investigate the effects of type I IFN on the innate immune system during a mucosal vaginal virus infection, herpes simplex virus type 2 (HSV-2), a prominent sexually transmitted infection that causes genital herpes and increases risk of human immunodeficiency virus acquisition. It is well known that type I IFN is critical for natural killer (NK) cell activation. These cells contribute to the antiviral response by suppressing virus replication and aiding in the initiation of the adaptive immune response, particularly through the release of IFN-γ. In the work presented, we demonstrate that type I IFN does not act on NK cells directly for their activation, but instead activates NK cell IFN-γ production by inducing inflammatory monocytes to release IL-18, which in turn, signals NK cells to release IFN-γ during a mucosal HSV-2 infection. Rather, direct action of type I IFN on NK cells serves to negatively regulate their IFN-γ response. We also found that type I IFN was critical for suppressing virus-induced innate immunopathology during HSV-2 infection. Overall, our studies further our understanding of type I IFN and the many roles it plays during virus infection, which has become more relevant as specific therapies altering type I IFN are being used in the clinic. Further, we provide a fundamental understanding of type I IFN and its ability to shape the innate immune response to virus infection by suppressing dysregulated and immunopathological functions while promoting beneficial innate immune responses that can help fight the infection. / Thesis / Doctor of Philosophy (PhD) / Type I interferons (IFN) are a group of proteins that are rapidly produced early during infection and is important for combatting virus infections. We show that type I IFN is not just an antiviral molecule, but can modulate the initial immune response to virus infection. As part of the initial immune response, Natural killer (NK) cells are immune cells that respond rapidly to infection and are a key element in controlling the early stages of infection. We found that type I IFN is critical for activating NK cell function by signaling through an intermediary cell, but can also suppress that same function by directly acting on NK cells. We also found that type I IFN is critical for suppressing a dysregulated immune response that causes severe virus-induced vaginal pathology. Overall, our data suggests that type I IFN is a key antiviral molecule that shapes the immune response to virus infection.
76	The Bidirectional Crosstalk between Human Dendritic Cells and Natural Killer Cells Wehner, Rebekka, Dietze, Kristin, Bachmann, Michael, Schmitz, Marc 18 March 2014 (has links) (PDF) Dendritic cells (DCs) are professional antigen-presenting cells, which display an extraordinary capacity to induce T-cell responses. Recent findings revealed that DCs also play a crucial role in the activation of natural killer (NK) cells representing important effectors in the innate immune defense against viruses and tumors. Here, we summarize various studies investigating the bidirectional crosstalk between human DCs and NK cells. In this context, it has been reported that DCs efficiently enhance CD69 expression, proliferation, interferon (IFN)-γ secretion and cytotoxic activity of NK cells. Cell membrane-associated molecules as well as soluble factors such as interleukin-12, tumor necrosis factor-α and type I IFNs contributed to DC-mediated NK cell activation. Reciprocally, the ability of human NK cells to enhance the immunostimulatory capacity of DCs was shown. Thus, NK cells promoted the maturation of DCs and markedly augmented their capacity to produce proinflammatory cytokines and to stimulate T-cell responses. The NK cell-mediated effects on DCs were dependent on cell membrane-associated molecules such as NKp30 and soluble factors such as tumor necrosis factor-α and IFN-γ. In conclusion, the reciprocal activating interaction between human DCs and NK cells may play a pivotal role in the immune defense against viruses and tumors. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. angeborene Immunität natürliche Killerzellen NK-Zellen dendritische Zellen Dendritic cells Natural killer cells Innate immunity ddc:610 rvk:XA 10000
77	Modulation of innate immune responses by hepatitis C virus Huston, Leila January 2012 (has links) Hepatitis C virus (HCV) establishes a chronic infection in about 70% of infected individuals that is associated with the development of liver cirrhosis and hepatocellular carcinoma. The mechanisms by which HCV avoids clearance by the host immune response are not fully understood. The first aim of this project was to determine whether immune cell subsets could become infected by HCV in vitro. None of the haematopoietic subsets analysed expressed all of the required entry factors, CD81, SR-BI, claudin-1 and occludin. Also, PBMCs were not susceptible to infection with HCVpp and HCVcc expressing glycoproteins of hepatotropic strains. Infection by a supposedly lymphotropic strain (SB) was found to be inefficient. The second aim was to identify in vitro immunomodulatory effects of HCV on innate immune cells that may impact on the immune response activated in acute infection. Crosslinking of CD81 on NK cells by antibody was found to have a minor inhibitory effect on their activation via CD16, but CD81 crosslinking by viral particles had no detectable effect. In contrast to other viruses, HCVcc elicited very little interferon-α production by pDC. HCVcc also did not affect pDC or mDC responses to TLR ligation. Systemic cytokine and chemokine responses were analysed in subjects with primary acute HCV infection and in HCV-infected patients undergoing liver transplantation (LT). Interestingly, induction of systemic type I and type III interferon was not observed in either group. Marked perturbations in systemic cytokine and chemokine levels were detected in uninfected LT patients, precluding use of HCV-infected LT patients to study the innate immune response activated in response to acute viral replication. Together, these results suggest that HCV may principally evade innate immune cell responses by avoidance rather than impairment strategies. 616.3623
78	Etude des cellules NK au cours des infections par le virus du Chikungunya et le virus de la Dengue / Implication of Natural Killer cells in Chikungunya and Dengue infections Petitdemange, Caroline 16 May 2014 (has links) Les virus du Chikungunya (CHIKV) et de la dengue (DENV) sont deux virus émergents qui sévissent dans les régions tropicales et subtropicales du monde entier et qui sont transmis par les moustiques du genre Aedes. Ces dernières années, leur transmission a surtout progressé dans les zones urbaines et périurbaines touchant des millions d’individus et faisant de ces deux pathogènes des sujets majeurs de préoccupation pour la santé publique. Le Chikungunya et la Dengue sont des infections dites aiguës entrainant une mise en place rapide de la réponse immunitaire innée qui joue un rôle majeur dans le contrôle et l’évolution de la maladie. Les cellules Natural Killer (NK) représentent une population cellulaire clé de la réponse innée et jouent un rôle crucial dans les mécanismes de défense mis en place. A travers une étude ex vivo et in vitro, nous nous sommes intéressées à la caractérisation des cellules NK à travers (i) une étude phénotypique et fonctionnelle des cellules NK chez des patients infectés en phase aiguë par le CHIKV, DENV-2 ou par les deux virus et (ii) à la caractérisation des interactions entre les cellules NK et les cellules cibles infectées par le virus. L’ensemble de ces données contribue à mieux identifier l’implication des cellules NK dans le contrôle des infections par le CHIKV et DENV-2 permettant ainsi de mieux comprendre les mécanismes à l’origine des dérèglements de la réponse immunitaire. Au cours des dernières épidémies, plusieurs cas de patients coinfectés par les deux virus ont été répertoriés. De plus, l’expansion géographique des moustiques Aedes pourrait amener à une augmentation du nombre de cas de coinfections sans que les mécanismes sous jacents aux coinfections ne soient étudiés. Afin de pouvoir réponse à certaines questions concernant ce phénomène, nous avons mis en place un modèle expérimental de coinfection par CHIKV et DENV-2 chez le macaque Rhésus. / Chikungunya (CHIKV) and Dengue (DENV) virus are both re-emerging viruses transmitted by Aedes mosquitoes and responsible of widespread outbreaks in tropical and subtropical country. Recently, transmission of both viruses had emerged in urban and peri-urban area infecting millions of persons. Chikungunya and Dengue are both acute infections where innate immunity rapidly takes place and play a crucial role in the control and in the evolution of the disease. Natural Killer cells (NK) represent one of the major cellular population of innate immunity and play a crucial role in defense mechanism. By way of ex vivo and in vitro studies, we characterized NK cells by (i) a phenotypic and functional study of NK cells in CHIKV, DENV-2 infected patients or CHIKV/DENV-2 co-infected patients and (ii) characterization of NK cells interactions with infected target cells. During last outbreaks, several cases of co-infected patients were reported. Moreover, geographic spread of Aedes mosquitoes could increase number of coinfection cases without underlying mechanisms being explored. In order to respond to certain questions regarding coinfections, we realized a co-infected CHIKV and DENV-2 experimental model in Rhesus macaques.Together, these data will contribute to better identify NK cells implication in the control of CHIKV and DENV-2 infections allowing a better comprehension of mechanisms that causes immune system disorder. Immunité innée Cellules Natural Killer Infections virales aigues Chikungunya Dengue Coinfection Innate immunity Natural Killer cells 579.2
79	Implication des cellules NK au cours des maladies auto-immunes / Implication of NK cells in auto-immune diseases Hervier, Baptiste 02 July 2014 (has links) Les maladies auto-immunes (MAI) correspondent à un large ensemble de pathologies cliniquement hétérogènes, affectant le plus souvent des adultes jeunes, de façon volontiers chronique. Du point de vue physiopathologique, ces maladies correspondent à la survenue d’une rupture de tolérance au soi, dont les mécanismes sont complexes et font appel à l’ensemble des acteurs du système immunitaire. Si l’implication des cellules de l’immunité adaptative est largement documentée dans ce contexte, celle des cellules appartenant à l’immunité innée, comme les cellules Natural Killer (NK) est peu étudié. A travers deux exemples de MAI systémiques, le Lupus Systémique (LS) et le Syndrome des Antisynthétases (SAS), l’objet de ce travail est de montrer l’implication des cellules NK au cours des MAI et d’étudier les mécanismes en cause.L’étude phénotypique et fonctionnelle des cellules NK chez des patients présentant une MAI révèle de nombreuses anomalies comparativement aux sujets contrôles. Ces dernières sont plus marquées chez les patients en phase active plutôt qu’en rémission. De plus, l’infiltration des tissus cibles au cours du SAS par les cellules NK d’une part, et l’activation in vitro de ces cellules par les auto-antigènes au cours du LS d’autre part, confirme l’implication des cellules NK au cours de ces deux MAI. Par ailleurs, des interactions des cellules NK avec plusieurs types cellulaires impliqués dans l’immunopathologie de ces maladies semblent conditionner les anomalies observées. Ces dernières sont différentes selon la maladie étudiée : le profil des cellules NK des patients atteints de LS étant plutôt immature et tourné vers la production de cytokines, tandis que celui des patients atteints de SAS correspond à un stade de différentiation terminal mais hypofonctionnel.L’ensemble des résultats suggère que les cellules NK participent à l’immunopathologie des MAI. Leur implication est conditionnée par l’effet de certains stimuli et certaines interactions cellulaires, qui sont de nature différente d’une MAI à l’autre. / Auto-immune diseases (AID) form a broad spectrum of heterogeneous and chronic pathologies, most commonly affecting young adults. The etiopathogenesis of AID corresponds to a breakdown of the immunological tolerance: the result of complex mechanisms, implicating every component of the immune system. While adaptive immune cells has been extensively studied in this context, the role of innate immune cells, including Natural Killer (NK) cells, is much less understood. Using Systemic Lupus Erythematosus (SLE) and Antisynthetase Syndrome (ASS) as model pathologies, the main objective of this work is to demonstrate the involvement of NK cells in AID and to study the relevant mechanisms. Patients with AID showed numerous anomalies in the phenotypical and functional analysis of their NK cells, as compared to healthy controls. These differences are more pronounced in active rather than inactive patients. Moreover, the infiltration of target tissues by NK cells in ASS as well as the activation of these cells by SLE specific auto-antigens confirm the involvement of NK cells in AID. Additionally, interactions of NK cells with different immune cells, known to be involved in AID pathogenesis, seem to be the cause of the observed anomalies. These anomalies differ among both AID: NK cells from patients with SLE are immature and devoted to cytokine production, whereas those from patients with ASS have reached a highly differentiated but hypofunctional stage. Taken as a whole, these data suggest that NK cells are involved in the immuno-pathogenesis of AID. This involvement seems conditioned by the effect of different stimuli and different cellular interactions, which are distinct from one form of AID to another. Maladies auto-immunes Immunité innée Cellules NK Lupus systémique Myosites Syndrome des antisynthétases Auto-immune diseases Natural Killer cells 570
80	Identificação dos mecanismos de regulação das células Natural Killer pelo fator de transcrição C/EBPG (CCAAT/enhancer binding protein gamma) / Identification of Natural Killer cells regulation mechanisms by the transcription factor C/EBPG (CCAAT/enhancer binding protein gamma) Lopes, Izabela Aparecida 05 July 2018 (has links) Os C/EBP (CCAAT/enhancer-binding proteins) são uma família de fatores de transcrição implicados numa variedade de processos da hematopoese, regulando tanto a diferenciação terminal como a proliferação celular. Dentre estes, sabe-se que o C/EBP gamma (C/EBPG) está envolvido na maturação funcional de células Natural Killer (NK). Entretanto, os mediadores dessa regulação não são conhecidos. As células NK são linfócitos com funções efetoras de citotoxicidade e de produção de citocinas, dependentes de um equilíbrio dinâmico entre a expressão de receptores ativatórios e inibitórios bem como de receptores de citocinas. As duas funções (citotóxica e secretora), fazem das células NK importantes componentes da hematopoese, capazes de eliminar alvos susceptíveis bem como de recrutar outras células e amplificar a resposta inflamatória. Diante de incompatibilidade entre as células-alvo e células NK efetoras, os efeitos citotóxicos preponderam; enquanto na ausência de incompatibilidade, os efeitos mediados por citocinas sobre as demais células hematopoéticas se sobressaem. Por exemplo, citocinas como IFN?, TNF?, TGF?, GM-CSF e IL-10, produzidas por células NK, são potenciais reguladoras da função das células-tronco hematopoéticas (CTH). Com o objetivo de estudar a regulação das células NK pelo C/EBPG, utilizamos células NK isoladas de animais transgênicos knockout (KO) para o C/ebpg e seus controles para analisar sua expressão gênica e função diferencial, com especial foco nos genes-alvo com potencial para regulação da hematopoese. Visando identificar potenciais genes-alvo do C/EBPG, isolamos células NK deficientes para o C/ebpg e controles, por meio de sorting, e realizamos posterior isolamento do RNA seguido de análise de expressão gênica em larga escala. A validação da expressão diferencial dos genes-alvo do C/ebpg, de interesse para a função secretória das células NK, foi realizada por PCR em Tempo Real para oito genes diferencialmente expressos na análise de expressão gênica em larga escala, a saber: Il-10, Gmcsf, Ifng, Tnfa, Tgfb, Tlr4, Myd88 e Irak4. Os dados referentes à expressão basal e estimulada com IL-2, destes genes em células NK de animais KO para o C/ebpg e seus controles, revelaram uma tendência ao aumento da expressão de Myd88 nos animais KO quando comparados aos controles. Foram verificados os níveis das citocinas IL-2, IL-4, IL-6, IL-10, IL-17A, TNF? and IFN? por meio de citometria de fluxo, utilizando o sobrenadante da cultura de NK de ambos os animais, observando-se que, após a ativação com IL-2, a produção de IFN? mostrou-se diminuída em células NKdeficientes para o C/ebpg em comparação aos controles. Para caracterizar as células NK Cebpg-deficientes, analisamos a sua frequência (células linhagem-/CD3- /NK1.1+) e expressão dos receptores NKG2D, Ly49D e NKG2A, não sendo observadas diferenças numéricas ou de expressão de receptores entre células NK deficientes ou não para o C/ebpg. Os subtipos funcionais destas células foram caracterizados de acordo com a expressão de CD27 e CD11b, que permitem identificar as subpopulações de células NK imaturas secretórias, secretórias, citotóxicas e tolerantes. Os animais KO mostraram maior percentagem de células secretórias e redução percentual e numérica de células citotóxicas quando comparadas às células NK dos controles. Para demonstrar a deficiência funcional realizamos um ensaio de ativação de células. Em concordância, após a coincubação de esplenócitos totais com células YAC-1, o ensaio de detecção do CD107 revelou que as células dos animais KO para o C/ebpg são cinco vezes menos ativadas do que células NK controles. Ademais, foi realizado um ensaio de citotoxicidade por citometria de fluxo utilizando o CTO (Cell Tracker Orange) como sonda fluorescente, o qual se incorpora às células-alvo da linhagem YAC-1. Como resultado, para a razão 10:1 NK: células-alvo, as células NK C/ebpg KO foram menos citotóxicas do que as células NK dos controles. Concluímos que as células NK de animais transgênicos KO para o C/ebpg têm função deficiente, menor potencial citotóxico e expressão de genes e citocinas alteradas em relação aos seus controles. Os mediadores apontados, em especial, o IFN?, são alvos importantes para a regulação da função secretória das células NK. / C/EBP (CCAAT/enhance-binding proteins) are a family of transcription factors involved in a variety of hematopoietic processes, regulating both terminal differentiation and cellular proliferation. Among these, it is known that C/EBP gamma (C/EBPG) is involved in the functional maturation of Natural Killer (NK) cells. However, the mediators of this regulation are unknown. NK cells are lymphocytes with effector functions of cytotoxicity and production of cytokines, both dependent on a dynamic equilibrium between the expression of activating and inhibitory receptors as well as cytokine receptors. The two functions (cytotoxic and secretory) make NK cells important components of hematopoiesis, able to eliminate susceptible targets as well as recruit other cells to amplify inflammatory responses. In face of incompatibility between target cells and NK effector cells, cytotoxic effects predominate; while in the absence of incompatibility, cytokine-mediated effects that influence other hematopoietic cells prevail. For example, cytokines such as IFN?, TNF?, TGF?, GMCSF and IL-10, produced by NK cells, are potential regulators of hematopoietic stem cells (HSC). With the aim of studying the regulation of NK cells by C/EBPG, we isolated NK cells from transgenic C/ebpg knockout (KO) animals and controls to analyze their differential gene expression and function, with a special focus on hematopoiesis regulation. In order to identify potential C/EBPG target genes, we isolated C/ebpg-deficient and control NK cells by the use of sorting by flow cytometry and isolated RNA for gene expression analysis. Differential expression of C/ebpg target genes was performed by Real-time PCR for eight genes differentially expressed in the microarray analysis: Il-10, Gmcsf, Ifng, Tnfa, Tgfb, Tlr4, Myd88 e Irak4. When compared to controls, non-activated and IL-2-stimulated C/ebpg KO NK cells presented a tendency to have higher expression of Myd88. Cytokine levels of IL-2, IL-4, IL-6, IL-10, IL-17?, TNF? and IFN?, obtained from NK culture supernatants, were verified by flow cytometry, after IL-2 activation. Among these cytokines, the production of IFN? by C/ebpg-deficient NK cells was found to be reduced. To further characterize NK cells, we analyzed their frequency (Lineage- /CD3-/NK1.1+ cells) and the expression of the receptors NKG2D, Ly49D and NKG2A, and both analyses presented similar expression between control or C/epbg KO NK cells. The functional subtypes of these cells were characterized according to the expression of CD27 and CD11b, which allow the identification of NK subpopulationsas immature secretory, mature secretory, cytotoxic or tolerant. The KO animals showed higher percentage of secretory cells and percentual and numerical reduction of cytotoxic cells when compared to the NK control cells. In agreement, CD107a expression was 5-times lower in C/ebpg KO splenocytes than in control splenocytes after co-incubation with YAC-1 cells. In addition, a cytotoxicity assay by flow cytometry was performed. The fluorescent probe CTO (Cell Tracker Orange) was incorporated to YAC-1 cells, used as target cells. As a result, in the 10:1 NK:target cells ratio, C/ebp KO cells were less cytotoxic than NK control cells. We concluded that C/ebpg-deficient cells are dysfunctional, have a greater secretory potential and an altered expression of genes and cytokines as compared to their controls. The potential mediators revealed by our study, in particular, IFN?, may be important targets for the regulation of NK secretory function.

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