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181	Role of the inhibitory receptor LAIR-1 on NK cells in chronic hepatitis B Hansi, Navjyot Kaur January 2018 (has links) There are multiple immune mechanisms identified for persistence of hepatitis B virus (HBV) infection. This thesis considers the vital role that inhibitory receptors play in contributing to impairment of the adaptive immune system in chronic hepatitis B (CHB), and the potential role they play in the innate immune system, focusing on the inhibitory receptor leucocyte-associated immunoglobulin-like receptor (LAIR)-1. The unique aspect of this work is that for the first time LAIR-1 expression has been investigated on natural killer (NK) cells in CHB. Our striking findings of increased LAIR-1 expression on peripheral NK cells in CHB and an inverse correlation between expression and effector function suggest this inhibitory receptor could have a potential role in exhaustion of NK cells in CHB. We therefore additionally explored the expression of LAIR-1 on circulating NK cells from patients with hepatocellular carcinoma (HCC) and non-alcoholic fatty liver disease (NAFLD). The particular relevance of LAIR-1 to liver disease is that one of its major ligands is collagen. We demonstrated a downregulation of LAIR-1 expression on intrahepatic NK cells, which we postulate might occur following repetitive engagement with abundant collagen within the liver. In line with this, intrahepatic NK cells with a liver-resident (CXCR6+) phenotype had even lower LAIR-1 expression than liver infiltrating (non-resident, CXCR6-) NK cells. Furthermore, preliminary experiments display attenuation of the cytotoxic degranulation capacity (CD107a) by circulating NK cells from CHB patients upon exposure to plate-bound collagen. We demonstrate differential expression of LAIR-1 on NK cells in viral hepatitis, HCC and NAFLD and between peripheral and intrahepatic NK cells. Preliminary experiments demonstrate a role in inhibiting NK cell function suggesting this as a novel therapeutic target to harness the capacity of NK cells to control chronic infection and cancer.
182	Análise de polimorfismos dos genes KIR e HLA classe I em pacientes com câncer colorretal Silva, Pamela Portela da January 2016 (has links) O câncer colorretal (CCR) pode ocorrer em qualquer parte do cólon ou do reto e representa o terceiro câncer mais comum no mundo em ambos os sexos. As células Natural Killer (NK) fazem parte do sistema imune inato reconhecendo moléculas de HLA de classe I em células alvo, através de seus receptores de membrana killer cell immunoglobulin-like receptors (KIR). O objetivo deste estudo foi avaliar a associação entre os genes KIR e os ligantes HLA em pacientes com câncer colorretal e controles saudáveis. Examinamos o polimorfismo de 16 genes KIR e seus ligantes HLA em 154 pacientes caucasóides com CCR e 216 controles saudáveis pela técnica de PCR-SSO e PCR-SSP. Quando comparamos os dois grupos, não foram encontradas diferenças significativas para os ligantes HLA e os genes KIR após correção de Bonferroni. Entretanto, o grupo de genótipos Bx (heterozigoto e homozigoto para o haplótipo B) foi mais frequente nos controles, quando comparados com os pacientes. Estes achados sugerem que altos níveis de ativação de sinais KIR aparecem como proteção para o câncer colorretal. / Colorectal cancer (CRC) can occur anywhere in the colon or rectum and represents the third most common cancer in the world in both sexes. Natural killer cells (NK) are part of the innate immune system recognizing class I HLA molecules on target cells through their membrane receptors, called killer cell immunoglobulin-like receptors (KIR). The aim of our study was to evaluate the association between the KIR genes and HLA ligands in patients with colorectal cancer and healthy controls. We examined the polymorphism of 16 KIR genes and their HLA ligands in 154 caucasoid CRC patients and 216 healthy controls by PCR-SSO and PCR-SSP. When both groups were compared, no significant differences were found for HLA ligands and KIR genes after Bonferroni correction. However, the Bx group genotypes (heterozygous and homozygous for the haplotype B) were more frequent in controls, when compared with patients. These findings suggest that individuals with Bx genotypes could have some protection to colorectal cancer. These findings suggest that higher levels of activating KIR signals appear as protective to colorectal cancer. Antígenos HLA Receptores KIR Neoplasias colorretais Human leukocyte antigen Natural killer cell Killer cell immunoglobulin-like receptor Colorectal cancer
183	Estudos sobre o isolamento e expansão de células Natural Killer (NK) do sangue de cordão umbilical e placentário na presença de células mesenquimais Furlan, Juliana Monteiro January 2016 (has links) Introdução: A célula NK possui uma importante função no sistema imune inato de defesa primária contra vírus e patógenos e também realiza a imunovigilâcia tumoral. Muitos estudos clínicos tem avaliado o uso dessas células na imunoterapia adotiva. A expansão e a ativação da célula NK requer sinais e estímulos para manter a sua sobrevivência. Atualmente existem muitos protocolos para a expansão e ativação da célula NK, porém não existe uma definição do melhor método para uso clínico. Objetivo: O estudo tem como objetivo avaliar a melhor forma para expansão das células NK isoladas de células mononucleares do sangue de cordão umbilical e placentário.Método: Foram avaliadas cinco diferentes condições para expansão de células NK de mononucleares isoladas do sangue do cordão umbilical e placentário. Foram testados protocolos utilizando as interleucinas (IL), IL-2, IL-3, IL-15; com ou sem a presença do co-cultivo com células-tronco mesenquimais do cordão umbilical (CTM-CU) e, também o co-cultivo com células apresentadoras de antígeno artificiais ligadas a IL-21 à membrana (mbIL21 APC). Resultados: Os protocolos utilizando co-cultivo com APC mbIL21 foram superiores aos demais quanto à capacidade de expansão de células NK (CD3-, CD56+, CD16+). O protocolo de co-cultura de APC, CTM-CU e estímulo com IL-2 apresentaram um aumento significativo de NK (CD3-, CD56+, CD16+) quando comparado ao protocolo de APC/IL-2 sem CTM-CU (p<0,05). Conclusão: A expansão ex vivo de células NK na presença das APC e CTM-CU apresentaram uma proporção estatisticamente superior de célula NK CD16+ quando comparada com condições de cultivo com apenas a APC, tendo essas células NK potencial para utilização na imunoterapia adotiva associada com anticorpos monoclonais ou anticorpos bi-específicos. / Background: Natural killer (NK) cells play a major role in innate immunity, especially against viral pathogens, and are also a part of the immune surveillance of tumors. Several clinical trials have evaluated the use of these cells for adoptive cell immunotherapy. Ex vivo expansion of NK cells, however, is a complex process which requires multiple cell signals to ensure cell survival, proliferation, and activation. There are many protocols used for NK cell expansion and activation, however, there is a lack of evidence regarding which method is the most effective for clinical grade NK cells expansion. Objective: The main purpose of this study is to evaluate an optimal protocol for the ex vivo expansion of NK cells isolated from umbilical cord blood mononuclear cells (CB-MNC). Methods: Five different conditions for the expansion of umbilical cord-derived NK cells were evaluated. Each protocol was a different combination of interleukins (IL-2, IL-3, and IL-15) with or without the presence of feeder cells or artificial antigen presenting cells (aAPCs). Feeder cells utilized were umbilical cord-derived mesenchymal stem cells (UC-MSC), and aAPCs were membrane-bound IL-21 artificial APCs (mbIL21 aAPCs). Results: Protocols employing mbIL21 aAPCs demonstrated greater expansion of natural killer cells (CD3- CD56+) than the other protocols. The protocol employing aAPCs, IL-2 and UC-MSC feeder cells had a statistically significant higher proportion of CD16+ NK cells when compared to the protocol without the MSC feeder cells, but there was no significant difference in the expansion of total natural killer cells concerning these two protocols. Conclusion: Ex vivo expansion of NK cells in the presence of aAPCs and UC-MSC feeder cells yielded a significant higher proportion of CD16+ NK when compared to the aAPCs only culture condition, and could be a better product for NK adoptive immunotherapy in conjunction with monoclonal or bi-specific antibodies. Células matadoras naturais Sangue fetal Células-tronco mesenquimais Imunoterapia Natural killer cell Umbilical cord blood Mesenchymal stem cells Immunotherapy
184	The Multifaceted Contribution of Natural Killer Cells During Herpes Simplex Type-1 Viral Infection. Woolard, Stacie N 08 May 2010 (has links) Natural killer (NK) cells are non-specific killer cells of the innate immune system that eliminate target cells based on discrimination between self and non-self. Activation is carefully regulated through integration of signals received through both activating and inhibitory receptors. During the course of a herpes simplex virus type-1 (HSV-1) infection, NK cells can influence host susceptibility to infection with severe infections occurring in individuals with genetic defects in the NK cell response. In response to HSV infection, NK cells are recruited to the inflammatory tissue where ensuing reciprocal interactions with accessory cells and proinflammatory cytokines induce NK cell activation, cytolytic activity, and cytokine production, contributing to innate immune response and ultimately influencing the adaptive immune response. The objective of this study was to elucidate the multiple roles of NK cells during the numerous steps in anti-HSV immune induction. Accordingly, we have demonstrated that NK cells are novel helpers that assist and influence an anti-HSV immune response via the secretion of cytokines that enhance HSV-specific CD8+ T cell effector function and cytokine production. Taken together, data from this study presented the critical importance of NK cells in mounting an essential and efficient anti-HSV immunity. The key findings of our study were: 1. In the absence of NK cells, dendritic cells have decreased capacity to prime HSV-specific T cells. 2. HSV infected NK cells can be directly activated via toll-like receptor (TLR) in a MyD88-dependent mechanism; however, interaction with HSV infected dendritic cells yields optimal NK cell activation and function (CD69 and IFNγ). 3. TRAIL-expressing NK cells eliminate antigen-bearing immature dermal DCs (CD11c+CD8α-DR5+), that migrate to draining lymphoid organs, to facilitate antigen transfer to lymphoid resident CD8α+ DC for T cell cross priming. 4. 'Helpless' CD8+ T cell function, generated in the absence of CD4+ T cells, can be partially restored to wild-type levels by NK cell supplementation. 5. Treatment of NK cells with anti-CD69 antibody results in a heightened NK activated state and augments the adaptive immune response, without increasing NK cell numbers. These findings may contribute to the potential revelation of avenues to manipulate NK cells for anti-viral therapies. CD8+ T cells Dendritic cells Natural Killer cells Herpes Simplex Virus-1 Medical Immunology Medical Sciences Medicine and Health Sciences
185	The Innate Immune Response to Vaccinia Viral Infection Martinez, Jennifer Ashley January 2010 (has links) <p>Vaccinia virus (VV) is the most thoroughly studied member of the Poxviridae family and the vaccine used to achieve the only successful eradication of a human disease. Over the years, it has proven itself as a useful tool for the study of antiviral immunity, vaccine development, and potentially cancer immunotherapy. VV is capable of eliciting a robust immune response; however the mechanisms by which VV accomplishes this task remain unknown. The overall goal of this thesis project is to determine how VV activates the innate immune system, and how this activation contributes to viral clearance in vivo. We determined that VV or VV-DNA activated the TLR8-MyD88 pathway in plasmacytoid dendritic cells (pDC), resulting in the production of type I interferons (IFN). We also demonstrated that TLR8-mediated production of type I IFN by pDC was crucial to efficient VV control and clearance in vivo. Moreover, we identified the polyA- and polyT-rich sequences in VV-DNA was the possible motif recognize by TLR8. Type I IFN, known for ability to establish the "antiviral state", are also critical mediators of NK cell activation. In the setting of VV infection, we demonstrated that direct action of type I IFN on NK cells, but not accessory cells such as DC, was necessary for NK cell activation in vivo. We further demonstrated that type I IFN-dependent activation of NK cells was required for optimal VV clearance in vivo. Given the importance of NK cells in anti-VV innate immunity, we next examined what role the TLR2-MyD88 pathway, critical for activation of cDC, played in the activation of NK cells. NK cells from TLR2-/- or MyD88-/- mice displayed a reduction in activation and cytolytic function, and this defect was independent of pro-inflammatory cytokine signaling. We were able to demonstrate that direct TLR2 signaling on NK cells was required for their optimal activation and function in response to VV infection. Moreover, we were able to demonstrate that TLR2-MyD88 signaling resulted in the activation of the PI3K-ERK pathway, which was necessary for NK cell cytotoxicity. In addition, we identified the NKG2D pathway as critical for efficient NK cell activation and function in response to VV infection, independent of the TLR2 pathway. Both the NKG2D and TLR2 pathways were crucial for optimal VV clearance and control in vivo. Collectively, this project illuminates the roles and mechanisms of the innate immune system in the control of VV in vivo.</p> / Dissertation Health Sciences, Immunology Biology, Cell Biology, Virology Innate immunity Interferon Natural killer cell plasmacytoid dendritic cell Toll-like receptor Vaccinia
186	Lymphocyte Contributions to Local and Systemic Cardiovascular Regulation in Mouse Pregnancy Burke, Suzanne Diana 02 September 2010 (has links) Healthy term pregnancy requires precisely timed coordination of multiple systems, including reproductive, neuroendocrine, immune and cardiovascular. Dynamic maternal alterations occur systemically as well as locally within the reproductive tract. Systemic cardiovascular changes during gestation are relatively conserved in mammals, permitting comparison. These physiological changes are relatively acute and reversible, in contrast to the pathological changes seen during cardiovascular disease development. Gestational hypertensive disorders, such as preeclampsia, are the leading causes of maternal and fetal morbidity and mortality. The pathogenesis of preeclampsia is not fully elucidated, but perturbation of the immune system is a fundamental component. The angiogenic and vascular properties of uterine NK lymphocytes have been well studied in mice and women, but their relationships to gestational blood pressure regulation and cardiovascular adaptations have not been addressed. In non-pregnant women and mice, T cells, but not B cells, have been found to alter cardiovascular functioning. NK cells in humans also possess these capabilities, but no functional studies have been completed. The aim of this thesis was to define the role of NK and T lymphocytes in cardiovascular adaptations during mouse gestation. Using chronic radiotelemetry, histology, post-mortem and other techniques, female inbred mice of differing genotypes that lack specific lymphocyte subsets were compared before and across gestation. In normal, immune competent mice, a five-phase gestational blood pressure profile was found. This dynamic profile corresponded to stages of placental development. In mice with a compound deficit in arterial modification and lymphocytes, no gestational hypertension was observed. To elevate the maternal challenge of pregnancy, studies of pregnant, autoimmune Type 1 Diabetic mice were conducted. Impaired spiral artery remodeling, dysfunctional lymphocytes and growth-restricted fetuses were identified. From mid-gestation, diabetic pregnant mice were hypotensive and bradycardic and showed signs of pre-renal failure (proteinuria and electrolyte imbalances). In pregnant mice lacking T cells, tachycardia was observed despite otherwise normal gestational outcomes. In pregnant mice lacking T cells with impaired NK cells, blood pressure was blunted and tachycardia was observed. These findings support the conclusion that impaired spiral artery remodeling is insufficient to cause gestational hypertension in mice. The data further identify a role for T and NK cells in cardiac function during gestation. / Thesis (Ph.D, Anatomy & Cell Biology) -- Queen's University, 2010-09-01 20:56:15.648 Immunology Lymphocytes Radiotelemetry Blood Pressure Type 1 Diabetes Genetically modified mice Pregnancy Uterine natural killer cells Vascular remodeling
187	Etude des cellules NK au cours des infections par le virus du Chikungunya et le virus de la Dengue Petitdemange, Caroline 16 May 2014 (has links) (PDF) 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. [SDV:IMM] Life Sciences/Immunology [SDV:IMM] Sciences du Vivant/Immunologie Immunité innée Cellules Natural Killer Infections virales aigues Chikungunya Dengue Coinfection
188	Activation des cellules Natural Killer par les endocannabinoïdes Anandamide et 2-Arachidonoyl-glycérol Bouachour, Thomas 21 September 2012 (has links) (PDF) Les endocannabinoïdes, anandamide (AEA) et 2-arachidonoylglycérol (2-AG), appartiennent au système endocannabinoïde et sont impliqués dans la régulation de nombreux systèmes biologiques. Ils ont un rôle dans la modulation du système immunitaire et la défense anti-tumorale. Dans cette étude, nous avons montré que l'AEA et le 2-AG peuvent moduler l'activation des cellules Natural Killer CD56 + CD3- (NK) et des cellules NK92. A de faibles doses, ils potentialisent la production d'IFN γ induite par des doses suboptimales d'IL-12, d'IL-15 et d'IL-2. En outre, l'AEA et le 2-AG potentialisent la cytotoxicité des cellules NK. Des expériences de quantification des transcrits codant FasL, TRAIL, perforine et granzyme et des expériences d'inhibition indiquent que cette augmentation de la cytotoxicité est corrélée à une augmentation de l'expression de FasL, tandis que la production de granzyme, de perforine et l'expression TRAIL reste inchangées. Les effets des endocannabinoides sur les cellules NK sont inhibés en présence d'un antagoniste du récepteur endocannabinoidien de type 2 (CB2). Ces travaux in vitro on été confirmés in vivo sur un model de tumeur murine. Les cellules NK murines stimulées ex-vivo par les endocannabinoides et réinjectées en intra-tumoral, induisent un ralentissement significatif de la croissance tumorale Ces résultats montrent pour la première fois que les endocannabinoïdes AEA et 2-AG utilisées à faible dose sont impliqués dans la modulation des activités régulatrices (objectivée par la production d'IFN γ) et cytotoxiques des cellules NK. [SDV:IMM] Life Sciences/Immunology [SDV:IMM] Sciences du Vivant/Immunologie Endocannabinoides Anandamide 2-arachidonoyl-glycérol Natural killer cytotoxicité FasL
189	Ultrasound-assisted Interactions of Natural Killer Cells with Cancer Cells and Solid Tumors Christakou, Athanasia January 2014 (has links) In this Thesis, we have developed a microtechnology-based method for culturing and visualizing high numbers of individual cells and cell-cell interactions over extended periods of time. The foundation of the device is a silicon-glass multiwell microplate (also referred as microchip) directly compatible with fluorescence microscopy. The initial microchip design involved thousands of square wells of sizes up to 80 µm, for screening large numbers of cell-cell interactions at the single cell level. Biocompatibility and confinement tests proved the feasibility of the idea, and further investigation showed the conservation of immune cellular processes within the wells. Although the system is very reliable for screening, limitations related to synchronization of the interaction events, and the inability to maintain conjugations for long time periods, led to the development of a novel ultrasonic manipulation multiwell microdevice. The main components of the ultrasonic device is a 100-well silicon-glass microchip and an ultrasonic transducer. The transducer is used for ultrasonic actuation on the chip with a frequency causing half-wave resonances in each of the wells (2.0-2.5 MHz for wells with sizes 300-350 µm). Therefore, cells in suspension are directed by acoustic radiation forces towards a pressure node formed in the center of each well. This method allows simultaneous aggregation of cells in all wells and sustains cells confined within a small area for long time periods (even up to several days). The biological target of investigation in this Thesis is the natural killer (NK) cells and their functional properties. NK cells belong to the lymphatic group and they are important factors for host defense and immune regulation. They are characterized by the ability to interact with virus infected cells and cancer cells upon contact, and under suitable conditions they can induce target cell death. We have utilized the ultrasonic microdevice to induce NK-target cell interactions at the single cell level. Our results confirm a heterogeneity within IL-2 activated NK cell populations, with some cells being inactive, while others are capable to kill quickly and in a consecutive manner. Furthermore, we have integrated the ultrasonic microdevice in a temperature regulation system that allows to actuate with high-voltage ultrasound, but still sustain the cell physiological temperature. Using this system we have been able to induce formation of up to 100 solid tumors (HepG2 cells) in parallel without using surface modification or hydrogels. Finally, we used the tumors as targets for investigating NK cells ability to infiltrate and kill solid tumors. To summarize, a method is presented for investigating individual NK cell behavior against target cells and solid tumors. Although we have utilized our technique to investigate NK cells, there is no limitation of the target of investigation. In the future, the device could be used for any type of cells where interactions at the single cell level can reveal critical information, but also to form solid tumors of primary cancer cells for toxicology studies. / <p>QC 20150113</p> Natural killer cell cytotoxicity heterogeneity multiwell microchip biocompatibility ultrasonic cell manipulation 3D cell culture solid tumor spheroid high-resolution imaging
190	Signaling in natural killer cells : SHIP, 2B4 and the Kinome Wahle, Joseph A. January 2007 (has links) Dissertation (Ph.D.)--University of South Florida, 2007. / Title from PDF of title page. Document formatted into pages; contains 147 pages. Includes vita. Includes bibliographical references.

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