Global ETD Search

71	Epstein-Barr virus latency in transplant patients and health carriers / Zou, JieZhi. January 2005 (has links) Lic.-avh. (sammanfattning) Stockholm : Karol. inst., 2005. / Härtill 3 uppsatser.
72	The role of secondary signaling in experimental autoimmune thyroiditis Peterson, Karin E. January 1998 (has links) Thesis (Ph. D.)--University of Missouri--Columbia, 1998. / Typescript. Vita. Includes bibliographical references (leaves: 190-217). Also available on the Internet.
73	T Cell Immunity and HIV-1 Replication in Vertically-Infected Infants and Children: A Dissertation Scott, Zachary Aaron 05 May 2003 (has links) Virus-specific cellular immune responses have been shown to be important in the control of viral replication in several animal and human virus models. Cells of both the CD8+ and CD4+T cell lineages have been shown to play protective roles during viral infections by exerting effector functions that can kill infected host cells or inhibit the production and spread of infectious virions. The continued spread of HIV-1 infection throughout the world, as well as the lack of a prophylactic HIV-1 vaccine have generated much interest in HIV-specific cellular immune responses. Recent technical advances have yielded a tremendous increase in our understanding of HIV-1-specific immunity, as well as HIV-1 replication dynamics and host cell factors that shape the course of acute and chronic infection. Unfortunately, due to small sample volumes and technological limitations, the study of HIV-1-specific T cell immunity in infants and children has been difficult. An improved understanding of the timing, specificity, and intensity of pediatric HIV-specific T cell responses would contribute to the development of a HIV-1 vaccine for use in regions of the developing world without access to antiretroviral therapeutics. In the small number of published studies investigating pediatric HIV-specific immunity, T cell responses were uncommonly detected in infants. It remains unclear, however, whether the lack of HIV-specific T cells is an accurate reflection of the in vivoimmune state in vertically-infected infants, or rather is a consequence of reagents and assays ill-suited to the detection of low-level and/or diverse T cell responses in pediatric subjects. In the present dissertation, several methodologies were used to investigate HIV-specific T cell responses in vertically-infected infants and children. HIV-specific CD8+ T cell responses were infrequently detected in a cohort of young infants, but are commonly detected in older infants and children. Interestingly, CMV-specific CD8+ T cell responses were detected in several young infants that lacked HIV-specific responses, suggesting a specific defect in the ability of some infants to generate HIV-specific CD8+ T cell responses. Further experiments characterizing detectable HIV-1-specific CD8+ T cell responses found that the HIV-1 accessory proteins may be important targets of the immune response during early vertical infection. The role of HLA class I genotype and viral sequence are also explored in a pair of vertically-infected twins with discordant CD8+T cell responses. Finally, viral isolates from an infant with a marked shift in gag-specific epitope usage during infancy are analyzed for the presence of escape mutations. Gag-specific CD4+ T cell responses were commonly detected in a large cohort of vertically-infected children. A linear relationship between HIV-1 replication and the presence and intensity of HIV-specific CD4+ T cell responses was found, but ongoing HIV-1 replication appeared to blunt CD4+T cell proliferation. The data presented in this dissertation describe pediatric T cell immune responses and how they relate to HIV-1 replication. This information may be useful to the design of a prophylactic or therapeutic HIV-1 vaccine for vertically-infected infants and children. CD4-Positive T-Lymphocytes Infant Child CD8-Positive T-Lymphocytes HIV-1 T-Lymphocytes Cells Environmental Public Health Hemic and Immune Systems Investigative Techniques Maternal and Child Health Therapeutics Viruses
74	Glycodelin-A As The Regulator Of CD8+ T-Lymphocyte Activity : Implications In Primate Pregnancy Soni, Chetna 07 1900 (has links) (PDF) The ability of our immune system to mount a response against non-self-antigens legitimates the semi-allogenic fetus as a target for maternal immune attack. Yet, in a normal pregnancy the fetus stays well protected due to the concerted action of several diverse mechanisms which either suppress the fetal allogenicity or spatio-temporally inhibit maternal immune cells’ growth and functions. One such factor which aids in the establishment, progression and maintenance of pregnancy is the 28 kDa dimeric sialylated glycoprotein Glycodelin-A (GdA). Synthesized by the endometrium and decidua, this protein has myriad functions, the most important being that of immunosuppression. GdA is inhibitory to all hematopoietic cells and also induces programmed cell death in activated T cells and monocytes via the intrinsic mitochondrial pathway. In the Introductory chapter of this thesis, details about GdA and the other isoforms of the glycodelin family of proteins have been presented which highlight the involvement of glycodelins in primate pregnancy, with emphasis on GdA and its pleiotropic functions associated with reproduction in females. Activated T-lymphocytes against paternal antigens are found in the uterine compartment and in the maternal circulation throughout pregnancy. Activated CD8+ T-lymphocytes have been reported to pre-dominate the uterine T-lymphocyte population during pregnancy and unlike the CD4+ T cells, are retained until term. Studies show that activated CD8+ T-lymphocytes are necessary for the establishment and progression of early pregnancy. However, how these lymphocytes harbouring cytotoxic activity are regulated at the later stages of pregnancy is poorly defined. We attempted to uncover a possible mechanism of regulation of CTL (cytotoxic T lymphocyte) activity (if any) during primate pregnancy by GdA. In the absence of established human CD8+ T cell lines, we first standardized the generation of CTLs in-vitro from hPBMCs (human peripheral blood mononuclear cells) by alloactivating them with an ovarian carcinoma cell line OVCAR-3 utilized as a mimic of an allograft. The details of the rationale behind using this method for generating CTLs and the alloactivation methodology have been put together in the Chapter 1 of this thesis. The activation of hPBMCs was confirmed by the surface expression of an early activation marker CD69 and tritiated thymidine incorporation. Differentiation of CD8+ T cells into effector cells was confirmed by the upregulation of perforin and granzyme transcripts by real time RT-PCR analysis. Target-cell specific cytolytic activity of the CTLs was assessed by using a cytotoxicity measurement assay- JAM test, details of which also form a part of chapter 1. Having generated effective CTLs in vitro, we tested the effect of GdA on CTL activity. Our findings, on the effect of GdA on CTLs have also been discussed in the Chapter 1. We observed that the cytolytic activity of CTLs was significantly reduced by GdA treatment albeit at a dose three to four times higher than that required for inhibiting CD8+ T cell proliferation, implying that a mechanism of temporal regulation of CTL activity operated at the feto-maternal interface, thereby contributing to the establishment and progression of pregnancy. Interestingly, in our quest to uncover the mechanism of inhibition of CTL activity by GdA, we found that the inhibition of proliferation was comparable in both CD4+ and CD8+ T-lymphocytes at all dosages of GdA, but unlike CD4 + T cells CD8 + T cells were resistant to GdA-induced apoptosis even at high dosage of GdA. Hence we could rule out that the loss of CTL activity upon GdA treatment was due to CD8+ T cell death. Further, we assessed the functional competence of alloactivated CTLs by quantitating the mRNA transcripts of key cytolytic molecules; perforin and granzyme B, in GdA treated alloactivated hPBMCs and found that there was a significant reduction in the mRNA of these cytolytic molecules. Additionally, we also found that GdA treated CD8+ T cells exhibited impaired release of the cytolytic molecules by the process of degranulation, measured by the surface exposure of LAMPs (Lysosome associated membrane proteins) on the surface of cells by flow cytometry and as seen by the retention of perforin protein in them assessed by intracellular staining and flow cytometry. Intrigued by the observations, we probed for the regulators of perforin and granzymes in CTLs. EOMES (Eomesodermin) and T- Bet are well known transcription factors which control the differentiation of CD8+ T cells into effector and memory cell CD8+ T cell type. Interestingly we found that the expression of EOMES was significantly reduced in activated GdA treated hPBMCs, both at the transcriptional and translational level, however T-Bet did not show any variation in expression upon GdA treatment. All the above findings have been compiled in Chapter 2 along with our studies on the possibility of GdA to induce a tolerogenic phenotype in T cells. We found there was no difference in the mRNA level and surface expression of CD103 and CD28 in alloactivated PBMCs, while FOXP3 mRNA did not show any variation upon GdA treatment, indicating that GdA does not induce a tolerogenic phenotype in T-lymphocytes, further confirming our data that the decreased cytolytic activity of CTLs upon GdA treatment was not due to tolerance but due to impaired function Interestingly, IL-2/IL-2R signaling is known to directly regulate perforin and granzyme expression as well as it plays a role in the expression of T-Bet and EOMES. Therefore, as a read out of IL-2 signaling we checked for the surface expression of the high affinity IL-2R subunit, CD25. As expected, CD25 expression was more pronounced in CD4+ T cells and consistent with published reports in literature that GdA suppresses IL-2 synthesis, we also observed a significant reduction in the CD25bright population in both the T cell subsets (CD4+ and CD8+) upon GdA treatment (addressed in Chapter 3). This finding supports a mechanism of action of GdA, wherein the cytolytic activity of CTLs is compromised by the downregulation of EOMES, triggered by the low IL-2 levels. This translates to aberrant synthesis of key cytolytic molecules perforin and granzyme B, leading to low efficiency CTLs, which are further disabled by defective degranulation machinery induced by GdA. We did not look into the mechanistic aspects of how GdA suppresses degranulation, which can be addressed later as a part of another study. Building up on our observations, and taking cues from existing literature, that IL-2 regulates the expression of pro and anti-apoptotic protein levels within activated cells, we looked at the expression profile of Bcl-2 (anti-apoptotic) and Bax (pro-apoptotic) in activated PBMCs upon GdA treatment. There was a significant reduction in the total mRNA and protein level of Bcl-2, while a very significant increase in Bax mRNA and protein was observed. Chapter 3 of the thesis also presents this data and explains a plausible mechanism of the inhibitory effect of GdA on T-lymphocytes. In Chapter 2, we have also addressed the probable reasons for the differences in the responses of CD4+ and CD8+ T-lymphocytes to GdA. Interestingly, surface glycan profile of CD4+ and CD8+ T-lymphocytes upon activation and the surface expression of the most probable receptor for GdA i.e. CD7 was comparable in both the T cell subsets, indicating that possibly the downstream signaling events leading to GdA-induced apoptosis and not the surface binding of GdA may vary in CD4+ and CD8+ T-lymphocytes, due to which we observed a difference in the extent of apoptosis induced in these cell types by GdA although the inhibition of proliferation in both the subsets was comparable. In summary, this study is the first to provide evidence for a possible mechanism of temporal regulation of CTL activity at the feto-maternal interface, where activated CD8+ T cells are abundantly present. We can say with much confidence that binding of GdA to T-lymphocytes causes sub-optimal IL-2 signaling which translates into reduced expression of EOMES and hence downregulation of perforin and granzyme B, leading to impaired CTL activity in CD8+ T-lymphocytes, which is further weakened by the impaired release of the cytolytic molecules from them. Insufficient IL-2 signaling in the presence of GdA can also be a cause of inhibition of proliferation in T-lymphocytes, while the resulting decrease in anti-apoptotic protein Bcl-2 and increase in pro-apoptotic protein Bax seem to contribute to the induction of apoptosis in CD4+ T cell. It will be interesting to explore the mediators involved in the IL-2 signaling pathway that are differentially regulated in CD4+ and CD8+ T cells which confer resistance in CD8+ T cells to GdA-induced apoptosis and also the mechanism by which GdA regulates the degranulation of cytolytic vesicles in CTLs needs to be worked out. Glycodelin-A Primate Pregnancy - CD8+ T-Lymphocytes Primate Pregnancy - Glycodelin A CD8+ T-Lymphocytes - Regulation Cytotoxic T-Lymphocyte (CTL) Glycodelins GdA T Lymphocytes Biochemistry
75	The Role of c-FLIP in the Regulation of Apoptosis, Necroptosis and Autophagy in T Lymphocytes He, Ming-Xiao January 2013 (has links) <p>To maintain homeostasis, T lymphocytes die through caspase–dependent apoptosis. However, blockage of caspase activity in T lymphocytes does not increase cell survival. The loss of caspase 8 activity leads to programmed necrosis (necroptosis) upon T cell receptor (TCR) stimulation in T lymphocytes. Necroptosis is correlated with excessive macroautophagy, an intracellular catabolic process characterized by the sequestration of cytoplasmic compartments through double–membrane vacuoles. Meanwhile, the proper induction of macroautophagy is required for T lymphocyte survival and function. Cellular caspase 8 (FLICE)–like inhibitory protein (c–FLIP) promotes survival in T lymphocytes. c–FLIP suppresses death receptor–induced apoptosis by modulating caspase 8 activation. Whether this modulation plays a role in the regulation of necroptosis has yet to be studied. Additionally, overexpression of c–FLIP reduces autophagy induction and promotes cell survival in cell lines. It remains unclear whether c–FLIP protects primary T lymphocytes by regulating the threshold at which autophagy occurs. In this study, c–FLIP isoform–specific conditional deletion models were used to study the role of c–FLIP in necroptosis and autophagy in primary T lymphocytes.</p><p>Our results showed that the long isoform of c–FLIP (c– FLIP<sub>L</sub>) regulates necroptosis by inhibiting receptor interacting protein 1 (RIP–1). Upon TCR stimulation, c–FLIP<sub>L</sub>–deficient T cells underwent RIP–1–dependent necroptosis. Interestingly, though previous studies have generally described necroptosis in the absence of caspase 8 activity and apoptosis, pro–apoptotic caspase 8 activity and the rate of apoptosis were also increased in c–FLIPL–deficient T lymphocytes. Moreover, c– FLIP<sub>L</sub>–deficient T cells exhibited enhanced autophagy, which served a cytoprotective function. </p><p>Apoptosis can be induced by either death receptors on the plasma membrane (extrinsic pathway), or the damage of the genome and/or cellular organelles (intrinsic pathway). Previous studies in c–FLIP–deficient T lymphocytes suggested that c–FLIP promotes cell survival in the absence of death receptor signals. Independent of death receptor signaling, mitochondria sense apoptotic stimuli and mediate the activation of caspases. Whether c–FLIP regulates mitochondrion–dependent apoptotic signaling remains unknown. Here, by deleting the <italic>c–Flip <italic> gene in mature T lymphocytes, we showed a role for c–FLIP in the intrinsic apoptosis pathway. In naïve T cells stimulated with the apoptosis inducer, c–FLIP suppressed cytochrome c release from mitochondria. Bim–deletion rescued the enhanced apoptosis in c–FLIP–deficient T cells, while inhibition of caspase 8 did not. Different from activated T cells, there were no signs of necroptosis in c–FLIP–deficient naïve T cells. Together, our findings indicate that c–FLIP is a key regulator of apoptosis, necroptosis and autophagy in T lymphocytes.</p> / Dissertation Immunology apoptosis autophagy c-FLIP Fas(CD95) necroptosis T lymphocytes
76	Natural and therapy-induced immune control of HIV-1 Yager, Nicole Leanne January 2011 (has links) The human immunodeficiency virus (HIV)-specific cytotoxic T-lymphocyte (CTL) response is important in the control of HIV-1 infection. Due to the virus having a high rate of mutation, immune pressure can select for variants that are no longer recognised by CTLs to dominate the viral quasispecies. This is similar to how antiretroviral resistance emerges. HIV-1 is therefore adapting to both human leukocyte antigen (HLA)-restricted immune responses and antiretroviral therapy. This thesis initially focused on the natural CTL response to an HLA-B51-restricted epitope in integrase. This HLA class I allele is associated with slow progression to AIDS; however, as no CTL-driven escape mutation has been fully defined within this integrase epitope, we cannot determine what contributes to the association of HLA-B51 and natural control of infection. By longitudinally studying a cohort of early HIV-infected individuals, we observed the emergence of polymorphisms that abrogate a CTL response to this epitope. CTL escape may also prove to be the downfall of current immunotherapy strategies attempting to combat HIV infection. T cell receptors (TCRs) have been genetically modified to enhance their binding affinity to an HLA-A*02-peptide complex and transduced into CD8+ cells to create an HIV adoptive therapy. We demonstrate through in vitro selection pressure assays that escape from these cells may be a difficult task for the virus given that the TCR is able to recognise the majority of variants of this epitope. Antigen processing mutations may represent the only option for escape. How this may translate clinically will only be determined through in vivo studies, which must be meticulously monitored. Finally, when this high affinity TCR was fused to an anti-CD3 single chain variable fragment to create proteins capable of redirecting non-HIV-specific CTLs to HIV-infected cells, we found that the result was specific lysis. These proteins may supersede the use of TCR-transduced cells when used in synergy with antiretroviral therapy. 616.9792
77	The role of mononuclear cells in tuberculosis Sussman, Garth 03 June 1992 (has links) Thesis presented in fulfilment of the requirements governing the degree of Philosophy in the School of Medicine, University of the Witwatersrand. Johannesburg / Sonicates derived from Mycobacterium tuberculosis suppressed lymphocytes proliferation. Pulsing of monocytes with mycobacterial sonicates resulted in the release of high molecular weight lipids. Both these lipids and those prepared by column fractionation of mycobacterial sonicates suppressed lymphocyte blastogenesis.This effect was due to the activation and not the proliferation of CD8+ lymphocytes by the lipid containing mycobacterial fractions of Mr>200kDa that could be obtained in vitro by column fractions. / IT2018 Cells Tuberculosis Mycobacterium tuberculosis CD8-Positive T-Lymphocytes
78	Influence de l'organisation latérale de la membrane sur l'activation lymphocytaire T / Influence of the lateral membrane organization on T cell activation Salles, Audrey 16 December 2010 (has links) Les rafts lipidiques sont des nanodomaines membranaires enrichis en cholestérol et en sphingolipides impliqués dans la régulation de la signalisation médiée par le TCR. Néanmoins l'existence et la fonction de ces domaines sont sujettes à controverse compte tenu des difficultés expérimentales pour les étudier in vivo. En utilisant des traitements non invasifs ciblant spécifiquement la voie de biosynthèse de ces lipides, nous avons étudié l'influence de l'organisation latérale de la membrane sur l'activation lymphocytaire T. Par des approches biophysiques, nous avons démontré au sein de lymphocytes T primaires CD4+, que les molécules TCR, CD4 et Lck sont constitutivement partitionnées dans les rafts lipidiques dont est exclue CD45. De plus, cette préorganisation moléculaire modifie les paramètres d'adhésion entre le TCR. Pour étudier le rôle de ces structures au sein de cellules individuelles, nous avons développé une nouvelle méthodologie permettant de détecter et d'analyser à haut débit et de manière automatique la réponse calcique des cellules T. Nous avons confirmé l'influence des rafts membranaires dans la signalisation TCR par les rafts lipidiques joue un rôle majeur dans l'initiation de la reconnaissance antigénique des cellules T. / Lipid rafts are membrane nanodomains enriched in chrolesterol and sphingolipids, which ahave previously been implanted in TCR signaling mechanisms. This contention, however, has beacome highly controversial due to experimental difficulties to study these membrane organizations in vivo. Using non invasive treatments that target specific lipid biosynthesis, we have studied the influence of lateral membrane organization in T lymphocyte activation. By using biophysical approaches, we have demonstrated that in murine CD4+Tcelles, TCR, CD4 and Lck are constitutively and dynamically trapped in lipid rafts, whereas CD45 is excluded. Moreover, this pre-organization impacts binding of TCR to the MHC II-peptide complex and controls the initiation of early TCR signaling. To investigate the role of these structures within individual live cells, we have developed a new high throughput methodology to monitor the calcium mobilization in T cells. We have confirmed the influence of membrane rafts in TCR signaling. Our results have thus demonstrated that pre-organization of TCR signaling protagonists by lipid rafts play a major role in the initiation of T cell antigen recognition Raft nanodomaines T lymphocytes Tcr Signaling Calcium Tracking Membran
79	The Roles of the Bcl-2 Family Proteins in T Lymphocyte Development and Homeostasis Dunkle, Alexis DeHaven January 2011 (has links) <p>Throughout their development in the thymus and during their maintenance and the immunological response in the periphery, T cells rely on the regulation of classical apoptotic pathways to promote cell survival or death. Several proteins of the Bcl-2 family have been shown to be critical in thymocyte and T cell survival and consequently, in T cell function. Among these proteins, the antiapoptotic proteins Bcl-2 and Mcl-1 are critical for promoting T cell survival at multiple stages of the T cell "life cycle." While these proteins have been reported to interact with several of the proapoptotic members of the Bcl-2 family, the specific interactions by which Mcl-1 in particular promotes T cell survival in vivo were not well understood. Further, how different stimuli (for example, cytokine signaling and T cell activation) modulate the specific functions of Mcl-1 had also not been thoroughly explored. </p><p>We utilized mouse models to dissect the roles of Mcl-1 at multiple stages of T cell development and function. We utilized conditional knockout and double knockout strategies to build genetic pathways for Mcl-1 activity during thymocyte development and in peripheral T cells under a variety of conditions. In the thymus, the major role of Mcl-1 is to inhibit the activity of proapoptotic Bak because the loss of Bak, but not the loss of Bax or Bim, rescued the survival of Mcl-1-deficient thymocytes at both the double negative and single positive stages. Further, we concluded that this role is not shared with Bcl-2 because overexpression of Bcl-2 did not rescue DN or SP survival. </p><p>In peripheral T cells, the loss of Bak rescued T cell survival in the presence of IL 7, but not during conditions of cytokine withdrawal. Interestingly, the overexpression of Bcl-2 or the loss of Bim partially rescued the survival of T cells during cytokine withdrawal, indicating that Mcl-1 has dual roles in T cells: cytokine-dependent and cytokine independent. Additionally, we found that cytokines of the common gamma chain family have different effects on the activity of Mcl-1 due to the differential regulation of other proteins of the Bcl-2 family, most notably Bim.</p><p>Finally, we utilized a Bcl-2 reporter mouse model to examine the role of Bcl-2 in the establishment of CD8+ T cell memory to infection. Although it is known that Bcl-2 is dynamically regulated in response to activation, the importance of this regulation in the establishment of T cell memory is not yet clear. We show that a subset of effector T cells within a previously defined memory precursor population retained high Bcl-2 expression at the peak of the immune response. Using adoptive transfer of sorted effector T cells, we provide preliminary evidence that the cells with memory potential lie within a strict range of Bcl-2 expression. These studies indicate that the regulation of Bcl 2 is likely critical in establishing T cell memory and provide a platform for the future study of the factors that influence T cell memory.</p> / Dissertation Immunology apoptosis Bcl-2 Mcl-1 T lymphocytes
80	The inverted CD4/CD8 ratio and associated parameters in 66-year-old individuals : the Swedish HEXA immune study Strindhall, Jan, Skog, Mårten, Ernerudh, Jan, Bengner, M, Lofgren, S, Matussek, A, Nilsson, B O., Wikby, A January 2013 (has links) The Swedish OCTO and NONA immune longitudinal studies were able to identify and confirm an immune risk profile (IRP) predictive of an increased 2-year mortality in very old individuals, 86–94 years of age. The IRP, was associated with persistent cytomegalovirus infection and characterized by inverted CD4/CD8 ratio and related to expansion of terminally differentiated effector memory T cells (TEMRA phenotype). In the present HEXA immune longitudinal study, we have examined a younger group of elderly individuals (n = 424, 66 years of age) in a population-based sample in the community of Jönköping, Sweden, to examine the relevance of findings previously demonstrated in the very old. Immunological monitoring that was conducted included T cell subsets and CMV-IgG and CMV-IgM serology. The result showed a prevalence of 15 % of individuals with an inverted CD4/CD8 ratio, which was associated with seropositivity to cytomegalovirus and increases in the level of TEMRA cells. The proportion of individuals with an inverted CD4/CD8 ratio was significantly higher in men whereas the numbers of CD3+CD4+ cells were significantly higher in women. In conclusion, these findings are very similar to those previously found by us in the Swedish longitudinal studies, suggesting that an immune profile previously identified in the very old also exists in the present sample of hexagenerians. Therefore, it will be important to examine clinical parameters, including morbidity and mortality, to assess whether the immune profile also is a risk profile associated with higher mortality in this sample of hexagenerians. / <p>Funding Agencies\|Medical Research Council of South-East Sweden\|\|</p> Immune profile Immunosenescence T-lymphocytes Age Gender MEDICINE MEDICIN

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