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Expression of the T cell regulatory molecule ICOS (CD278) and LICOS (CD275) on human blood cells
(2006)
Expression of the T cell regulatory molecule ICOS (CD278) and LICOS (CD275) on human blood cells Summary General bacterial infections, which can lead to the clinical picture of sepsis, are a major concern in intensive care units (ICU) and mortality remains high. Recent data have shown that, besides an overreaction of the immune system, also immunosuppression also plays a role in the pathogenesis of sepsis. Immunosuppression has been documented in patients with polytrauma, stroke and burn wounds, which all confer a high risk of severe bacterial infection. Moreover, it has been shown that T cells have an important role in sepsis. A shift of a Th1 dominated T cell response towards a Th2 response has been described as a potential mechanism of immune suppression in patients with sepsis. One of the molecules on the surface of T cells that is involved in the Th2-mediated immune response is the Inducible Costimulator of T cells (ICOS). Its ligand, LICOS, is expressed on the surface of B cells and monocytes. ICOS ligation induces the production of anti-inflammatory cytokines, especially of IL-10. However, nothing is known about the expression of ICOS on T cells and that of LICOS on APCs in patients with severe trauma and stroke. Therefore, in the present study, in a first step, a recombinant human LICOS-Ig fusion protein was generated, which was then used as an antigen for the generation of anti-LICOS monoclonal antibodies. In three fusion experiments, 5,000 primay clones were screened and a single hybridoma was obtained, which produced monoclonal antibodies that specifically reacted with recombinant LICOS, both in form of the LICOS-Ig fusion protein and on the surface of a cell line transfected with a full-length LICOS transgene. Since, it turned out that the antibodies did not bind with high affinity to wild type LICOS, as it is expressed on primary human blood cells, phenotypic analyses were carried out with another anti-LICOS monoclonal antibody, which had become commercially available. Next, the expression of HLA-DR, CD86, LICOS, and ICOS, on the surface of monocytes (CD14+), B cells (CD19+) and T cells (CD3+, CD4+) in whole blood was measured by flow cytometry. Six patients with severe trauma and nine stroke patients were compared with 32 healthy donors. On CD14+ monocytes from healthy donors, the expression levels of HLA-DR and CD86 were over 90%, while the expression of LICOS was much lower (7,5%). In critically ill patients, HLA-DR, CD86 and LICOS expression were strongly reduced. CD86 and HLA-DR were co-regulated, while HLA-DR and LICOS were not. In healthy donors, virtually all B cells expressed HLA-DR and the majority of them co-expressed LICOS (72%), while only a small fraction were CD86+ (14%). After trauma and stroke, HLA-DR, as well as LICOS expression on these cells remained normal; CD86 had a tendency towards being downregulated in most of the trauma patients, while most of the stroke patients exhibited normal CD86+ levels. The levels of HLA-DR and LICOS on T cells in trauma and stroke patients were low and very similar to those of healthy donors. The fraction of CD3+ T lymphocytes or their CD4+ subpopulation, which expressed measurable levels of ICOS (64% and 48%, respectively), did not change after stoke or trauma. However, within the ICOS+ T cell population two subpopulations could be distinguished: ICOSbright and ICOSdim T cells. Interestingly, the ICOSbright subpopulation, but not the ICOSdim and ICOSnegative subpopulations, was markedly increased in all trauma patients and in most of the stroke patients. Given that CD86 was co-regulated with HLA-DR on monocytes it appears that, similar to HLA-DR, CD86 expression could discriminate between patients with a low and high risk of sepsis. In contrast, because of its low basal expression on monocytes and its low signal-noise ratio, LICOS expression levels are not informative. Since ICOS expression on T cells is tightly connected to IL-10 secretion, the high proportion of ICOS bright cells in critically ill patients might contribute to the high IL-10 serum concentrations, which have been reported to be linked to immunosuppression in these patients.
Multiple sclerosis (MS) and stroke share a number of mechanisms of neuronal damage. In both cases the balance between neurodestruction and neuroprotection appears modulated by the function of the adaptive immune system. MS is a chronic inflammatory disease of the central nervous system (CNS), leading to permanent disability. It seems certain that an autoimmune response directed against the CNS is central to the pathogenesis of the disease. While these CNS-specific T cells are activated in MS patients, they are inactive and naive in healthy. Therefore it is believed that an activation of autoreactive T cells by cross-reactivity with pathogens occurs outside of the CNS. In consequence T cells express adhesion molecules and proteinases which enable them to cross the blood-brain barrier. In stroke, however, the blood-brain barrier is disturbed in its integrity caused by the decreased blood flow. Cells can freely migrate from the periphery into the brain. CNS autoreactive cells from the periphery can be activated within the CNS and thus contribute to further tissue damage. While the local autoimmune response remains temporary in stroked brains, it is chronically destroyed in MS. The differences between the underlying mechanisms are not understood. This thesis investigated T cell responses in Multiple Sclerosis in response to the therapeutics Mitoxantrone and IFN-b. The induction of a TH1 to TH2 cytokine response appears to be a shared mechanism of action between both therapeutic agents. Primarily the post stroke immune response was investigated. Patients developed a stroke induced immune suppression characterized by monocytic dysfunction and lymphocytopenia explaining the high frequency of post stroke infections. Moreover early post stroke predictors of subsequent infections, like the CD4+ T cell count, were identified. The T cell response of stroke patients appeared primed to proinflammation and unsuppressed after mitogen stimulation. A detailed understanding of post stroke immune alterations may offer new avenues of intervention to improve the clinical fate of stroke victims. In addition, such knowledge could also further our understanding of Multiple Sclerosis, because, while increasing the infection risk, the dampening of the immune system could have an important protective function, if it limits autoimmune brain damage triggered by the massive release of brain antigens during stroke. If these two pathways could be modulated separately it would create the opportunity to develop distinct therapeutic approaches that inhibit autoimmunity and strengthen antibacterial defenses. To further delineate these mechanisms it is crucial to investigate the role of the innate immune system as compared to the adaptive immune system in stroke induced immune suppression.
Non-thermal atmospheric pressure plasma has drawn more and more attention to the field of wound healing research during the last two decades. It is characterized by a unique composition, which includes amongst others free radicals, ions and electrons. Furthermore, non-thermal plasma exhibits temperatures that are below those inducing thermal cell damage. Next to its well-established anti-bacterial properties, plasma can have lethal as well as stimulating effects on mammalian cells. Therefore, the medical application of non-thermal plasma on chronic wounds seems to be a promising tool to enable healing processes. However, less is known about the plasma-mediated induction of intracellular signaling pathways in human immune cells, which play a leading part in the process of wound recovery and removal of pathogens. Therefore, this thesis examined the cellular effects of a non-thermal atmospheric pressure plasma treatment on human immune cells using the argon plasma jet kinpen 09. Here, the CD4+ T helper cell line Jurkat, the monocyte cell line THP-1 as well as the corresponding primary cells were investigated. First, cell survival and apoptosis induction was assessed in response to non-thermal plasma treatment by growth curves and flow cytometric assays. On the one hand it could be shown that primary cells are more susceptible to plasma treatment than the respective cell lines. On the other hand, monocytes responded less sensitive to plasma exposure than lymphocytes. Furthermore, this thesis outlined the impact of non-thermal plasma treatment on the gene expression level of immune cells. Therefore, DNA microarray analysis was performed with the cell lines Jurkat and THP-1. It became obvious that plasma exposure modulated the expression of several genes in both cell types. Differential expression of distinct target genes was further validated by quantitative PCR in the immune cell lines. Here, elevated gene expression levels of JUN and FOS in Jurkat cells and increased transcription of JUND in THP-1 cells in response to plasma treatment were made visible. JUN, FOS and JUND are components of the transcription factor AP-1, which is involved amongst others in gene expression of IL-8 and HMOX-1. Consequently, transcriptional induction of the inflammatory cytokine IL-8 as well as the enzymes HMOX-1 and GSR was detected in plasma-treated THP-1 cells. In addition, alterations in the protein activation levels were analyzed in plasma-treated Jurkat, THP-1 cells and primary monocytes. Since some of the identified target genes are known to be associated with the MAPK pathways, the regulation of these cascades was further investigated by western blot analysis. In all investigated cell types the pro-proliferative signaling molecules ERK 1/2 and MEK 1/2 as well as the pro-apoptotic signaling proteins p38 MAPK and JNK 1/2 were activated in a plasma treatment time dependent manner. In contrast to Jurkat and primary monocytes, the anti-apoptotic HSP27 was only induced in THP-1 cells in response to plasma exposure. Moreover, modulation of cytokine production and secretion was examined in the different immune cell types and co-cultured THP-1 and HaCaT keratinocytes by ELISA or flow cytometry. While Jurkat cells showed no plasma-mediated regulation of cytokine expression, THP-1 cells revealed an increased IL-8 secretion after long plasma time duration (360 s). Additionally, the intracellular expression levels of IL-6 and IL-8 were modulated in primary monocytes by plasma exposure. While short plasma treatment caused no alteration of the number of cells expressing IL-8 an up-regulation of the intracellular IL-6 level occurred after 30 s of plasma treatment. Long plasma treatment times resulted in a significant decrease of the intracellular IL-8 and IL-6 production levels. Furthermore, co-cultured THP-1 and HaCaT cells as well as mono-cultured THP-1 and HaCaT cells were examined regarding their cytokine secretion profile. Here, cells treated with plasma (180 s) as well as LPS and plasma (180 s and LPS) were compared with untreated cells. IL-6, IL-8 and GM-CSF secretion was induced by both plasma and plasma combined with LPS treatment in mono-cultivated HaCaT cells and co-cultured cells. Though, the highest cytokine secretion levels were reached in the plasma and LPS exposed co-culture. In contrast, mono-cultivated THP-1 cells only showed an increased secretion of IL-6, IL-8 and TNFa after incubation with plasma together with LPS exposed medium. In conclusion, this study revealed for the first time the non-thermal plasma-modulated expression of numerous genes and cytokines and the activation state of various signaling cascades in human immune cells. Thus, it contributes to gain a better understanding of the immune-modulatory impacts of plasma that might promote the wound healing process.
Introduction: For a successful pregnancy, a set of physiological requirements has to be fulfilled. The mother has to provide enough nutrients and the proper anatomical environment for the developing fetus and protect him and herself against pathogens. The cells of the im-mune system constantly monitor the organism in search for pathogens and mount a response to eradicate the threat. The favourable outcome of an immune response re-lays on the capacity of those cells to recognize structures that shouldn’t be present in the organism and the speed or strength at which the cells react. During pregnancy, however, a fetus is able to establish a firm contact with the endometrium of the mother and then grow for an extended period of time. This “exception to the rule” hides behind a set of fine-tuned regulations of the immune responses which are not completely un-derstood. Though many cell types have been extensively investigated in the past dec-ades, B cells play yet enigmatic roles. The aim of this work is to uncover the events occurring within the B cell development during pregnancy and to study the role of certain subtypes in healthy pregnancy and pregnancy miscarriage. Methods: For all experiments, 8-weeks-old female mice either non-pregnant, having normal preg-nancies or miscarriage were used. Organs were removed and cells isolated using standard protocols. The analysis of the population distribution was performed by Flow Cytometry. For in vitro experiments, specific cell subsets were isolated using MACS Cell Separation. Bio-plex method was used for the assessment of Immunoglobulin isotypes in serum, while CBA Array was the method used to measure cytokine levels in the supernatant of cell cultures. Statistical analysis was done using GraphPad Prism software. Results: Pregnancy had a strong impact on the murine B cell development. The restructuration of the B cell compartment could be appreciated already from the bone marrow progeni-tors, reduced in pregnant mice. Peripheral subsets drastically adapted their develop-mental pathways, with a drift towards the generation of marginal zone B cells. B cells also showed functional adaptations to gravidity, as evidenced by the changes in the immunoglobulin production and immunomodulatory capacity. Conclusions: For the first time a deep investigation of the consequences of pregnancy on the B cell development was performed, covering several aspects of B cell functionality. This work shows that B lymphocyte compartment is remodelled during pregnancy. Aberration of this process may lead to pregnancy complications including miscarriage.
Ischemic stroke is the second leading cause of death worldwide and a disease with a variety of risk factors including hypotension, nutrition/obesity, and smoking but also increased age. In an ageing society stroke is a great challenge and leaves the survivors with disabilities. The aim of this dissertation was to investigate the immunologic changes post ischemic stroke, in order to use a better understanding for new therapeutic approaches as well as for improvement of translation of results from bench to bedside. Ischemic stroke leads to a local and peripheral immune activation. On the other side an immune dysfunction/suppression occurs, that leads to a higher risk of stroke-associated infections. In this dissertation, a long-lasting elevation of HMGB1 after stroke and a correlation with blood leukocyte numbers could be shown. HMGB1 seems to be an important mediator of an endogenous inflammation and an interesting target for post-stroke immunomodulation. In a further study we showed that the quality of the immune response of infiltrating T cells has an impact on the neurologic outcome and functional recovery after experimental stroke. Importantly, a mechanism of how infections, mimicked by LPS injections, could worsen the outcome of stroke patients was revealed. In the context of stroke-induced immunosuppression regulatory T cells as an immunosuppressive T cells subset seem to not play a role as their suppressive capacity is reduced after stroke. Interestingly, the CD39 expression on Tregs is similarly increasing with age in humans and mice. This shows the importance of an age equivalent in experimental studies. In search of predictors for the outcome after stroke as well as the risk of infections, we performed single nucleotide polymorphism genotyping in the IL-1RN and TLR4 gene of stroke patients. Functional significant variants in the IL-1RN and TLR4 genes may have an impact on outcome and systemic markers of inflammation post stroke but these findings need to be replicated in studies with much larger cohorts.