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IL-12-related cytokines produced by dendritic cells are considered to be major inducers of adaptive immune system activation upon innate antigen-sensing. IL-23 specifically is currently being discussed to support the differentiation of potentially auto-aggressive Th17 cells. Prostaglandins as bystander cell products are known to modulate the translation of this process. While previous studies focused therefore on IL-12, ignoring the existence of new IL-12-related cytokines IL-23 and IL-27, this study analysed effects of prostaglandin E2, D2 and 15d-PGJ2 on the secretion pattern of these subunits in the murine immature Langerhans cell line XS52 and the murine immature myeloid dendritic cell line JawsII under TLR4 (LPS) and TLR9 (CpG) stimulation as well as effects of prostaglandins on the murine Th1 cell line IF12 in coculture and upon Con A treatment. In serial semi-quantitative RT-PCR of the IL-12 related cytokines of the XS52 cell line and the JawsII cell line, the p40 subunit was upregulated in both DC cell lines upon TLR-stimulation, the IL-23p19 subunit constantly expressed in XS52 and upregulated in JawsII upon TLR-stimulation, while the IL-27p28 subunit was only weekly expressed under additional stimulating aCD40 Ab treatment. IL-12p35 could only be detected in the immature myeloid cell line. The protein expression of the p40 subunit was measured in Western blot assays following SDS-PAGE under reducing conditions in XS52. The Western blot-based antibody specification allowed the establishment of a p40-specific ELISPOT assays, where overadditive upregulation of the number of LPS-stimulated spot forming XS52 cells was observed under stimulation with PGE2 while PGD2 depressed the number of LPS-stimulated cytokine secreting cells. Contrary IL-12p40 could not be detected in supernatants of the JawsII cell line. Both DC cell lines were further tested for differential response towards different TLR stimulation described as a defining feature of DC subsets. While subunit expression on transcription level did not differ, only LPS-treatment led to constant IL-12p40 expression in supernatants of XS52. CpG-treatment of XS52 cells led to constantly high IL-12p40 levels under additional aCD40 Ab treatment. In IFN-g ELISPOT assays, prostaglandin effects were further analysed in IF12 Th1 cells upon Con A treatment or alternatively upon treatment in a coculture model with the syngeneic cell line XS52 and the T lymphocyte-specific protein ovalbumin. While PGE2 depressed the amount of activated Th1, PGD2 showed no effect. In conclusion, a coculture model has been generated that allows the analysis of DC and TC interactions. The importance of prostaglandins as differential regulators in time- and tissue-dependence in inflammatory processes has been demonstrated. These results accord with recent observations of an upregulation of IL-23 secretion upon PGE2 treatment.
Dendritic cells are the sentinels between the innate and the adaptive immunity. They are professionals that capture invading pathogens, recognize specific microbial structures and induce naïve T lymphocytes to polarize into a specific T cell subset. To initiate the T cell polarization DCs secrete cytokines which are induced upon Toll-like receptor activation by microbial structures. The recognition of these structures and the discrimination between non-self and self structures by TLRs is fine tuned, but under defined circumstances deregulation of immune responses appears. Consequently, this can result in immune disorders such as autoimmunity, chronic inflammatory diseases or cancer. In this thesis the investigations are focused on the regulation of the IL-12 family members IL-12p70 and IL-23 in DCs. The objective was to investigate three different endogenous and exogenous factors that regulate IL-12p70 or IL-23. In the first part Selenium, an essential trace element and important factor in several metabolic pathways including the cellular redox status and reactive oxygen species (ROS) dependent signaling was applied as supplement in immature Langerhans cell culture. Because Selenium also plays a role in the immune system the TLR-induced IL-23 production of the DCs upon Selenium treatment was analyzed. In the immature Langerhans cell line XS-52 the strongest inducer of IL-23 was TLR4 ligand LPS. Furthermore increased levels of TLR4-induced IL-23 in cells treated with Selenium were detected in a concentration dependent manner. Whereas the IL-23 subunit p40 was upregulated upon Selenium treatment the second subunit p19 was completely unaffected. This effect was detected on mRNA and protein level. In addition, as expected, IFN-gamma inhibited the TLR4-induced IL-23 secretion of both, Selenium treated and untreated cells. In the second part of this thesis p47phox, an organizing protein of the NADPH oxidase was analyzed regarding its potential to regulate IL-12p70 and/or IL-23 secreted by different DC subtypes. Since it was demonstrated that p47phox deficiency is associated with enhanced autoimmunity and chronic inflammation we wanted to prove whether it has a function in addition to that within the NADPH oxidase. We found some hints that p47phox may be interact with proteins of the TLR signaling pathway and thus we hypothesized that p47phox may have a function for the regulation of TLR-mediated cytokine production in DCs. In several experiments with DCs from the spleen of different p47phox deficient mice we detected an increased production of TLR9-induced IL-12p70 compared to wild type cells. In contrast TLR4 stimulation with LPS displayed no significant differences between p47phox deficient and wild type cells. In spleen cells IL-23 was not detected. Confirming the results of this new negative feedback by p47phox on IL-12p70 rats, with a single nucleotide polymorphism in the p47phox gene, were investigated. Interestingly this polymorphism is located in the phosphorylation site of IRAK4, an important kinase in the TLR pathway. In rats with a methionine residue at this position in the p47phox protein enhanced IL-12p70 level were found, compared to the rats with threonine, which can be phosphorylated by IRAK4. All analyzed mice and rats have defects in the NADPH oxidase function due to a non functional p47phox protein which results in a defective ROS production. To determine whether the observed negative feedback mechanism is connected to the lack of ROS production experiments with gp91phox deficient mice, which also have a defective NADPH oxidase function, were performed. In several experiments the enhanced IL-12p70 production in cells from p47phox deficient mice could be confirmed, but no differences between gp91phox deficient and wild type mice have been observed. In further studies was found that the inhibition of the NADPH oxidase function did not alter the negative feedback on TLR9-induced IL-12p70 secretion by p47phox. Interestingly upon treatment with the inhibitor a feedback mechanism in wild type cells also after TLR4 stimulation was observed. Hence, blocking a ROS-dependent TLR4 pathway by the inhibitor uncovered the LPS induced ROS-independent pathway of the TLR4 signaling. These findings strongly approve a NADPH oxidase/ROS-independent function of p47phox in DCs. Because splenic DCs do not secrete IL-23, in vitro differentiated DCs from the bone marrow were investigated regarding the negative feedback mechanism. In DCs from p47phox deficient mice, differentiated with GM-CSF, the upregulation of IL-12p70 was confirmed, whereas Flt3-L cultured DCs did not display the negative feedback. In contrast to IL-12p70 no difference for the IL-23 production between wild type and p47phox deficient cells has been detected. Thus, we concluded that IL-23 production is not regulated by p47phox. IL-12p70 is the major cytokine in the Th1 polarization whereas IL-23 is important for the maintenance and survival of Th17 cells. To prove whether the regulation of IL-12p70 influences the T cell response immunization experiments closely resembling the classical DTH-like protocols were performed. Groups of p47phox deficient and wild type mice received either PBS, OVA alone or mixed with TLR9 ligand CpG2216 in IFA s.c. to activate and polarize naïve T cells towards Th1 or Th17 cells. After ten days isolated lymph node cells were incubated in an ELISA spot assay with or without OVA and the frequency of IFN-gamma and IL-17 producing T cells was quantified. In vitro recall of OVA immunization of wild type and p47phox deficient mice resulted in an increased IFN-gamma and IL-17 frequency in the p47phox deficient cells. The combination with CpG2216 as adjuvant and inducer of the 3rd signal enhanced the frequency of IFN-gamma and IL-17 producing T cells in wild type mice significantly. However, in p47phox deficient cells the IFN-gamma and IL-17 response, being already detectable without in vitro OVA re-stimulation, was strongly augmented upon OVA restimulation. These findings confirmed our in vitro data for IL-12p70. Hence, the data supports our hypothesis that the p47phox dependent regulation of IL-12p70 and the consequences for the T cell response is an important mechanism to prevent uncontrolled immune responses. In the last part of this thesis the immunomodulatory property of vitamin D3 on the IL-12p70 production of DCs was examined. Since it was shown that VD3 influences the differentiation and maturation of monocytes and DCs, splenic DCs from C57BL/6 and BALB/c mice were investigated regarding their IL-12p70 production after VD3 treatment. Spleen cells, stimulated with LPS or CpG2216, exhibited a decreased IL-12p70 production when treated with VD3 before stimulation phase. In contrast treatment with VD3 only during TLR stimulation had no influence on the IL-12p70 production. Since it was demonstrated that VD3 stimulates the expression of p47phox mRNA cells from p47phox deficient mice were also treated with VD3. In initial experiments only a slight inhibition of IL-12p70 has been detected in p47phox deficient cells compared to the wild type. In summary the thesis displays three different possibilities to influence the TLR-induced cytokine secretion of DCs, although with different intensities and specificities.
Aging and age-related diseases are becoming more and more important for our society and our health care system. Alzheimer's disease (AD) is a disorder that destroys some parts of the brain and is characterized by global cognitive decline including a progressive irreversible loss of memory, orientation, and reasoning. “Healthy aging”, therefore, is one of the major aims for modern medicine. Apoptosis, or programmed cell death, plays an important role for example in fetal development, as well as for learning processes. T-lymphocytes usually undergo apoptosis in order to terminate an acute inflammation. The aim of this thesis was to explore the changes in the apoptotic mechanism of peripheral lymphocytes from Alzheimer’s disease (AD) patients in contrast to physiological aging. The experiments were conducted with lymphocytes of healthy volunteers of different ages, AD patients and young and aged mice. Moreover, transgenic mice carrying familiar AD-related mutations were examined. The aging study of peripheral cells of ‘healthy’-aged volunteers revealed an age-related increase of basal apoptosis. In addition, spontaneous apoptosis as well as apoptosis induced by oxidative stress (ROS) or by Fas engagement were enhanced in aging. A closer look at the subcellular basis of the lymphocytes (e.g. B-, NK-, CD4+-, and CD8+-T cells) determined that all lymphocyte subsets were affected by aging. Therefore, it could be concluded that the regulation of apoptosis is generally impaired in lymphocytes of aged persons. The increased susceptibility to oxidative stress supports the ‘Free radical theory of aging’ that claims the radicals to be the cause for the aging-process. In mice an increase of basal, spontaneous and ROS-induced apoptosis was detected in T cells from the spleen, as well. An oral treatment over two weeks with the Ginkgo biloba extract EGb761 showed a clear reduction of ROS-induced apoptosis in the treated group. Interestingly, basal and spontaneous apoptosis, e.g. physiological apoptosis, were not effected by the plant extract. This is an important benefit for therapy since physiological apoptosis has a great relevance in the elimination of cancer-cells for example. In conclusion, the antidementive drug EGb761 reduces specifically ROS-induced apoptosis that a plays an important role in aging as shown in this thesis. Based on the data found in healthy aging, lymphocytes from AD patients were assessed for apoptosis. The cells show enhanced levels of basal, spontaneous, and Fas-induced apoptosis. In subsequent experiments it was demonstrated that mainly the T cells were responsible for the findings. However, the NK-cells provided an important impact as well. In concordance with AD-affected neurons, peripheral lymphocytes of AD patients show clear signs of apoptotic cell death. In addition, basal apoptosis of T cells and the CD4/CD8-ratio showed a correlation with the severity of the dementia. Therefore, it could be speculated that apoptosis is due to activation-induced cell death (AICD) that occurs in acute and chronic activation of adaptive immunity. In AD there is a chronic neuroinflammation in the CNS triggering degeneration of neural tissue. In order to explore this, the experimental model of lymphocyte’s activation was established in healthy aging first. The study included the detection of various events of lymphocyte’s activation on the basis of the T cell subsets (CD4+ and CD8+). The inducibility to mitogenic stimulation clearly decreased in both subsets in aging. In contrast, T lymphocytes from AD patients showed an enhanced activation subsequent to mitogenic stimulation compared with age-matched nondemented persons. Only proliferation of CD8+ T cells was clearly reduced in AD. This data could be clues that an increased generation of memory T cells due to chronic neuroinflammation might be evident in AD. Memory T lymphocytes show increased inducibility upon mitogenic activation. Interestingly, CD8+ memory T cells display decreased prolifertive capacity. Due to activation, cells die by apoptosis later on. It could be concluded that AD patients display an increased amount of memory T cells compared to controls. The data implicate that there could be a cross talk between inflammatory within the brain and inflammatory cells of the periphery. This is an interesting point since the brain used to be assumed as immune-privileged zone. According to the experiment, the information of the diseased brain is transferred to white blood cells. The connection of those two compartments might raise the opportunity to observe and probably to influence easily not-accessible regions like the brain. Transgenic mice carrying mutations in familiar AD-relevant genes (Amyloid-Precursor-Protein, Presenilin-1, respectively) displayed enhanced levels of apoptotic T cells from the spleen, as well. It seems that those mutated proteins influence the regulation of apoptosis. Probably, they are involved in the increased cell death of T- and NK-cells, as well. Animals overexpressing Presenilin-1 showed reduced levels of apoptotic cell death. It was demonstrated with molecuar biology tools that Presenilin-1, processed during apoptosis, has an anti-apoptotic effect.