Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dendritic cells (DCs) are antigen-presenting cells that play an important role in the body's immune defence against cancer. Strategies using antigen-primed DCs as tumour vaccines show promise in patients, but the approach is cumbersome to use clinically. Soluble tumour antigens can be targeted to DCs in vivo, but this often induces antigenic tolerance rather than immunity. Liposomes are vesicular lipid structures with adjuvant-like properties. Importantly, liposomes can encapsulate antigen and immunomodulatory factors, thus serving as potent delivery vehicles. Different strategies are being explored to target liposomal antigens to DCs in vivo. One approach has employed single-chain antibody fragments to the DC surface molecules CD11c and DEC-205, attached to the vesicle surface by metal-chelating linkage, to target liposomal membranes containing antigen and either interferon-gamma or lipopolysaccharide to DCs. Such membranes induce dramatic antitumour responses and immunotherapeutic effects when used as a vaccine in the murine tumour model B16-OVA melanoma. Liposomal targeting of antigen and maturation signals directly to DCs in vivo, therefore, represents a much simpler strategy for cancer immunotherapy than antigen loading DCs ex vivo.
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PMID:Targeting dendritic cells with antigen-containing liposomes: antitumour immunity. 1550 Apr 2

Unmethlylated CpG dinucleotides induce a strong T-helper-1-like inflammatory response, presumably mediated by Toll-like receptor 9 (TLR9). However, the nature and cellular localization of TLR9 in primary human cells remain controversial. Here we demonstrate, using flow cytometry and immunofluorescence microscopy techniques, that TLR9 can be expressed at the cell surface. The primary human cell subsets that were positive for TLR9 expression were distinct depending on the tissues analyzed. Specifically, in human peripheral blood mononuclear cells (PBMC) the majority of cell surface TLR9(+) cells were confined to the major histocompatibility complex (MHC) class II(+) CD19(-) populations that express CD11c and/or CD14, whereas in tonsils the same gated population contained primarily MHC class II(+) CD19(+) cells. Cells positive for surface expression represented a minor fraction of the total cell populations examined, varying between 2 and 10%. In addition, we found that TLR9 expression at the surface of PBMC was up-regulated approximately fourfold following stimulation with the gram-negative bacterial cell wall component lipopolysaccharide, suggesting a potential modulatory role of TLR4 agonists on TLR9 expression. Taken together, these data validate human TLR9 expression at the surface of primary cells, in addition to the previously described intracellular localization. Further, our results suggest that human antigen-presenting cells comprise the major cell populations expressing cell surface TLR9.
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PMID:Toll-like receptor 9 can be expressed at the cell surface of distinct populations of tonsils and human peripheral blood mononuclear cells. 1555 45

Intestinal dendritic cells (DC) are likely to regulate immunity to gut microflora, but little is known about their responses to bacterial antigens. Therefore, DC from normal murine colon were characterized and their cytokine responses to components of Gram-negative and/or Gram-positive bacteria assessed. Cells were obtained by digestion of colonic tissue and contained DC that were identified by flow cytometry as CD11c(+) major histocompatibility complex (MHC) class II(+) cells. Purified DC were obtained by immunomagnetic separation plus cell sorting. DC had the morphology of immature myeloid cells, were endocytically active, expressed low levels of co-stimulatory molecules and stimulated a weak allogeneic mixed leucocyte reaction. Analysis of flow cytometry data by a sensitive subtraction method allowed measurement of production of interleukin (IL)-12 and IL-10 by small numbers of gut DC by intracellular staining. Fewer than 5% of unstimulated DC produced either IL-10 or IL-12. IL-10 production was significantly up-regulated following stimulation with Bifidobacteria longum, but not after exposure to lipopolysaccharide (LPS) or Streptococcus faecium. In contrast, colonic DC produced IL-12 in response to both LPS and B.longum. Thus, colonic DC can produce both IL-12 and IL-10 following bacterial stimulation. Cell wall components from different bacteria stimulate distinct responses and may direct immune responses differentially in the gut.
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PMID:Production of interleukin (IL)-10 and IL-12 by murine colonic dendritic cells in response to microbial stimuli. 1565 23

Some chemokines specifically attract T helper 1 (Th1) cells, whereas others attract T helper 2 (Th2) cells. In this study, we investigated the capacity of Langerhans cells (LC) to produce Th1- and Th2-type chemokines in comparison with that of splenic CD11c(+) dendritic cells (DC). We prepared highly purified (>95%) LC from BALB/c mouse skin using the panning method. With regard to Th1-type chemokines, exogenous stimulus, such as interferon-gamma (IFN-gamma), lipopolysaccharide, or polyinosinic-polycytidylic acid, was mandatory for the production of substantial amounts of CXCL10, CXCL9, and CXCL11 both in LC and splenic DC. LC, as a whole, exhibited low ability to produce Th1-type chemokines in comparison with splenic DC. As for Th2-type chemokines, LC, but not splenic DC, produced high levels of CCL22 and CCL17 constitutively during culture even without exogenous stimuli. The production of Th2-type chemokines was regulated in a complicated manner. In particular, interleukin-4 upregulated, and IFN-gamma downregulated both CCL22 and CCL17 production by LC. Of note, LC produced much more amounts of Th2-type chemokines than splenic DC under any conditions tested. Finally, Th1- and Th2-type chemokines produced by LC were shown to be functional using chemokine receptor-transfected-2B4 T cells. The high production of CC chemokine receptor 4 ligands by LC in the absence of IFN-gamma may be an important character discriminating LC from other DC.
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PMID:Differential production of Th1- and Th2-type chemokines by mouse Langerhans cells and splenic dendritic cells. 1567 53

Subcutaneous implantation of polyvinyl sponges represents a suitable model for studying the mechanisms of acute and chronic inflammation, granulomatous foreign-body reaction, as well as wound healing. Using such a model in rats, we studied the phenotypic and functional characteristics of dendritic cells (DC). DC were purified from the sponge exudate using a combination of separation gradients, adherence to plastics, and immunomagnetic sorting. We have shown that the number of DC progressively increased in the sponges, reaching maximal values at day 10 after implantation, followed by their decrease thereafter. Inflammatory DC expressed MHC class II molecules and myeloid markers CD11b, CD11c, and CD68. A subset of DC expressed CD4, R-MC46, DEC-205, R-MC17, and CCR1. Compared to DC isolated in the early phase of inflammation (day 6 DC), DC in the late stage of inflammation (day 14 DC) had a lower capability to stimulate the proliferation of allogeneic lymphocytes and CD4(+) T cells. This finding correlated with the downregulation of CD80, CD86, and CD54 expression and the increased proportion of plasmacytoid MHC class II(+) His 24(+) His 48(+) DC. The suppression of allogeneic lymphocyte proliferation was abrogated by the treatment of DC with lipopolysaccharide. In addition, day 14 DC exerted tolerogenic capability in co-culture with allogenic CD4(+) T cells. These results correlated with the increased levels of IL-10 and TGF-beta in culture supernatants and the sponge exudate.
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PMID:Dendritic cells acquire tolerogenic properties at the site of sterile granulomatous inflammation. 1597 62

On maturation, dendritic cells (DCs) become highly active cells equipped for antigen uptake, migration and clustering and activation of T cells. We therefore asked whether DCs acquire fat and glycogen stores as they mature. DCs were generated from mouse bone marrow stem cells by culturing with granulocyte-macrophage colony-stimulating factor (GM-CSF) for 7-8 days. Stimulation of the DCs with lipopolysaccharide (LPS) for the last 24 hr of culture, or exposure to 1-15 ng/ml of interleukin (IL)-4 during development, resulted in production of DCs not only with an increased ability to stimulate T cells but also with an increasingly lacy appearance on transmission electron microscopy, with multiple unstained areas in the cytoplasm. This changed morphology was associated with the presence of increasing amounts of fat and glycogen, identified by Sudan Black and periodic acid leukofushin/Schiff (PAS) staining, respectively. Lacy DCs up-regulated type 1 and type 2 scavenger receptors, providing possible mechanisms contributing to these changes. Lacy DCs were found occasionally amongst freshly isolated splenic and lymph node DCs. DCs can be isolated from human adipose tissue, and we tested whether lacy DCs acquiring fat and glycogen were present in mouse omentum. CD45+ cells migrating from the omentum expressed specific DC markers CD11c and 33D1, costimulatory molecules and major histocompatibility complex (MHC) class II, and most showed darkly staining fat inclusions. Thus, during development, DCs can acquire large amounts of fat and glycogen, accumulation of which is promoted by antigen exposure and modulated by the cytokine milieu and location, and which may act as a link between energy stores and immune function.
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PMID:Developing dendritic cells become 'lacy' cells packed with fat and glycogen. 1601 16

Bacterial infection triggers host inflammation through the activation of immune cells, leading to the elimination of bacteria. However, the regulatory mechanisms of the host inflammatory response remain unknown. Here we report that a subset of potent tolerogenic dendritic cells (DCs), regulatory DCs (DC(regs)), control the systemic inflammatory response. Unlike normal DCs, which produced proinflammatory cytokines in response to bacterial lipopolysaccharide (LPS), DC(regs) produced fewer proinflammatory cytokines and instead preferentially produced interleukin-10 (IL-10), and these events involved the expression of IkappaBNS and Bcl-3 as well as cyclic AMP (cAMP)-mediated activation of protein kinase A (PKA). In addition, DC(regs) not only suppressed LPS-induced production of proinflammatory cytokines in macrophages, but also reduced their serum levels in mice. Furthermore, DC(regs) protected mice against the lethality induced by experimental endotoxemia and bacterial peritonitis. The inhibitory effect of DC(regs) against inflammatory responses involved the production of IL-10. On the other hand, naturally existing tolerogenic DC subsets producing IL-10, CD11c(low)CD45RB(high) DCs, also suppressed LPS-induced host inflammatory responses. Thus, a subset of tolerogenic DCs act as potential regulators of the host inflammatory response, and they might have preventive and therapeutic potential for the treatment of systemic as well as local inflammatory diseases.
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PMID:Regulatory dendritic cells act as regulators of acute lethal systemic inflammatory response. 1641 Apr 44

Granulocyte-macrophage colony-stimulating factor-differentiated bone marrow-derived dendritic cells were stimulated with the synthetic lipopeptide S-(2,3-bispalmitoyloxypropyl)-CGDPKHSPKSF (FSL-1) or the Escherichia coli lipopolysaccharide. FSL-1 induced the production of TNF-alpha and IL-12 by C57BL/6-derived bone marrow-derived dendritic cells but not by bone marrow-derived dendritic cells from Toll-like receptor 2-deficient (TLR2(-/-)) mice. Lipopolysaccharide induced the production of TNF-alpha and IL-12 by bone marrow-derived dendritic cells derived from either type of mice. FSL-1 did not induce production of IL-10 by bone marrow-derived dendritic cells from either type of mice, whereas lipopolysaccharide induced small amounts of IL-10 by bone marrow-derived dendritic cells from both types of mice. The upregulation by FSL-1 of the expression of CD80, CD86 and the MHC class II molecule IA(b) was dose- and time-dependent on the surfaces of C57BL/6-derived bone marrow-derived dendritic cells but not on the surface of TLR2(-/-)-derived bone marrow-derived dendritic cells. Lipopolysaccharide upregulated the expression of these molecules on the surfaces of bone marrow-derived dendritic cells from both types of mice. The expression of CD11c on the surfaces of C57BL/6-derived bone marrow-derived dendritic cells was upregulated by stimulation with both FSL-1 and lipopolysaccharide up to 12 h; thereafter, the expression was downregulated. The results suggest that FSL-1 can accelerate maturation of bone marrow-derived dendritic cells and this FSL-1 activity is mediated by TLR2.
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PMID:The synthetic analogue of mycoplasmal lipoprotein FSL-1 induces dendritic cell maturation through Toll-like receptor 2. 1642 Jun

Insight into the mechanisms by which dendritic cells (DC) present exogenous antigen to T cells is of major importance in the design of vaccines. We examined the effectiveness of free antigen as well as antigen with lipopolysaccharide, emulsified in complete Freund's adjuvant, and antigen encapsulated in liposomes in activating adoptively transferred antigen-specific CD4 and CD8 T cells. When contained in liposomes, 100- to 1000-fold lower antigen amounts were as efficient in inducing proliferation and effector functions of CD4 and CD8 T cells in draining lymph nodes as other antigen forms. CD11c(+)/CD11b(+)/CD205(mod)/CD8alpha(-) DC that captured liposomes were activated and presented this form of antigen in an MHC class I- and class II-restricted manner. CD4 T cells differentiated into Th1 and Th2 effector cells. Primary expansion and cytotoxic activity of CD8 T cells were CD4 T cell-dependent and required the transporter associated with antigen processing (TAP). Finally, adoptively transferred CD4 and CD8 T cells were not deleted after primary immunization and rapidly responded to a secondary immunization with antigen-containing liposomes. In conclusion, encapsulation of antigen in liposomes is an efficient way of delivering antigen to DC for priming of both CD4 and CD8 T cell responses. Importantly, primary CD8 T cell responses were CD4 T cell-dependent.
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PMID:CD4 T cell help is required for primary CD8 T cell responses to vesicular antigen delivered to dendritic cells in vivo. 1667 47

CD11c/CD18 is expressed primarily on myeloid cells, where its expression is regulated both during differentiation and during monocyte maturation into tissue macrophages, and is also a receptor for fibrinogen and lipopolysaccharide (LPS). We focused on the molecular mechanisms leading to the activation of CD11c expression in differentiating U937 cells. During phorbol myristate acetate (PMA)-induced differentiation of U937 cells, we found that the mRNA expression of CD11c was increased. Se-methylselenocysteine (Se-MSC) potentiated up-regulation of CD11c expression and its promoter activity and increased PLD1 activity without affecting the level of PLD1 protein in PMA-treated cells. To examine the regulation mechanism of PMA and Se-MSC on CD11c gene expression through the activation of PLD1, we analyzed changes in the CD11c mRNA level and the promoter activity following treatment of a selective PLD inhibitor n-butanol. The combinatory effect of PMA and Se-MSC on CD11c gene expression was abolished by n-butanol in a dose-dependent manner. Further, introduction of PLD1 gene into U937 cells increased CD11c mRNA expression and activated CD11c promoter activity in a dose-dependent manner. These results showed that Se-MSC increased PMA-induced CD11c expression through the activation of PLD1 signaling pathway. To our knowledge, this is the first report that expression of the CD11c gene is regulated by PLD1 and is enhanced by Se-MSC during PMA-induced U937 differentiation.
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PMID:Se-methylselenocysteine enhances PMA-mediated CD11c expression via phospholipase D1 activation in U937 cells. 1671 6


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