Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P06126 (CD1a)
 2,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Suppression of interleukin 12 (IL-12) production by dendritic cells (DCs) has been hypothesized to be a principal mechanism underlying the biological action of interferon (IFN)-beta used for treatment of multiple sclerosis (MS), a chronic inflammatory disease of the central nervous system with possible autoimmune origin. How IFN-beta interacts with DCs to inhibit IL-12 production remains unclear. In this study, we found that DCs derived from human blood monocytes, upon culture in the presence of IFN-beta with granulocyte-macrophage colony- stimulating factor (GM-CSF) and IL-4, differentiated into a population expressing CD14- CD1a- HLA-DR+. This population expressed CD123 (IL-3Ralpha). IFN-beta dose-dependently increased IL-3Ralpha+ DCs and decreased CD1a+ DCs. After 7 days' culture with IFN-beta at a concentration of 10 000 U/ml, more than 40% of DCs expressed IL-3Ralpha. IFN-beta, together with GM-CSF and IL-4, also induced maturation of IL-3Ralpha-expressing cells, as reflected by upregulation of HLA-DR and of the costimulatory molecules CD40, CD80 and CD86. In contrast to control DCs, IFN-beta-treated DCs produced predominantly IL-10 but only low levels of IL-12p40. Correspondingly, IFN-beta-treated DCs strongly suppressed IFN-gamma production but enhanced IL-10 production by allogeneic blood mononuclear cells. Our data suggest that IFN-beta in vitro can induce the development of DC2, which provide a permissive environment for Th2 differentiation. This finding represents a novel mechanism for action of IFN-beta in MS.
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PMID:Interferon-beta induces the development of type 2 dendritic cells. 1124 4

Glatiramer acetate (GA; Copolymer 1; Copaxone) and interferon-beta (IFN-beta) modulate the course of multiple sclerosis (MS), but probably by different mechanisms. GA, a mixture of synthetic peptides, is believed to act as an altered peptide ligand with inhibitory effects on autoreactive T cells and promoting Th2 cells. It is unknown whether GA affects dendritic cells (DCs), which, besides strong antigen presenting capacity, orchestrate Th1 and Th2 responses. IFN-beta inhibits IL-12 production by DCs over unknown mechanisms. This study was designed to investigate in vitro effects of GA and IFN-beta on the development and function of DCs from MS patients and healthy controls, and to explore their possible synergistic effects on DCs. DCs were generated from adherent blood mononuclear cells (MNCs). GA or IFN-beta or both, when added at initiation of DC cultures, rapidly promoted the development of adherent MNCs into floating, activated DCs as reflected by up-regulation of HLA-DR and CD86 expression. IFN-beta, but not GA, induced IL-3R expression on DCs. Compared to DCs from healthy controls, MS patients' DCs expressed higher levels of the myeloid DC marker CD1a and produced lower amounts of IL-10. GA reduced IL-12 production by DCs. IFN-beta also reduced IL-12, but increased IL-10 production by DCs from both MS patients and healthy controls. GA and IFN-beta synergistically suppressed CD1a and enhanced CD86 expression on MS DCs. These findings document novel mechanisms of action of GA and IFN-beta at the DC level in MS.
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PMID:Glatiramer acetate and IFN-beta act on dendritic cells in multiple sclerosis. 1173 Sep 46

Myeloid (CD11c+) dendritic cells (DC) are present in cerebrospinal fluid (CSF), as well as in the meninges and choroid plexus. Functional studies of these DC are hindered or impossible. To obviate this problem, we investigated the effects of CSF supernatants from patients with non-inflammatory neurological diseases (NIND), multiple sclerosis (MS), bacterial meningitis (BM) and Lyme meningoencephalitis (LM) on immature monocyte-derived DC (moDC) from healthy donors. CSF supernatants caused maturation of moDC (MS > LM > NIND > BM), as reflected by a decrease in CD1a, and an increase in HLA-DR, CD80 and CD86 expression. The maturation effect of MS CSF and LM CSF could be blocked by anti-TNF-alpha MoAb or recombinant human IL-10. moDC cultured with BM CSF either remained immature or turned into CD14+ macrophage-like cells and were relatively inefficient at inducing T cell responses in vitro. In contrast, moDC cultured with LM CSF induced strong Th1 responses. Both BM CSF and LM CSF contained IFN-gamma, a cytokine that augments IL-12 production by moDC and hence should confer an ability to induce a Th1 response. However, BM CSF also contained high levels of IL-10, which could antagonize the effects of IFN-gamma on moDC. moDC cultured with MS CSF induced a higher production of IFN-gamma from T cells compared to moDC cultured with NIND CSF or BM CSF. In summary, soluble factors present in the CSF may influence the phenotype and functions of meningeal, choroid plexus and CSF DC which, in turn, may have an impact on the character of intrathecal T cell responses.
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PMID:Cerebrospinal fluid affects phenotype and functions of myeloid dendritic cells. 1198 31

Multiple sclerosis (MS) has a wide spectrum of clinical courses, characterized by multifocal central nervous system (CNS) damage, postulated to be mediated by CNS antigen-specific T cells. Dendritic cells (DC), the most potent antigen-presenting cell, play a pivotal role in the decision between T-cell activation or anergy. Monoclonal antibodies to CD1a (immature DC) and CD83 (mature DC) were used to screen lesions with evidence of recent demyelinating activity and chronic plaque and normal appearing white matter (NAWM) tissue sections from 12 MS cases by immunocytochemistry. No CD1a-positive cells were detected in the MS or control CNS tissue blocks investigated. CD83-positive cells were not detected in tissues from any of the control cases or in the majority of perivascular cuffs in the MS tissue sections. However; in eight of the MS tissue blocks with evidence of recent demyelination, and in one block each from chronic plaque and NAWM, small numbers of distinct CD83-positive cells were present within occasional perivascular cuffs. In one area only of MS NAWM were CD83-positive cells detected in the tissue parenchyma, in an area of intense immunological activity. DC in MS tissue may originate in the peripheral circulation as monocytes or immature DC and migrate to areas of plaque in response to signals received from CNS-produced chemokines.
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PMID:CD83-positive dendritic cells are present in occasional perivascular cuffs in multiple sclerosis lesions. 1270 9

Current therapy of multiple sclerosis (MS) with interferon-beta (IFN-beta) or glatiramer acetate (GA) has modest effects on the course of MS. Both compounds affect several immune variables, like expression of cell surface molecules and cytokine levels. Here we compared untreated MS, therapy with IFN-beta alone and combined with GA, and healthy controls (HC), regarding expression on HLA-DR+ blood mononuclear cells (MNC) of CD1a that is a cell surface molecule with capacity to present glycolipids to T cells, and of CD80 and CD86 which are costimulatory molecules that activate Th1 and Th2 responses. Cytokine production by MNC was also measured. Flow cytometry and ELISA were used. Cross-sectional comparisons revealed that untreated MS patients had higher CD1a+ HLA-DR+ MNC and lower IL-10 production compared to patients treated with IFN-beta or IFN-beta+GA or HC. Untreated MS patients also had higher spontaneous IFN-gamma and IL-12p70 production compared to MS patients treated with IFN-beta+GA or HC, but not when compared to MS patients on monotherapy with IFN-beta. Low CD1a+ HLA-DR+ MNC and low spontaneous production of IL-12p70 and IFN-gamma were more pronounced in patients treated with IFN-beta+GA than with IFN-beta alone. In order to clarify whether these changes reflect disease activity or treatment effects, we performed a follow up study. Nineteen MS patients with disease progression, despite monotherapy with IFN-beta for more than one year; were re-examined after one to three and four to six months of treatment with IFN-beta+GA. This combination therapy was associated with normalization of CD1a+ HLA-DR+ MNC, IL-12p70 and IFN-gamma. It remains to be shown whether these immunological changes imply a clinical benefit. Follow up studies of immune variables versus clinical effects during combined therapy of MS with IFN-beta+GA are ongoing.
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PMID:Multiple sclerosis: expression of CD1a and production of IL-12p70 and IFN-gamma by blood mononuclear cells in patients on combination therapy with IFN-beta and glatiramer acetate compared to monotherapy with IFN-beta. 1476 Sep 48

Interferon beta (IFN beta) has complex immune regulatory properties that contribute to its treatment effect on multiple sclerosis (MS). In this study, we investigated the role of IFN beta in differentiation and functional properties of monocytes and monocyte-derived dendritic cells that are critical to the inflammatory process in MS. The results revealed that IFN beta inhibited intracellular production of interleukin (IL)-1b (P<0.01) in both monocytes exposed to in vitro treatment of IFN beta and monocytes analysed ex vivo from MS patients treated with IFN beta. IFN beta was shown to modulate differentiation of monocytes into dendritic cells in the presence of IL-4 and GM-CSF, which resulted in a delayed differentiation process. Furthermore, it characteristically altered the phenotypic features of differentiated dendritic cells by inhibiting the expression of CD1a, CD11b, CD11c, CD123 and CD209 while upregulating costimulatory molecules, such as CD86. The selective regulatory properties of IFN beta appeared to render the function of differentiated dendritic cells to produce an increased amount (P<0.01) while their ability to secrete proinflammatory IL-12 and TGF beta was significantly reduced. The observed collective effects of IFN beta seemed to correlate with Th2 immune deviation. The study has provided new insights into the regulatory mechanisms of IFN beta in the treatment of MS.
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PMID:Regulation of differentiation and functional properties of monocytes and monocyte-derived dendritic cells by interferon beta in multiple sclerosis. 1547 64

Interferon-beta (IFN-beta), an approved drug for multiple sclerosis (MS), acts on dendritic cells (DC) by suppressing IL-12p40 and increasing IL-10. This results in Th2-biased immune responses. The nature of IFN-beta-modulated DC remains elusive. Previously, we observed that IFN-beta dose dependently induces expression of CD123, i.e., a classical marker for plasmacytoid DC, on human blood monocyte-derived myeloid DC. Such IFN-beta-modulated DCs produce predominantly IL-10 but are IL-12 deficient, with potent Th2 promotion. In the present study, we further characterize IFN-beta-modulated DC by using recently identified blood DC antigens (BDCA), and investigate their ability to produce type I IFN in response to virus stimulation. We show that IFN-beta induces development of CD123+ DC from human blood monocytes, which coexpress BDCA4+ but are negative for BDCA2-, a specific marker for plasmacytoid DC. Such IFN-beta-modulated DC can produce IL-6 and IL-10 but not IL-12p40, and have no enhanced IFN-alpha and IFN-beta production. The findings indicate that IFN-beta-modulated DCs represent a myeloid DC subset with diminished CD11c, BDCA-1 and CD1a expression. They may promote Th2 and B cell differentiation through IL-6 and IL-10 production, and suppression of IL-12p40, but they have no enhanced antiviral capacity.
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PMID:Multiple sclerosis: interferon-beta induces CD123(+)BDCA2- dendritic cells that produce IL-6 and IL-10 and have no enhanced type I interferon production. 1558 55

In multiple sclerosis (MS), dendritic cells (DCs) recruited to the central nervous system (CNS) are thought to be involved in the regulation of autoimmune responses directed against myelin antigens. To better understand the role of DCs in CNS inflammation, we performed a detailed immunohistochemical analysis of DC maturation markers and of DC relationship to CNS-infiltrating T cells in autopsy brain tissue of patients with MS. We also investigated the presence of DCs containing myelin debris in MS lesions. Myeloid DC subsets were identified using the following markers: CD1a for immature DCs; DC-SIGN for immature and mature DCs; and fascin, CD83, DC-LAMP, and CCR7 for mature DCs. The most common finding was the presence of cells expressing DC-SIGN and containing myelin components in the perivascular cuffs of early active and chronic (both active and inactive) MS lesions. Perivascular CD1a DCs were detected in active lesions in only one of 10 patients with MS who were examined. Although less numerous than DC-SIGN DCs, cells expressing mature DC markers were consistently detected in the inflamed meninges and perivascular cuffs of most active lesions examined. CCR7 immunostaining was predominantly confined to activated microglia at the lesion edges. Some perivascular DC-SIGN cells were found in close proximity to or contacting rare proliferating lymphocytes, most of which expressed the DC-SIGN ligand ICAM-3 and CD8. These data suggest that DCs recruited and maturing in MS lesions, where self-antigens are made available by continuous myelin destruction, may contribute to the local activation and expansion of presumably pathogenic T cells.
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PMID:Dendritic cells in multiple sclerosis lesions: maturation stage, myelin uptake, and interaction with proliferating T cells. 1646 4

Intravenous immunoglobulin (IVIg) preparations are reportedly effective in inhibiting the relapse of multiple sclerosis (MS), but few reports have investigated the effect of IVIg on dendritic cells (DCs), which are thought to be involved in such relapses. In the system that uses monokines to differentiate DCs from peripheral blood monocytes (Mo-DCs), we investigated the effect of immunoglobulin G (IgG) on these antigen-presenting cells. Using monocytes derived from healthy volunteers, IgG partially inhibited the expression of CD1a, a marker of immature DCs (imDCs), and CD40 and CD80, which are markers associated with T cell activation. In contrast, IgG enhanced the expression of CD83, a marker of mature DCs (mDCs). Furthermore, IgG markedly inhibited the expression of CD49d [very late activation antigen (VLA)-4 alpha4-integrin], the adhesion molecule required for mDCs to cross the blood-brain barrier. We obtained similar results on all the aforementioned cell surface molecules investigated in both healthy controls and MS patients. In addition, IgG treatment of cells from both healthy controls and MS patients inhibited the production of interleukin (IL)-12, a cytokine associated with mDC differentiation, but did not inhibit the production of IL-10. These results suggested the possibility that IgG treatment, apart from its known ability to regulate inflammation, may help to prevent relapses of MS by controlling DC maturation, consequently inhibiting invasion of immune cells into the central nervous system and affecting the cytokine profile.
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PMID:Modulation of dendritic cell development by immunoglobulin G in control subjects and multiple sclerosis patients. 1790 Mar 7

The effects of Glatiramer Acetate (GA) in combination with Minocycline (MIN), a second-generation tetracycline, have been investigated on the course of EAE in mice, resulting in a significant reduction in disease severity and burden with attenuation of the inflammation, axonal loss and demyelination. Here we investigate the effects of combination therapy with GA and MIN on the induction, maturation and phenotyping of blood monocyte-derived dendritic cells (DCs) in Multiple Sclerosis (MS) patients. Hence the expressions of HLA-DR, CD11c, CD83 and CD1a were studied by flow cytometric analysis on immature (iDCs) and mature DCs (mDCs) from untreated and GA treated MS patients. Thirteen relapsing-remitting MS patients and 13 healthy controls (HCs) were included in the study. Ten of the MS patient group were re-tested after a 2 month period of GA treatment. The marker expressions on DC from untreated MS and HCs were studied in vitro in the absence or presence of GA and GA+MIN; and on DCs from GA treated MS patients without and with the in vitro addition of MIN. We found that in vitro GA alone or in combination with MIN downregulated DCs antigen presentation capability (HLA-DR), whereas the combination treatment only affected also myeloid DCs activation (CD83) in both MS and HCs. Prolonged GA treatment (in vivo for 2 months) affected antigen presentation capability by DCs, whereas when treated in vitro with MIN these cells also tended to reduce activation marker expression and myeloid phenotype acquisition (CD11c). The present data demonstrate possible combination effects of GA and MIN on peripheral blood monocyte-derived DCs in MS patients.
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PMID:Combination treatment of Glatiramer Acetate and Minocycline affects phenotype expression of blood monocyte-derived dendritic cells in Multiple Sclerosis patients. 1855 39


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