Objective. Since it is likely that monocytes utilize chemokines to migrate to the rheumatoid arthritis (RA) joint, we investigated the expression of C-C chemokine receptors (CCR) 1-6 and C-X-C receptor 3 (CXCR3) in the peripheral blood (PB), synovial fluid (SF), and synovial tissue of patients with RA as well as in the PB of normal subjects. Methods. We compared chemokine receptor expression on CD14؉ monocytes from normal PB, RA PB, and RA SF using 2-color flow cytometry. Correlations with patient clinical data were determined. Chemokine and receptor expression were investigated in RA synovial tissue by immunohistochemistry and 2-color immunofluorescence to identify CD68؉ macrophages. Results. Most normal PB monocytes expressed CCR1 (87%) and CCR2 (84%), but not CCRs 3, 4, 5, or 6 or CXCR3. RA PB monocytes expressed CCR1 (56%) and CCR2 (76%), with significantly more expressing CCR3 (18%), CCR4 (38%), and CCR5 (17%) compared with normal PB monocytes. Significantly fewer SF monocytes from RA patients expressed CCR1 (17%), CCR2 (24%), and CCR4 (6%) while significantly more expressed CCR3 (35%) and CCR5 (47%) compared with RA and normal PB monocytes; CCR6 and CXCR3 were rarely detected. Clinically, the erythrocyte sedimentation rate was inversely correlated with the expression of CCR1 and CCR4 by RA PB, and CCR5 expression by RA SF was correlated with the SF white blood cell count. CCR1-, CCR2-, and CCR5-immunoreactive cells were found in RA synovial tissue and colocalized with CD68؉ macrophages. RA synovial tissue RANTES (regulated upon activation, normally T cell expressed and secreted chemokine)-and monocyte chemoattractant protein 1-immunoreactive cells colocalized with CCR1 and CCR2, respectively, on serial sections. Macrophage inflammatory protein 1␣ (MIP-1␣) was principally restricted to vascular endothelium, and MIP-1؉ macrophages were found throughout the sections. Conclusion. Monocytes mainly express CCR1 and CCR2 in normal and RA PB, CCR3 and CCR5 in RA PB and RA SF, and CCR4 in RA PB. The differential expression of chemokine receptors suggests that certain receptors aid in monocyte recruitment from the circulation while others are important in monocyte retention in the joint.
The nuclear DNA-binding protein DEK is an autoantigen that has been implicated in the regulation of transcription, chromatin architecture, and mRNA processing. We demonstrate here that DEK is actively secreted by macrophages and is also found in synovial fluid samples from patients with juvenile arthritis. Secretion of DEK is modulated by casein kinase 2, stimulated by interleukin-8, and inhibited by dexamethasone and cyclosporine A, consistent with a role as a proinflammatory molecule. DEK is secreted in both a free form and in exosomes, vesicular structures in which transcription-modulating factors such as DEK have not previously been found. Furthermore, DEK functions as a chemotactic factor, attracting neutrophils, CD8؉ T lymphocytes, and natural killer cells. Therefore, the DEK autoantigen, previously described as a strictly nuclear protein, is secreted and can act as an extracellular chemoattractant, suggesting a direct role for DEK in inflammation.DEK is a mammalian oncoprotein and putative autoantigen whose primary biological function has not been previously elucidated, despite literature linking it to the regulation of transcription, chromatin architecture, and mRNA processing (1,2,11,15,16,24,35,51,65). The DEK protein is widely conserved among species and is transcribed at high levels, especially in hematopoietically derived cells (14,(62)(63)(64). DEK was first characterized as part of the protein product of the DEK-CAN fusion oncogene, resulting from a t(6;9) translocation found in a subset of patients with acute myelogenous leukemia (64). DEK is overexpressed in several different malignancies, including melanoma, hepatocellular carcinoma, glioblastoma, retinoblastoma, bladder cancer, T-cell large granular lymphocyte leukemia, and acute myelogenous leukemia independent of the t(6;9) translocation (7,10,19,20,29,30,32,39,64). Although DEK has previously been described as a strictly nuclear protein, DEK autoreactivity has been identified as a major component of the autoantibody profile in patients with juvenile idiopathic arthritis (JIA) and is also seen in patients with other autoimmune diseases (8,21,38,49,54,55). In the studies presented in this paper, we show that the nuclear protein DEK can be actively secreted by inflammatory cells, is found in synovial fluid samples from JIA patients, and can function as a chemoattractant for inflammatory cells, suggesting a potential role for DEK in immunity and/or autoimmunity. MATERIALS AND METHODSCell preparation. Monocyte-derived macrophages (MDM) were prepared as previously described (31). Briefly, heparinized venous blood samples were collected from healthy volunteers following a protocol approved by the institutional review board, and peripheral blood mononuclear cells were separated by FicollHypaque (Amersham Pharmacia Biotech AB, Uppsala, Sweden) density gradient centrifugation. MDM were purified by adherence to plastic for 2 h at 37°C at a concentration of 5 ϫ 10 5 /ml. Adherent cells were consistently Ͼ90% monocytes (31). Adherence-purified human mon...
Regulation of IL-6 transsignaling by the administration of soluble gp130 (sgp130) receptor to capture the IL-6/soluble IL-6R complex has shown promise for the treatment of rheumatoid arthritis (RA). However, enhancing endogenous sgp130 via alternative splicing of the gp130 gene has not yet been tested. We found that epigallocatechin-3-gallate (EGCG), an anti-inflammatory compound found in green tea, inhibits IL-1-induced IL-6 production and transsignaling in RA synovial fibroblasts by inducing alternative splicing of gp130 mRNA, resulting in enhanced sgp130 production. Results from in vivo studies using a rat adjuvant-induced arthritis model showed specific inhibition of IL-6 levels in the serum and joints of EGCG-treated rats by 28% and 40%, respectively, with concomitant amelioration of rat adjuvant-induced arthritis. We also observed a marked decrease in membrane-bound gp130 protein expression in the joint homogenates of the EGCG-treated group. In contrast, quantitative RT-PCR showed that the gp130/IL-6R␣ mRNA ratio increased by ϳ2-fold, suggesting a possible mechanism of sgp130 activation by EGCG. Gelatin zymography results showed EGCG inhibits IL-6/soluble IL-6R-induced matrix metalloproteinase-2 activity in RA synovial fibroblasts and in joint homogenates, possibly via up-regulation of sgp130 synthesis. The results of these studies provide previously undescribed evidence of IL-6 synthesis and transsignaling inhibition by EGCG with a unique mechanism of sgp130 up-regulation, and thus hold promise as a potential therapeutic agent for RA.rheumatoid arthritis ͉ alternative splicing ͉ cytokine therapy ͉ pharmacology ͉ therapeutics
Objective. Rheumatoid arthritis (RA) is characterized by profound mononuclear cell (MNC) recruitment into synovial tissue (ST), thought to be due in part to tumor necrosis factor ␣ (TNF␣), a therapeutic target for RA. Although chemokines may also be involved, the mechanisms remain unclear. We undertook this study to examine the participation of CXCL16, a novel chemokine, in recruitment of MNCs to RA ST in vivo and to determine the signal transduction pathways mediating this process. Conclusion. Taken together, these results point to a unique role for CXCL16 as a premier MNC recruiter in RA and suggest additional therapeutic possibilities, targeting CXCL16, its receptor, or its signaling pathways.
SUMMARY:We examined the expression and participation of CCR6 and its ligand MIP-3␣ in rheumatoid arthritis (RA) by ELISA, RT-PCR, real-time PCR (TaqMan) analysis, monocyte chemotaxis, and two-and four-color flow cytometry. We found that RA synovial fluid (SF) contained significantly more MIP-3␣ than osteoarthritis (OA), indicating a potential role for MIP-3␣ in RA. IL-1, IL-18, and TNF-␣ stimulated RA fibroblast MIP-3␣ production at 48 hours of incubation in vitro. By TaqMan analysis, there were more CCR6 mRNA transcripts in RA synovial tissue (ST) than in OA or normal (NL) ST, and elevated MIP-3␣ mRNA expression in RA compared with NL ST. By FACS analysis, there were significantly elevated percentages of CD3ϩ/CD4ϩ/CD45ROϩ/ CCR6ϩ memory lymphocytes found in RA peripheral blood (PB) compared with NL PB or RA SF. We also found that MIP-3␣ induced monocyte chemotactic activity at 1.25 pM, consistent with concentrations of MIP-3␣ found in RA SF. Furthermore, MIP-3␣ accounted for 40% of RA SF chemotactic activity for monocytes in modified Boyden chamber assays. We confirmed that MIP-3␣ may be binding a G-coupled protein receptor because in vitro monocyte chemotaxis was inhibited by preincubation of monocytes with pertussis toxin. RA patient clinical data revealed that CD3ϩ lymphocyte/CCR6 expression inversely correlated with the age of the patient, indicating that CCR6 expression may be important in the development of RA at a younger age. Overall, these studies indicate that MIP-3␣ and CCR6 may function to recruit monocytes and memory lymphocytes from the RA PB to the RA joint. These results further indicate that expression of CCR6, the receptor for MIP-3␣, can be correlated with RA development. (Lab Invest 2003, 83:579 -588).
Objective. Since it is likely that monocytes utilize chemokines to migrate to the rheumatoid arthritis (RA) joint, we investigated the expression of CC chemokine receptors (CCR) 1-6 and C-X-C receptor 3 (CXCR3) in the peripheral blood (PB), synovial fluid (SF), and synovial tissue of patients with RA as well as in the PB of normal subjects. Methods. We compared chemokine receptor expression on CD14 monocytes from normal PB, RA PB, and RA SF using 2-color flow cytometry. Correlations with patient clinical data were determined. Chemokine and receptor expression were investigated in RA syno-vial tissue by immunohistochemistry and 2-color immu-nofluorescence to identify CD68 macrophages. Results. Most normal PB monocytes expressed CCR1 (87%) and CCR2 (84%), but not CCRs 3, 4, 5, or 6 or CXCR3. RA PB monocytes expressed CCR1 (56%) and CCR2 (76%), with significantly more expressing CCR3 (18%), CCR4 (38%), and CCR5 (17%) compared with normal PB monocytes. Significantly fewer SF monocytes from RA patients expressed CCR1 (17%), CCR2 (24%), and CCR4 (6%) while significantly more expressed CCR3 (35%) and CCR5 (47%) compared with RA and normal PB monocytes; CCR6 and CXCR3 were rarely detected. Clinically, the erythrocyte sedimenta-tion rate was inversely correlated with the expression of CCR1 and CCR4 by RA PB, and CCR5 expression by RA SF was correlated with the SF white blood cell count. CCR1-, CCR2-, and CCR5-immunoreactive cells were found in RA synovial tissue and colocalized with CD68 macrophages. RA synovial tissue RANTES (regulated upon activation, normally T cell expressed and secreted chemokine)-and monocyte chemoattractant protein 1-immunoreactive cells colocalized with CCR1 and CCR2, respectively, on serial sections. Macrophage inflammatory protein 1 (MIP-1) was principally restricted to vascular endothelium, and MIP-1 macro-phages were found throughout the sections. Conclusion. Monocytes mainly express CCR1 and CCR2 in normal and RA PB, CCR3 and CCR5 in RA PB and RA SF, and CCR4 in RA PB. The differential expression of chemokine receptors suggests that certain receptors aid in monocyte recruitment from the circulation while others are important in monocyte retention in the joint.
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