Amino Acids Fueling Fibroblast-Like Synoviocyte Activation and Arthritis By Regulating Chemokine Expression and Leukocyte Migration.

OBJECTIVE: We analyzed the impact of amino acid (AA) availability on the inflammatory response in arthritis. METHODS: We stimulated rheumatoid arthritis (RA) fibroblast-like synoviocytes (FLSs) with tumor necrosis factor (TNF) in the presence or absence of proteinogenic AAs and measured their response by QuantSeq 3' messenger RNA sequencing, quantitative polymerase chain reaction, and enzyme-linked immunosorbent assay. Signal transduction events were determined by Western blot. We performed K/BxN serum transfer arthritis in mice receiving a normal and a low-protein diet and analyzed arthritis clinically and histologically. RESULTS: Deprivation of AAs decreased the expression of a specific subset of genes, including the chemokines CXCL10, CCL2, and CCL5 in TNF-stimulated FLSs. Mechanistically, the presence of AAs was required for the TNF-induced activation of an interferon regulatory factor 1 (IRF1)-STAT1 signaling circuit that drives the expression of chemotactic factors. The expression of IRF1 and the IRF1-dependent gene set in FLSs was highly correlated with the presence of inflammatory cells in human RA, emphasizing the important role of this AA-dependent pathway in inflammatory cell recruitment to the synovial tissue. Finally, we show that mice receiving a low-protein diet expressed less IRF1 in the inflamed synovium and consequently developed reduced clinical and histologic signs of arthritis. CONCLUSION: AA deprivation reduces the severity of arthritis by suppressing the expression of IRF1-STAT1-driven chemokines, which are crucial for leukocyte recruitment to the arthritic joint. Overall, our study provides novel insights into critical determinants of inflammatory arthritis and may pave the way for dietary intervention trials in RA.

Regulatory T cells form stable and long-lasting cell cluster with myeloid dendritic cells (DC).

Regulatory T cells (Treg) with the capacity to suppress T-cell proliferation exert various effects on T cell function. In addition, Treg have been shown to modulate the phenotype and function of antigen-presenting cells (APC) including dendritic cells (DC), B cells and monocytes/macrophages. However, the specific mechanism(s) of how Treg affect APC have not been entirely identified so far. In this study, we analyzed the interaction of human Treg and effector T cells (Teff) with peripheral blood myeloid and monocyte-derived dendritic cells in vitro. A strong tendency for cell cluster formation between Treg and DC was observed, which was dependent on the adhesion molecules ICAM-1, LFA-3 and ICAM-3. In addition, Treg were found to express higher levels of LFA-1, LFA-2, LFA-3 and ICAM-3 both before and after activation with anti-CD3 antibodies. Using in vitro live cell imaging, we were further able to show that Treg-DC cell clusters, in contrast to Teff-DC clusters, were stable and long lasting. Co-cultures of DC with Treg diminished the up-regulation of activation induced costimulatory molecule expression on DC, and further reduced the production of tumor necrosis factor alpha and stimulated the production of IL-4. In summary, our data indicate that Treg-DC cluster formation might enable Treg to modulate phenotypic and functional characteristics of DC and help to constrain Teff activation.

Interferon signals and monocytic sensitization of the interferon-γ signaling pathway in the peripheral blood of patients with rheumatoid arthritis.

OBJECTIVE: Both type I interferons (IFNα and IFNß) and type II IFN (IFNγ) signal via pSTAT-1. Immunohistochemistry and the gene expression signatures of rheumatoid arthritis (RA) synovial tissue suggest an activated IFN/STAT-1 signaling pathway. The aim of this study was to determine the systemic activity of the IFN/STAT-1 signaling pathway in the peripheral blood cells of patients with RA. METHODS: Fluorocytometry or quantitative polymerase chain reaction was used to measure the expression of STAT-1, pSTAT-1, and IFN-inducible genes (monokine induced by interferon-γ [MIG], interferon-γ-inducible protein 10 [IP-10], and 2',5'-oligoadenylate synthetase [OAS]) in the peripheral blood mononuclear cells (PBMCs) and purified CD14+ peripheral blood monocytes of patients with RA and healthy control subjects. PBMCs were also incubated for 48 hours with IFNs and several other cytokines to investigate influences on STAT-1 levels. To examine the significance of STAT-1 activation in RA monocytes after stimulation with IFNγ, the expression of pSTAT-1 and of the IFNγ-inducible chemokine MIG was measured using fluorocytometry. RESULTS: Levels of STAT-1 were significantly increased in peripheral lymphocytes and monocytes from patients with RA compared with those from healthy control subjects. STAT-1 levels correlated well with RA disease activity, as measured by the Disease Activity Score in 28 joints and the Clinical Disease Activity Index. Furthermore, STAT-1 messenger RNA expression in RA CD14+ monocytes correlated with the expression of other IFN-target genes, such as IP-10, OAS, or MIG. In RA PBMCs, STAT-1 expression was increased not only by IFNs but also by tumor necrosis factor. RA monocytes demonstrated a considerably higher increase in pSTAT-1 and MIG levels upon IFNγ stimulation when compared with monocytes from control subjects, indicating that RA monocytes are more sensitive to IFNγ stimulation. CONCLUSION: In addition to supporting the role of IFNs in systemic proinflammatory activity, the results of this study further suggest preactivation of the IFNγ/STAT-1 signaling pathway, especially in RA monocytes.

Endothelial progenitor cells in active rheumatoid arthritis: effects of tumour necrosis factor and glucocorticoid therapy.

OBJECTIVES: To study the effects of short-term intermediate dose glucocorticoid (GC) therapy in patients with active rheumatoid arthritis (RA) on circulating endothelial progenitor cells (EPC), which are known to influence cardiovascular risk, and to elucidate mechanisms potentially responsible for the reduction of EPCs in patients with active RA. METHODS: EPCs were quantified in 29 patients with active RA by flow cytometry, colony forming unit (CFU) and circulating angiogenic cell (CAC) assays before and after 7 days of intermediate dose GC therapy. CFU from patients with RA and from healthy referents (HR) were cultured in vitro in the absence or presence of dexamethasone (Dex) and/or TNF. RESULTS: After 1 week of GC therapy, EPC increased from 0.026 (SD 0.003)% to 0.053 (SD 0.010)% (p<0.01), and from 12 (SD 4) to 27 (SD 7) CFU/well (p<0.02); CAC also increased from 7 (SD 2) to 29 (SD 8) cells/high power field (p<0.05). In parallel, disease activity decreased significantly after GC treatment. TNF serum levels also decreased from 36 (SD 10) to 14 (SD 6) pg/ml (p<0.0001). Addition of Dex to the RA CFU led to a significant increase of mean CFU counts, whereas addition of TNF induced a decrease of CFU. CONCLUSIONS: Our data indicate that TNF may be at least partly responsible for the reduction of EPC seen in patients with RA. Intermediate doses of GCs for a short period of time, apart from reducing disease activity, significantly increase circulating EPC.

Transcriptomal comparison of human dermal lymphatic endothelial cells ex vivo and in vitro.

The in vivo functions of lymphatic endothelial cells depend on their microenvironment, which cannot be fully reproduced in vitro. Because of technical limitations, gene expression in uncultured, "ex vivo" lymphatic endothelial cells has not been characterized at the molecular level. We combined tissue micropreparation and direct cell isolation with DNA chip experiments to identify 159 genes differentiating human lymphatic endothelial cells from blood vascular endothelial cells ex vivo. The same analysis performed with cultured primary cells revealed that only 19 genes characteristic for lymphatic endothelium ex vivo retained this property upon culture, while 27 marker genes were newly induced. In addition, a set of panendothelial genes could be recognized. The propagation of lymphatic endothelial cells in culture stimulated transcription of genes associated with cell turnover, basic metabolism, and the cytoskeleton. On the other hand, there was downregulation of genes encoding extracellular matrix components, signaling via transmembrane tyrosine kinase pathways and the chemokine (C-C) ligand 21. Direct ex vivo analysis of the lymphatic endothelial cell transcriptome is helpful for the understanding of the physiology of the lymphatic vascular system and of the pathogenesis of its diseases.

Effects of short-term infliximab therapy on autoantibodies in systemic lupus erythematosus.

OBJECTIVE: To analyze changes in autoantibodies occurring in patients with systemic lupus erythematosus (SLE) treated with 4 infusions of the chimeric anti-tumor necrosis factor alpha (TNFalpha) antibody infliximab. METHODS: In an open-label safety study, 7 patients with SLE were treated with infliximab at weeks 0, 2, 6, and 10 in combination with azathioprine or methotrexate. Antibodies to double-stranded DNA (dsDNA) were determined by radioimmunoassay and the Crithidia luciliae indirect immunofluorescence assay; anticardiolipin antibodies (aCL) and antibodies to histone and chromatin were measured by enzyme-linked immunosorbent assay. Antihistone antibodies were also analyzed by immunoblotting. Peripheral blood mononuclear cells from healthy individuals and SLE patients were incubated for 2 weeks with or without TNFalpha. TNFalpha was removed by washing and by the addition of infliximab. Apoptotic cells were stained with annexin V and analyzed by flow cytometry. RESULTS: Autoantibodies to dsDNA increased in 5 of 7 patients. Histone, chromatin, and IgM aCL levels were increased in 4 of 7, 6 of 7, and 4 of 7 patients, respectively, peaking 4-10 weeks after the last infliximab infusion, but falling to baseline levels or lower thereafter. In the in vitro experiments, TNF withdrawal after long-term incubation with recombinant human TNF led to increased percentages of apoptotic cells. CONCLUSION: While TNF blockade was clinically effective, the majority of SLE patients treated with infliximab showed an increase in autoantibodies to nuclear antigens and phospholipids. These increases were transient and were not associated with disease flares. Increased availability of apoptotic antigens after TNF blockade may play a role in the autoantibody formation induced by TNF blockade.

Depletion of endothelial progenitor cells in the peripheral blood of patients with rheumatoid arthritis.

BACKGROUND: Rheumatoid arthritis (RA) is characterized by increased cardiovascular morbidity and mortality that cannot be explained solely by traditional cardiovascular risk factors. Cardiovascular morbidity is related to disease activity and can be normalized by effective therapy. Because the quantity of endothelial progenitor cells (EPCs) in the peripheral blood is correlated inversely with cardiovascular risk, we studied whether such abnormalities could also be observed in patients with RA. METHODS AND RESULTS: EPCs were determined in 52 RA patients and in 16 healthy referents (HRs) by fluorescence-activated cell-sorting (FACS) analysis. Patients were divided into groups characterized by active disease (n=36) and low disease activity (n=16). Cells that were positive by flow cytometry for CD34/KDR/AC133 within the lymphocyte population were characterized as EPCs. Furthermore, in subgroups of patients, circulating EPCs were also quantified by a colony-forming unit (CFU) and a circulating angiogenic cell (CAC) assay. EPCs were significantly decreased in RA patients suffering from active disease compared with those from HRs, as measured by FACS analysis (0.026+/-0.002% versus 0.045+/-0.008%, respectively, P<0.05), CFU assay (mean of 5+/-2 versus 18+/-5 CFU/well in HRs, P<0.05), and CAC assay (mean of 7+/-2 versus 52+/-16 positive cells/high-power field, P<0.005). In contrast, the frequency of circulating EPCs from patients with low disease activity was comparable to that of healthy individuals (0.052+/-0.006% by FACS analysis), CFU assay (10+/-5 CFU/well), and CAC assay (mean of 25+/-5 positive cells). Moreover, EPC quantities in peripheral blood were correlated inversely with disease activity as assessed by the disease activity score (r=-0.38, P<0.01). CONCLUSIONS: Our observations indicate that active RA is associated with a depletion of circulating EPCs. This might be one of several factors contributing to the increased cardiovascular risk in RA.