Rheumatoid Fibroblast-like Synoviocytes Downregulate Foxp3 Expression by Regulatory T Cells Via GITRL/GITR Interaction

Fibroblast-like synoviocytes (FLS) colocalize with leukocyte infiltrates in rheumatoid synovia. Proinflammatory leukocytes are known to amplify inflammation by signaling to FLS, but crosstalk between FLS and regulatory T cells (Tregs) remains uncharacterized. To address this possibility, we cocultured FLS lines derived from arthritic mice with Tregs. FLS that expressed the ligand for glucocorticoid-induced TNF receptor family-related gene (GITR) decreased expression of Foxp3 and GITR in Tregs in a contact-dependent manner. This effect was abolished by blocking antibody to GITR. On the other hand, the Tregs caused the FLS to increase IL-6 production. These results demonstrate that inflamed FLS license Tregs to downregulate Foxp3 expression via the GITRL/GITR interaction while the Tregs induce the FLS to increase their production of IL-6. Our findings suggest that the interaction between FLS and Tregs dampens the anti-inflammatory activity of Tregs and amplifies the proinflammatory activity of FLS, thereby exacerbating inflammatory arthritis.

Deficiency of Foxp3+ Regulatory T Cells Exacerbates Autoimmune Arthritis by Altering the Synovial Proportions of CD4+ T Cells and Dendritic Cells

BACKGROUND: CD4+Fop3+ regulatory T cells (Tregs) are needed to maintain peripheral tolerance, but their role in the development of autoimmune arthritis is still debated. The present study was undertaken to investigate the mechanism by which Tregs influence autoimmune arthritis, using a mouse model entitled K/BxN. METHODS: We generated Treg-deficient K/BxNsf mice by congenically crossing K/BxN mice with Foxp3 mutant scurfy mice. The arthritic symptoms of the mice were clinically and histopathologically examined. The proportions and activation of CD4+ T cells and/or dendritic cells were assessed in the spleens, draining lymph nodes and synovial tissue of these mice. RESULTS: K/BxNsf mice exhibited earlier onset and more aggressive progression of arthritis than their K/BxN littermates. In particular, bone destruction associated with the influx of numerous RANKL+ cells into synovia was very prominent. They also contained more memory phenotype CD4+ T cells, more Th1 and Th2 cells, and fewer Th17 cells than their control counterparts. Plasmacytoid dendritic cells expressing high levels of CD86 and CD40 were elevated in the K/BxNsf synovia. CONCLUSION: We conclude that Tregs oppose the progression of arthritis by inhibiting the development of RANKL+ cells, homeostatically proliferating CD4+ T cells, Th1, Th2 and mature plasmacytoid dendritic cells, and by inhibiting their influx into joints.

Deficiency of Foxp3+ Regulatory T Cells Exacerbates Autoimmune Arthritis by Altering the Synovial Proportions of CD4+ T Cells and Dendritic Cells

BACKGROUND: CD4+Fop3+ regulatory T cells (Tregs) are needed to maintain peripheral tolerance, but their role in the development of autoimmune arthritis is still debated. The present study was undertaken to investigate the mechanism by which Tregs influence autoimmune arthritis, using a mouse model entitled K/BxN. METHODS: We generated Treg-deficient K/BxNsf mice by congenically crossing K/BxN mice with Foxp3 mutant scurfy mice. The arthritic symptoms of the mice were clinically and histopathologically examined. The proportions and activation of CD4+ T cells and/or dendritic cells were assessed in the spleens, draining lymph nodes and synovial tissue of these mice. RESULTS: K/BxNsf mice exhibited earlier onset and more aggressive progression of arthritis than their K/BxN littermates. In particular, bone destruction associated with the influx of numerous RANKL+ cells into synovia was very prominent. They also contained more memory phenotype CD4+ T cells, more Th1 and Th2 cells, and fewer Th17 cells than their control counterparts. Plasmacytoid dendritic cells expressing high levels of CD86 and CD40 were elevated in the K/BxNsf synovia. CONCLUSION: We conclude that Tregs oppose the progression of arthritis by inhibiting the development of RANKL+ cells, homeostatically proliferating CD4+ T cells, Th1, Th2 and mature plasmacytoid dendritic cells, and by inhibiting their influx into joints.

The Marginal Zone B Cells have an Increased Antibody Expression in Mice with Collagen-induced Arthritis / 대한류마티스학회지

OBJECTIVE: Mature B cells in the spleen of mouse can be divide into two main subsets: the follicular (FO) B cells and the marginal zone (MZ) B cells. In this study, we investigated which subtype of B cells is involved in the production of costimulatory molecules, cytokine and antibody during the induction of autoimmune arthritis. METHODS: The MZB and FOB cells isolated from DBA/1J induced- and collagen-induced arthritis (CIA) mice were stimulated with LPS or CpG. The costimulatory molecules were measured by flow cytometry (FACs). The cytokines were measured by ELISA. Production of antibodies by the MZB cells or FOB cells was measured by ELISA and the results were observed by confocal microscopy. RESULTS: The expression of co-stimulatory molecules was stronger in the MZB cells than that in the FOB cells. The production of cytokines (IL-10, IL-6) and antibodies was higher in the MZB cells. The IgG expression of the MZB cells, which is known to be associated with the acceleration of autoimmunity, was higher in the CIA mice than that in the DBA/1J mice. CONCLUSION: We observed that the MZB cells were increased in the CIA mice. The costimulatory molecules, cytokine and auto-antibodies were increased in the MZB cells compared to that of the FOB cells. Our results suggest that MZB cells mainly produce autoantibodies, and they play a key role in development of autoimmune arthritis.

Increased Indoleamine 2,3-Dioxygenase Expressing CD11c+ CD11b+ Dendritic cells in Oral Tolerance to Type II Collagen / 대한류마티스학회지

OBJECTIVE: Indoleamine 2, 3-dioxygenase (IDO), an immuno suppression enzyme, is one of the initial and rate-limiting enzymes involved in the catabolism of the essential amino acid tryptophan. IDO inhibits T cell proliferation, induces T cell apoptosis, and plays a fundamental role in autoimmunity and allergy. We investigated which subtype of dendritic cells (DCs) is involved in IDO expression and the generation of regulatory T cells during the induction of oral tolerance in type II collagen-induced arthritis (CIA). METHODS: Type II Collagen was fed to DBA/1J mice before immunization. Changes in DC subtypes and induction of regulatory T cell in orally tolerized CIA mice were analyzed. Whether the effect of DC subtype was modulated by the IDO expression, was determined by flow cytometry (FACs) and confocal microscopy. RESULTS: IDO expression of CD11c+ DCs was higher in orally tolerized CIA mice than in non-tolerized CIA mice. CD11b+ DCs of the CD11c +DCs, subtype was higher in the induction of in IDO expression. Our data suggest that these IDO expressing DCs of oral tolerized mice suppressed type II collagen-specific T cell proliferation and favored the differentiation of naive CD4+ T cells into regulatory T cells. Especially, CD11c+CD11b+ DCs expressed IDO, which is known to be associated with regulatory T cell induction. CONCLUSION: We observed that oral tolerance induced the increase in IDO-expressing CD11c+CD11b+ DCs, which appeared to induce regulatory T cells. IDO-expressing CD11c+CD11b+ DCs are involved in oral tolerance, which may provide a new therapeutic approach for the treatment of rheumatoid arthritis.

The Th17 and Autoimmune Arthritis

Autoimmune arthritis, such as rheumatoid arthritis (RA), is a chronic inflammatory disorder that primarily affects the joints and then results in their progressive destruction. Effector Th cells have been classified as Th1 and Th2 subsets based on their cytokine expression profiles and immune regulatory function. Another subset of T cells termed Th17 was recently discovered and known to selectively produce IL-17. Also, Th17 was shown to be generated by TGFbeta and IL-6 and maintained by IL-23. IL-17 is a proinflammatory cytokine that is considered to involve the development of various inflammatory autoimmune diseases such as RA, asthma, lupus, and allograft rejection. IL-17 is present in the sera, synovial fluids and synovial biopsies of most RA patient. IL-17 activates RA synovial fibroblasts to synthesize IL-6, IL-8 and VEGF via PI3K/Akt and NF-kappaB dependent pathway. IL-17 increases IL-6 production, collagen destruction and collagen synthesis. In addition, it not only causes bone resorption but also increases osteoclastogenesis and fetal cartilage destruction. Inhibition of the IL-17 production may contribute a novel therapeutic approach along with potent anti-inflammatory effect and with less immunosuppressive effect on host defenses.