Arthritis by autoreactive T cell lines obtained from rats after injection of intestinal bacterial cell wall fragments

Increased activation-induced cell death in peripheral lymphocytes of rheumatoid arthritis patients: the mechanism of action

Recently, we have described a soluble survival signal for activated lymphocytes from CD14(+) cells. As a result of the importance of T lymphocytes in the pathogenesis of rheumatoid arthritis (RA), we speculate a possible role for CD14(+) cells in supporting the outgrowth of autoreactive lymphocytes in RA. To address this issue further, supernatants from activated CD14(+) cells (CD14 cocktails) in both normal controls and RA patients were collected. The relative strength of the CD14 cocktails from normal controls and RA patients was compared. The data showed that depletion of CD14(+) cells resulted in a much higher increase of activation-induced cell death (AICD) and a decrease of lymphocyte proliferation in the peripheral blood mononuclear cells of RA patients compared to normal controls. Interestingly, CD14 cocktails from RA patients provide much stronger protection against AICD compared to those from normal controls. The observed soluble survival signal from CD14(+) cells is a general phenomenon because CD14 cocktails prevent both phytohaemagglutinin A-p- and anti-CD3-induced AICD. Furthermore, supernatants collected from human dendritic cell cultures also prevent activated lymphocytes from undergoing AICD. The data implicate an important role of the CD14(+) cell and its secreted form of survival signal in the pathogenesis of RA.

Streptococcal cell wall induced arthritis: leukocyte activation in extra-articular lymphoid tissue

Rheumatoid arthritis (RA) is a common systemic inflammatory disease thought to be T-helper-1 cell driven, though current controversy involves the relative role of T cells versus other leukocytes. Thus, there is a need for better understanding of the role of various leukocytes and their subsets in RA. Using the streptococcal cell wall (SCW) induced arthritis model, we examined leukocytes isolated from peripheral blood, spleen, and lymph nodes using monoclonal antibodies directed against lineage specific cell surface markers. Activation status of these cells was assessed using CD44 and CD71 as markers. T cells in general, and CD4+ T cells in particular were found to be activated in spleen and lymph nodes. B cells and monocytes in spleen demonstrated increased activation as well. The activation of cells in the myeloid and lymphoid lineages in the chronic phase of arthritis indicates ongoing involvement of innate and cognate immunity. This study quantitates specific changes in B and T lymphocytes, and myeloid cells and is consistent with findings in human RA in which specific antibodies, T cells, and myeloid cells are all implicated in the pathogenesis of RA.

Autoreactivity in collagen-induced arthritis of rats: a potential role for T cell responses to self MHC peptides

Collagen-induced arthritis (CIA) is a chronic inflammatory arthropathy of rats which follows immunization with bovine type II collagen (bCII). T cell lines generated from arthritic rats have been shown to be self-reactive and proliferate in an autologous MLR, which is MHC-dependent. However, the peptides which drive this autoreactive response remain to be elucidated. T cell lines, generated initially to bCII, were cultured with synthetic peptides representing potential autoreactive self epitopes. C1q-c(50-64) peptide, which demonstrates sequence homology to the bCII(184-198) peptide, failed to stimulate T cell proliferation suggesting that the autologous MLR was not due to antigen cross-reactivity with this self peptide. In contrast, several peptides from the amino-terminal region of the RT1D(u) MHC class II molecule stimulated proliferative responses. These results suggest that immunization with bCII leads to activation of a population of autoreactive T cells which respond in an autologous MLR, and that this response could be due, in part, to T cell reactivity to self MHC peptides.

T cell lines generated with type II collagen proliferate in an autologous mixed lymphocyte response

Collagen-induced arthritis (CIA) is a T cell-dependent disease induced in susceptible rodents by immunizing with bovine type II collagen (bCII). In order to study T cell responses, a programme to generate bCII-specific T cell lines from arthritic rats was initiated. Lymph node cells from bCII-immune WA/KIR/kcl rats were cultured with bCII in vitro, and the T cells were isolated and restimulated with bCII-pulsed antigen presenting cells (APC) (thymus cells or splenic low density cells). However, T cells, generated initially to bCII, subsequently proliferated upon co-culture with syngeneic APC even in the absence of bCII. This suggests that exposure to bCII resulted in the activation of a population of self-reactive T cells which proliferate in an autologous mixed lymphocyte response. In contrast, short-term T cell lines generated to ovalbumin, heat-denatured bCII and the collagen peptide bCII(184-198) proliferated in response to specific antigen-pulsed APC without demonstrating self-reactivity. Since denatured bCII and bCII(184-198) peptide are not arthritogenic and failed to generate self reactivity in vitro, this suggests that the native triple helical conformation of bCII is required for stimulating autoreactive T cell responses.

What determines arthritogenicity of bacterial cell wall? A study on Eubacterium cell wall-induced arthritis

OBJECTIVE

To study what determines the arthritogenicity of the bacterial cell wall (CW) using Eubacterium CW-induced arthritis in the rat.

METHODS

Eubacterium aerofaciens, previously reported as arthritogenic, and E. limosum and E. alactolyticum, known as non-arthritogenic, were used. Gas chromatography-mass spectrometry (GC-MS) was applied to analyse the chemical composition of the bacterial cell wall. Cellular immune response was measured by concanavalin A (Con A) stimulation and FACScan analysis. Also, serum antibodies against the injected cell wall were determined.

RESULTS

Unexpectedly, from the two strains of E. aerofaciens used only one proved to be arthritogenic (with a CW inducing chronic arthritis after a single intraperitoneal injection), even though these two strains were 100% identical by 16S rDNA analysis. CW of the other E. aerofaciens strain induced only transient acute arthritis; CW of E. limosum and E. alactolyticum induced weak signs of acute arthritis. Based on the GC-MS analysis and on the results published previously, putative structures of peptidoglycan (PG) in the four CW preparations are presented. It is apparent that the presence of lysine in position 3 of the PG stem peptide contributes to arthritogenicity but is alone not decisive. Both strains of E. aerofaciens were immunosuppressive, when tested by Con A response at 2 weeks after CW injection. Such an immunosuppression was not observed after injection of CW from E. limosum or E. alactolyticum. FACScan analysis for six T cell markers and studies on serum antibody responses did not reveal any differences in the effect of the four bacterial strains used.

CONCLUSIONS

The results obtained suggest that the chemical structure of PG present in the bacterial CW is decisive in determining arthritogenicity/non-arthritogenicity. Therefore, from two bacterial strains belonging to normal human intestinal flora and 100% identical by 16S rDNA analysis, one proved to be arthritogenic and the other non-arthritogenic.

The effect of ebselen on T-lymphocyte migration to arthritic joints and dermal inflammatory reactions in the rat

We have previously observed that ebselen (PZ 51, 2-Phenyl-1,2-Bensoisoselenazol-3-(2H)-one) can inhibit human polymorphonuclear leukocyte (PMNL) transendothelial migration in vitro and PMNL migration to arthritic joints and dermal inflammatory reactions in rats. In this study, we investigated the effect of ebselen on T-lymphocyte migration to the inflamed joints in rats with adjuvant arthritis (AA) and to dermal inflammation induced by cytokines (IFN gamma, mTNF alpha), cytokine inducing stimuli (poly I:C and LPS), or a delayed type hypersensitivity (DTH) reaction. Treatment of rats with AA with ebselen (100 mg/kg/day) p.o. for three days significantly reduced accumulation of 111In-labelled spleen T-cells (SPLT) in the arthritic joints, including forepaws, carpal joints, hindpaws and talar joints, and in all the above dermal inflammatory reactions. The inhibitory effect of ebselen on SPLT cell accumulation was greater than with indomethacin (2 mg/kg/day) and was observed within 3 h of initiation of ebselen treatment. Ebselen also inhibited SPLT migration to mandibular, axillary and mesenteric lymph nodes, and to the spleen. The results suggest that not only does ebselen inhibit SPLT migration to inflamed joints and to dermal inflammation but it also may inhibit lymphocyte homing and recirculation. Whether these effects of ebselen are related to its reported inhibition of cellular activation and intracellular signalling requires further investigation. However, the inhibition of T-lymphocyte migration reported here and of PMNL migration reported previously may both be beneficial in the treatment of human arthritis.

Background immunoglobulin-secreting cells specific for intestinal peptidoglycan-polysaccharides in mice

Natural antibodies to soluble peptidoglycan-polysaccharide complexes (PPC) from the human intestinal flora have been found in mammalian sera. In this study the occurrence and frequency of PPC-specific immunoglobulin-secreting cells (anti-PPC Ig-SC) were determined in lymphoid organs of normal (C57BL x CBA)F1 mice. One out of 100 IgM-SC in the spleen and Peyer's patches was found to be specific for PPC. In the small intestine a small number of anti-PPC IgA-SC were present probably responsible for IgA secretion in the gut lumen since very low serum concentrations anti-PPC IgA were found. Anti-PPC IgG-SC were not detected, although some anti-PPC IgG was found in the serum. It is concluded that the spleen is the major lymphoid organ responsible for the production of natural antibodies to PPC.

Immunohistology of joint inflammation induced in rats by cell wall fragments of Eubacterium aerofaciens

After a single intraperitoneal injection of cell wall fragments of Eubacterium aerofaciens, a main resident from the human intestinal flora, an acute arthritis develops within 2 days which is followed by a chronic arthritis that lasts at least 90 days. In an earlier report the histological appearance of the joint inflammation during this period has been described. In this study we investigated in more detail the cell types that are involved in the development of arthritis by using cell-type-specific monoclonal antibodies in an immunohistological assay. In the acute phase of arthritis, T-helper cells appeared in the synovial tissue together with ED1-positive (ED1+) and ED3-positive (ED3+) macrophages. After a temporary decline at day 12 all macrophage subsets, as well as T-helper cells, reappeared or increased again at day 33. Later, in the chronic phase (days 47-90), an increased number of ED1-positive (ED1+) cells in the synovial tissue and a decreased number of ED2-positive (ED2+) cells in the synovial lining was the most prominent finding when compared with control rats. These results indicate that, apart from T lymphocytes, macrophages also play an important role in the development and continuation of chronic arthritis in this model.