Elevated number of recently activated T cells in bone marrow of patients with rheumatoid arthritis: a role for interleukin 15?

OBJECTIVES: (1) To compare the absolute T-cell numbers in bone marrow (BM) isolated from patients with rheumatoid arthritis (RA) and osteoarthritis (OA); (2) to measure the levels of soluble interleukin 15 (IL-15) and IL-7; (3) to analyse the expression of activation markers on T cells; (4) to analyse influence of IL-15 stimulation on T-cell proliferation. METHODS: BM samples were obtained from patients undergoing joint replacement surgery. Concentrations of IL-15 and IL-7 were measured using specific ELISAs. The absolute number of T lymphocytes, their activation status and proliferation were evaluated by flow cytometry. RESULTS: BM from patients with RA contained double the number of CD3 T cells in comparison with OA (6.1 vs 2.7 × 10(6) cells/ml, p<0.008). Ratio CD3CD4:CD3CD8 was increased in RA BM, clearly indicating accumulation of CD3CD4 cells. T cells obtained from patients with RA expressed higher level of early activation markers than from OA. Elevated levels of IL-15 were found in BM plasma from patients with RA in comparison with patients with OA (1304.5±956.3 pg/ml and 760±238.7 pg/ml respectively, p<0.01). These data were confirmed by immunohistochemistry of RA BM from regions proximal and distal to the joint. Although both CD3CD4 and CD3CD8 cells proliferated after IL-15 stimulation in vitro, CD3CD4 cells from patients with RA proliferated more vigorously than those from patients with OA, reflecting the composition of T-cell subsets in BM. CONCLUSION: These results suggest that locally overproduced IL-15 may be responsible for the activation and proliferation of T cells in situ, reflected by significantly increased number of activated T cells in RA BM, possibly contributing to the pathogenesis of RA.

Functional TLR9 modulates bone marrow B cells from rheumatoid arthritis patients.

TLR9 recognizes unmethylated CpG-rich, pathogen-derived DNA sequences and represents the component of the innate immune system that heavily influences adaptive immunity and may contribute to the immunological disturbances in rheumatoid arthritis (RA). Accumulating data indicate that BM of RA patients participates in the pathogenesis of this disease as a site of proinflammatory cytokines overproduction and lymphocytes activation. Here, we investigated the functionality of TLR9 and its role in the modulation of RA BM B-cell functions. We report that BM B cells isolated from RA patients express TLR9 at the mRNA and protein levels acquired at the stage of preB/immature B-cell maturation. Stimulation of BM CD20(+) B cells by CpG-containing oligodeoxynucleotide-enhanced expression of activation markers (CD86 and CD54) triggered IL-6 and TNF-alpha secretion and cell proliferation. Significantly higher levels of eubacterial DNA encoding 16S-rRNA were found in BM samples from RA than osteoarthritis patients. Moreover, RA BM B cells exerted higher expression of CD86 than their osteoarthritis counterparts, suggesting their in situ activation via TLR9. Thus, our data indicate that TLR9 may participate in direct activation and proliferation of B cells in BM, and therefore could play a role in the pathogenesis of RA.

Cytotoxicity of taurine metabolites depends on the cell type.

We report that the effect of Tau-Cl on the cell fate strongly depends on the cellular context. In leukemic Jurkat cells Tau-Cl (> 200 microM) triggers mitochondrial, p53-independent apoptosis and amplifies PCD induced by anti-Fas treatment. In contrast, Tau-Cl affects RA FLS in a dose-dependent manner. At the noncytotoxic (200-400 microM) concentrations it induces: (i) p53-dependent growth arrest (Kontny et al., 2005), and (ii) Bax translocation and caspase 9 activity. Although the last events are characteristic for apoptotic state, there is not execution of RA FLS apoptosis, probably due to simultaneous inhibition of caspase 3 activity and prevention of PARP degradation. The last two events suggest an excessive ATP deprivation in Tau-Cl-treated RA FLS. At sufficiently high concentrations (> or = 500 microM) Tau-Cl causes therefore necrosis of these cells. Altogether our results suggest that Tau-Cl is able to eliminate the cells with both functional (RA FLS) and mutated (Jurkat) p53 tumor suppressor. This observation is clinically relevant because Tau-Cl is used in many animal inflammatory models and its sodium salt (used in this study) has been introduced to human therapy (Gottardi and Nagl, 2002; Teuchner et al., 2005).

Effective photoimmunotherapy of murine colon carcinoma induced by the combination of photodynamic therapy and dendritic cells.

PURPOSE: The unique mechanism of tumor destruction by photodynamic therapy (PDT), resulting from apoptotic and necrotic killing of tumor cells accompanied by local inflammatory reaction and induction of heat shock proteins (HSPs), prompted us to investigate the antitumor effectiveness of the combination of PDT with administration of immature dendritic cells (DCs). EXPERIMENTAL DESIGN: Confocal microscopy and Western blotting were used to investigate the influence of PDT on the induction of apoptosis and expression of HSP expression in C-26 cells. Confocal microscopy and flow cytometry studies were used to examine phagocytosis of PDT-treated C-26 cells by DCs. Secretion of interleukin (IL)-12 was measured with ELISA. Cytotoxic activity of lymph node cells was evaluated in a standard (51)Cr-release assay. The antitumor effectiveness of PDT in combination with administration of DCs was investigated in in vivo model. RESULTS: PDT treatment resulted in the induction of apoptotic and necrotic cell death and expression of HSP27, HSP60, HSP72/73, HSP90, HO-1, and GRP78 in C-26 cells. Immature DCs cocultured with PDT-treated C-26 cells efficiently engulfed killed tumor cells, acquired functional features of maturation, and produced substantial amounts of IL-12. Inoculation of immature DCs into the PDT-treated tumors resulted in effective homing to regional and peripheral lymph nodes and stimulation of cytotoxic activity of T and natural killer cells. The combination treatment with PDT and administration of DCs produced effective antitumor response. CONCLUSIONS: The feasibility and antitumor effectiveness demonstrated in these studies suggest that treatment protocols involving the administration of immature DCs in combination with PDT may have clinical potential.