Parathyroid hormone-related peptide expression in rat collagen-induced arthritis.

OBJECTIVES: The aim of this study was to describe expression of parathyroid hormone-related peptide (PTHrP) in collagen-induced arthritis (CIA), a well-established animal model for rheumatoid arthritis. METHODS: CIA was induced in female dark agouti rats. Inguinal (ILNs) and popliteal (PLNs) lymph nodes and distal interphalangeal joints (DIP) were retrieved at different time points. Tissues were processed for detection of PTHrP and cell marker proteins by immunohistochemistry. Lymph node RNA was extracted, and PTHrP mRNA quantified using competitive reverse transcriptase polymerase chain reaction. RESULTS: Hyperplasia of ILNs was observed 2 days after injection, coinciding with the peak in PTHrP expression in ILNs (1240 +/- 373 gene copies/ng RNA vs normal 339 +/- 120, P < 0.05). Hyperplasia of PLNs was first seen at 1 day after onset of arthritis, coinciding with the peak in PTHrP expression in PLNs (2267 +/- 697 vs normal 781 +/- 136, P < 0.01). PTHrP expression in PLNs remained increased 5 days after onset (1361 +/- 302 vs normal 781 +/- 136, P < 0.05). In both PLNs and ILNs PTHrP protein was localized to high endothelial venules, lymphocytes and monocytes/macrophages. In DIP joint synovium PTHrP staining was first detected on day 10 after onset, and was most abundant at day 20 after onset, at sites of bone resorption and deposition, where it was localized to neutrophils, cells of monocyte lineage and osteoblasts. CONCLUSIONS: Changes in ILN and PLN PTHrP mRNA expression suggest that elevated levels of the cytokine are associated with aggravation of the inflammatory immune response. Changes in PTHrP in DIP joints indicate its involvement in late rather than early pathogenic events in CIA joints.

Mast cells as a target in the treatment of rheumatoid arthritis.

Mast cells represent a unique cell population, which is involved in a number of immune responses in our body. Mast cells (MCs) release an array of potent pro-inflammatory mediators and cytokines upon activation that are either pre-stored in the granules or synthesised de novo. These mediators can make a substantial contribution to the initiation and perpetuation of the inflammatory processes. This review provides an insight for the potential role of MCs in rheumatoid arthritis (RA). The data on mast cell distribution in the rheumatoid joint along with the information obtained from in vitro experiments and observations in animal models suggest that these cells may be involved in RA. The encouraging results of MC inactivating therapy in animal models of arthritis indicate that MC stabilizers may prove beneficial as a supplementary therapy in RA.

Collagen induced arthritis in rats. Contrasting effect of subcutaneous versus intradermal inoculation of type II collagen.

OBJECTIVE: To determine the effect of subcutaneous (s.c.) as compared to intradermal (i.d.) inoculation of collagen type II (CII) in induction of collagen induced arthritis (CIA). METHODS: Dark Agouti (DA) and Lewis rats were injected with CII either i.d. or s.c.. A group of s.c. inoculated DA rats was re-injected with CII intradermally 45 days after first injection (s.c./i.d.). Arthritis was assessed by macroscopic scoring, histology, and immunohistochemistry. Levels of anti-CII antibody subtypes were measured by ELISA. RESULTS: Intradermal but not s.c. inoculation of CII resulted in histologically confirmed erosive arthritis in both Lewis and DA strains. Subcutaneous/intradermal inoculated DA rats developed mild CIA with lower arthritic scores and delayed onset. Lewis rats injected s.c. had lower levels of total Ig, IgG, IgG2a, and IgG2b and similar titers of IgG1 compared to i.d. inoculated rats. In contrast, only IgG2b levels were lower in s.c./i.d. compared to i.d. rats. CONCLUSION: Our data suggest that s.c. administration of CII tolerises animals against autoimmune CIA.

Expression of osteoclast differentiation factor at sites of bone erosion in collagen-induced arthritis.

OBJECTIVE: To investigate the cellular mechanism of bone destruction in collagen-induced arthritis (CIA). METHODS: After induction of CIA in DA rats, a histologic study of the advanced arthritic lesion was carried out on whole, decalcified joints from the hindpaws of affected animals. To conclusively identify osteoclasts, joint tissue sections were stained for tartrate-resistant acid phosphatase (TRAP) enzyme activity, and calcitonin receptors (CTR) were identified using a specific rabbit polyclonal antibody. The expression of messenger RNA (mRNA) for the osteoclast differentiation factor (also known as receptor activator of nuclear factor kappaB ligand [RANKL]) was investigated using in situ hybridization with a specific riboprobe. RESULTS: TRAP-positive and CTR-positive multinucleated cells were invariably detected in arthritic lesions that were characterized by bone destruction. Osteoclasts were identified at the pannus-bone and pannus-subchondral bone junctions of arthritic joints, where they formed erosive pits in the bone. TRAP-positive multinucleated cells were detected within synovium and at the bone erosive front; however, CTR-positive multinucleated cells were present only at sites adjacent to bone. RANKL mRNA was highly expressed in the synovial cell infiltrate in arthritic joints, as well as by osteoclasts at sites of bone erosion. CONCLUSION: Focal bone erosion in CIA is attributed to cells expressing definitive features of osteoclasts, including CTR. The expression of RANKL by cells within inflamed synovium suggests a mechanism for osteoclast differentiation and activation at sites of bone erosion. Inhibitors of RANKL may represent a novel approach to treatment of bone loss in rheumatoid arthritis.