Objective. To investigate in vivo and in vitro whether macrophages have an intermediate role in transforming growth factor  (TGF)-induced osteophyte formation.Methods. In vivo, synovial lining macrophages were selectively depleted by injection of clodronateladen liposomes 7 days prior to injection of 20 ng or 200 ng of TGF into murine knee joints 3 times, on alternate days. Total knee joint sections were obtained on day 7 after the last injection and stained with Safranin O. Production of bone morphogenetic protein 2 (BMP-2) and BMP-4 was determined by immunolocalization. The interaction between murine macrophages and mesenchymal cells (precursors with chondrogenic potential) was studied in vitro using a Transwell system in which RAW macrophages were cocultured with C3H10T1/2 mesenchymal cells. Spheroid neocartilage formation was quantified microscopically after staining with May-Grünwald-Giemsa.Results Osteoarthritis (OA) is a chronic disease characterized by severe cartilage damage and osteophyte formation. Its pathogenesis is thought to be multifactorial, and most likely, both metabolic and mechanical factors are involved (1,2).During OA, dysregulated chondrogenesis is observed along the margins of articular cartilage. It involves differentiation of chondrogenic cells that reside in the periosteum (periosteal cells). In addition, periosteal cells express cartilage-specific genes producing extracellular matrix proteins. These cells may mature from prechondrocytic cells into hypertrophic chondrocytes (3). Cartilage formation is followed by cartilage maturation, removal of cartilage, and replacement with bone, resulting in structures called osteophytes (4).Factors that regulate mesenchymal cells to differentiate along the chondrocytic lineage for new cartilage and bone formation include cytokines and growth fac-1 P.
The age-dependency of RDW seems to be a universal biological feature rather than related with a single type of hematology analyzer. As not only RDW, but also MCV increases with age, we propose that future studies on the prognostic significance of RDW take its age-dependency into account and focus on RDW-SD as a potential marker of adverse events in many clinical conditions.
IgG-containing immune complexes, which are found in most RA joints, communicate with hematopoietic cells using three classes of Fc receptors(Fc gamma RI, -II, -III). In a previous study we found that if a chronic T-cell-mediated antigen-induced arthritis (AIA) was elicited in knee joints of FcR gamma-chain-deficient mice that lack functional Fc gamma RI and Fc gamma RIII, joint inflammation was comparable but severe cartilage destruction was absent. We now examined the individual role of the stimulatory Fc gamma RI and Fc gamma RIII and inhibitory Fc gamma RII in inflammation and functional cartilage damage in knee joints with AIA using Fc gamma RI-, Fc gamma RII-, and Fc gamma RIII-deficient mice. Three weeks after immunization with the antigen-methylated bovine serum albumin (BSA), cellular (T-cell responses as measured by lymphocyte proliferation) immunity raised against mBSA was comparable in all groups examined. Humoral (total IgG, IgG1, IgG2a, and IgG2b levels) immunity against mBSA was comparable in Fc gamma RI-/- and Fc gamma RIII-/- but higher in Fc gamma RII-/- if compared to controls. Joint swelling as measured by (99m)Tc uptake at days 1, 3, and 7 was similar in Fc gamma RI-/- and Fc gamma RIII-/- mice and significantly higher in Fc gamma RII-/-. Chronic inflammation and cartilage damage (depletion of proteoglycans, metalloproteinase (MMP)-induced neoepitopes, and matrix erosion) was studied histologically in total knee joint sections stained with hematoxylin or safranin-O. Histologically, at day 7 after AIA induction, exudate and infiltrate in the knee joint was similar in Fc gamma RI-/- and Fc gamma RIII-/- and significantly higher (230% and 340%) in Fc gamma RII-/- mice if compared to controls. Aggrecan breakdown in cartilage caused by MMPs and, which is related to severe irreversible cartilage erosion, was further studied by immunolocalization of MMP-mediated neoepitopes (VDIPEN) and image analysis. MMP-induced neoepitopes determined in various cartilage layers (tibia and femur) were primarily inhibited in Fc gamma RI-/- (79 to 87% and 87 to 88%, respectively) and comparable in Fc gamma RIII-/-. VDIPEN neoepitopes were much higher (82 to 122% and 200 to 250%, respectively) in Fc gamma RII-/- mice. Initial depletion of proteoglycans was similar (60 to 100%) in all groups. In the chronic phase, cartilage matrix erosion in the lateral and medial tibia was significantly elevated in Fc gamma RII-/- (222% and 186%, respectively) but not in Fc gamma RI-/- or Fc gamma RIII-/- mice. These results suggest that during T-cell-mediated AIA, Fc gamma RI and Fc gamma RIII act in concert in acute and chronic inflammation whereas Fc gamma RI is the dominant FcR involved in severe cartilage destruction. Fc gamma RII is a crucial inhibiting factor in acute and chronic inflammation and cartilage erosion.
This study is the first to show that a single genetic variant, the FCGR2B 695T>C polymorphism, is a critical determinant of disease severity in RA and radically changes DC behavior. Our results underscore the key role of DCs in the progression of RA and reveal FcgammaRIIb as an important potential therapeutic target in RA and other autoimmune conditions.
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