Antigenicity of proteins from cultured synovial fibroblasts

Receptor-mediated monitoring of tissue well-being via detection of soluble heparan sulfate by Toll-like receptor 4

Perturbations to the well-being of tissues in plants and invertebrates generate fragments of endogenous molecules that are recognized by innate immune receptors. Vertebrates have homologous receptors on specialized cells such as dendritic cells, but whether these receptors respond to fragments of endogenous molecules is not known. We tested the idea that Toll-like receptors on dendritic cells might recognize polysaccharide fragments of heparan sulfate proteoglycan. Dendritic cells were found to mature in response to heparan sulfate as measured by costimulatory protein expression, morphology, and T lymphocyte stimulation, but this maturation was absent when Toll-like receptor 4 was mutated or inhibited. These findings suggest that Toll-like receptors in vertebrates may monitor tissue well-being by recognizing fragments of endogenous macromolecules.

Connective tissue components in synovial fibroblast cultures exposed to interleukin 1 and prostaglandin E2

Long-term synovial fibroblast cultures were exposed to interleukin 1 (IL-1) or prostaglandin E2 (PGE2). The normally spindle-shaped fibroblasts changed to stellate-shaped cells, resembling the HLA-DR-positive, collagenase-producing cells which are normally seen only in primary cultures from enzyme-digested rheumatoid synovial tissue. However, the IL-1- or PGE2-induced fibroblasts were not HLA-DR-positive. This suggests that these cell populations represent originally different cell lines or that the expression of HLA-DR antigens is not induced by the agents used. For further characterization of these stellate cells, the location of fibronectin and type I collagen was studied by specific antibodies and the pericellular coat around fibroblasts was visualized by the erythrocyte exclusion method. Both IL-1 and PGE2 treatments destroyed the intercellular fibronectin network. Type I collagen was detected as intracellular granules. The stellate fibroblasts were usually full of these granules in contrast to intact fibroblasts in which the number of collagen fluorescence granules varied greatly. The pericellular coat known to be formed mainly by hyaluronic acid was similar around spindle and stellate-shaped fibroblasts. Rheumatoid arthritis-derived fibroblasts did not differ from their non-rheumatoid counterparts in any of the experiments. The effect of IL-1 and PGE2 on fibroblasts simulates the interaction between mononuclear cells and fibroblasts in synovial stroma and also potentially the interactions between different cell types in synovial lining.