Recently, we identified that regulation of leukocyte recruitment by IL-6 requires shedding of the IL-6R from infiltrating neutrophils. In this study, experiments have examined whether other IL-6-related cytokines possess similar properties. Levels of oncostatin M (OSM) and leukemia inhibitory factor were analyzed in patients with overt bacterial peritonitis during the first 5 days of infection. Although no change in leukemia inhibitory factor was observed throughout the duration of infection, OSM was significantly elevated on day 1 and rapidly returned to baseline by days 2–3. The source of OSM was identified as the infiltrating neutrophils, and OSM levels correlated both with leukocyte numbers and i.p. soluble IL-6R (sIL-6R) levels. FACS analysis revealed that OSM receptor β expression was restricted to human peritoneal mesothelial cells. Stimulation of human peritoneal mesothelial cells with OSM induced phosphorylation of gp130 and OSM receptor β, which was accompanied by activation of STAT3 and secretion of CC chemokine ligand 2/monocyte chemoattractant protein-1 and IL-6. Although OSM itself did not modulate CXC chemokine ligand 8/IL-8 release, it effectively suppressed IL-1β-mediated expression of this neutrophil-activating CXC chemokine. Moreover, OSM synergistically blocked IL-1β-induced CXC chemokine ligand 8 secretion in combination with the IL-6/sIL-6R complex. Thus suggesting that OSM and sIL-6R release from infiltrating neutrophils may contribute to the temporal switch between neutrophil influx and mononuclear cell recruitment seen during acute inflammation.
Autoimmune arthritis can be induced in rats by immunization with cartilage-specific types II and XI collagen. Type XI collagen is composed of alpha 1(XI), alpha 2(XI), and alpha 3(XI) chains, in which alpha 3(XI) is essentially identical to alpha 1(II) of type II, and alpha 1(XI) and alpha 2(XI) are similar to alpha 1(V) and alpha 2(V) of type V collagen. To characterize the immune response to type XI collagen, Lewis rats were injected with bovine type XI collagen, and the cellular and humoral responses were compared with those of rats injected with types V and II collagen. Arthritis, IgG deposits in cartilage, and joint destruction were seen in rats immunized with types XI and II collagen. Type XI elicited strong cellular responses to rat types XI, V, and II; conversely, types II and V collagen elicited strong responses to rat type XI. Antitype XI Abs reacted with rat type XI, moderately with rat type V, but poorly with rat type II. Direct and inhibition ELISA showed that cross-reactions between types XI and V collagen resulted from recognition of determinants shared by their respective alpha 2(XI) and alpha 1(V) chains. Abs eluted from joints of rats immunized with type XI collagen, however, reacted only with native rat type XI collagen. These data demonstrate that type XI collagen induces diverse populations of Abs differing in collagen-type specificity, and suggest that only those Abs to native rat type XI collagen are central to the pathogenesis of type XI collagen-induced arthritis.
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