Tissue fibrosis results when dysregulation of extracellular matrix (ECM) turnover favors deposition of collagen and other ECM proteins over degradation. Fibrosis may then lead to organ dysfunction and pathology as observed in systemic sclerosis (SSc). In the present study, we investigated the antifibrotic properties of proteasome blockade. A dose- and time-dependent reduction in type-I collagen and tissue inhibitor of metalloproteinase-1 (TIMP-1) production was observed in normal fibroblasts exposed to proteasome inhibitors (PI). In the same culture conditions, metalloproteinase-1 (MMP-1) protein and the collagenolytic activity on type I collagen was increased. The steady-state mRNA levels of COL1A1, TIMP-1, and MMP-1 paralleled protein levels. These effects were dominant over the profibrotic properties of TGF-beta and were observed with fibroblasts generated from normal and SSc skin. PI decreased type I collagen mRNA levels with kinetics similar to those observed with DRB, a specific RNA polymerase II inhibitor, thus indicating transcriptional inhibition. Of interest, PI induced c-Jun phosphorylation and c-Jun nuclear accumulation. The specific N-terminal Jun-kinase inhibitor SP-600125 selectively abrogated c-Jun phosphorylation and, in a dose-dependent fashion, the up-regulated synthesis of MMP-1 induced by PI. Finally, PI did not affect fibroblast viability. Thus, the coordinated down-regulation of collagen and TIMP-1 and up-regulation of MMP-1 renders proteasome blockade an attractive strategy for treating conditions as SSc, characterized by excessive fibrosis.
SUMMARYTo investigate the contribution of IL-11 and LIF to acute-phase protein (APP) production, we first analysed the effects of IL-11 and LIF on production of C-reactive protein (CRP), fibrinogen, and haptoglobin by human primary hepatocytes. We also measured the serum levels of IL-11, LIF, and CRP in serum from patients with inflammatory rheumatic diseases to assess the role of these cytokines in the APP response in vivo. We included patients with conditions associated with a high APP response such as rheumatoid arthritis (RA) or spondylarthropathy (SpA), and others usually associated with a weak APP response such as systemic lupus erythematosus (SLE), in order to investigate whether these cytokines could account for the differences in APP responses. Our results showed that IL-11 and LIF induced only minimal stimulation on production of APP by human primary hepatocytes compared with IL-6, known as the major inducer. Serum levels of CRP were elevated in RA and SpA, and significantly higher than in SLE patients. Despite the presence of a high APP response in some of our patients and despite the fact that we used sensitive assays to measure IL-11 and LIF, serum levels of both cytokines were not detected in any of the tested sera. In conclusion, our results show that circulating levels of IL-11 or LIF do not contribute significantly to the production of APP in vivo, and that they do not account for the difference in APP response between SLE and other inflammatory rheumatic diseases.
T lymphocyte clones were derived by stimulation of positively selected Lyt-2+ and Lyt-2- lymphocytes with Con A in an Interleukin 2 (IL 2)-enriched medium under conditions of limiting dilution. Forty clones were expanded and tested, after activation by Con A, for the production of IL 2, IL 3, and interferon (IFN). Thirteen Lyt-2- clones were all co-producers of IL 2 and IL 3, and 10/13 were also producers of IFN. Twenty-seven Lyt-2+ clones were much more heterogeneous, 13 being IL 2 and IL 3 nonproducers, whereas 14 produced variable and poorly correlated amounts of IL 2 and IL 3. Three Lyt-2+ clones were observed to produce IL 2 or IL 3 alone. The majority of the Lyt-2- (10/13) and of the Lyt 2+ (21/27) clones were also producers of IFN. Exogenous IL 2 added during the activation of the Lyt-2+ by Con A did not enhance IL 3 production, whereas it did enhance IFN production by some but not all Lyt-2+ clones. Thus, among the T lymphocytes of the Lyt-2+ and -2- phenotypes there are cells capable of releasing IL 2, IL 3, and IFN. This supports the concept that these phenotypes are associated with antigen recognition rather than with cell functions, but it is apparent that the functional capacities of individual T cells, if accurately represented by their clonal progeny, are far from uniform.
Purified mouse T lymphocytes were separated into Lyt-2+ and Lyt-2- populations by the procedure of panning, in which a monoclonal rat anti-Lyt-2 antibody and dishes coated with affinity-purified mouse anti-rat Ig antibodies were used. The populations obtained were 95 to 99% pure as determined by immunofluorescence. Graded doses of these T cells were cultured with optimal mitogenic doses of concanavalin A and the 0 to 24 and 24 to 48-hr culture supernatants were collected. The dose-curve assays of the supernatants of Lyt-2+ and Lyt-2- cells showed comparable activity in interleukin 2 (IL 2) and T cell-replacing factor (TRF), assayed on antigen-stimulated culture of T-depleted spleen cells. Limiting dilution assays of IL 2-secreting precursor cells stimulated by Con A showed a high frequency of precursors in both populations, slightly higher among Lyt-2- cells. The supernatants also contained comparable levels of IPA (inducer of plasminogen activator production by the macrophages), MAF (macrophage-activating factor, assayed by induction of their cytolytic function), and MCGF (mast cells growth factor, assayed on a mast cell line). IPA and MAF were not produced with the same kinetics and in the same T cell concentration conditions as IL 2 and TRF. In contrast, interferon was principally produced by the Lyt-2+ cells.
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