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The cartilage-resorbing protein catabolin is made by synovial fibroblasts and its production is increased by phorbol myristate acetate. 总被引:2,自引:1,他引:1 下载免费PDF全文
Pig synovial fibroblasts were shown to produce a protein that caused live cartilage to resorb its proteoglycan matrix in vitro. Fibroblasts were obtained either from synovial tissue digest or by allowing them to grow out of explants. The population derived from the digests was homogeneous and free of macrophage-like cells after two passages, but was still producing the cartilage-resorbing protein after seven passages. The active protein was found to have Mr 20,000 on gell filtration, and pI 4.8 on isoelectric focussing in polyacrylamide gel. It was indistinguishable from a protein with the same activity from pig mononuclear leucocytes, which has been called catabolin. Production of the protein was increased if the synovial fibroblasts were cultured with the tumour promoter phorbol 12-myristate 13-acetate. Fibroblasts from other sources (joint capsule and peritoneum) also apparently made the protein. The possibility that catabolin is the same as interleukin-1 is discussed: if they are, then the results suggest that fibroblasts can make an interleukin-1-life protein. 相似文献
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IL-1 increases phosphorylation of the small heat shock protein (hsp27) in intact cells. This change was also shown both by introducing [gamma-32P]ATP and Mg2+ into MRC-5 fibroblasts permeabilized by LPC after stimulation by IL-1, and by adding the labeled ATP and Mg2+ to cell extracts. Hsp27 phosphorylated in permeabilized cells or cell extracts was shown by 2D electrophoresis to comprise the three forms seen in metabolically labeled cells, suggesting that the physiologically relevant kinase was acting on the substrate in vitro. Mixing of extracts of resting and IL-1-stimulated cells revealed that stimulated cells contained increased levels of kinase activity that phosphorylated substrate hsp27 in the extracts of resting cells. Existence of the activated kinase was confirmed by showing that extracts of IL-1-stimulated cells phosphorylated purified homogeneous hsp27 at a greater rate than those of resting cells. The kinase activity was maximal in cells stimulated with IL-1 for 5 to 10 min, but had declined to the resting level after stimulation for 40 min. Membrane and cytosolic fractions prepared from cell homogenates both contained hsp27 kinase, but the IL-1-dependent increase was associated with the cytosolic fraction. TNF-stimulated cells also contained increased hsp27 kinase activity in the cytosol. The evidence suggests that the cytosolic hsp27 kinase is responsible for the changes in hsp27 phosphorylation induced by the cytokines in intact cells. 相似文献
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Interleukin 1 or tumor necrosis factor alpha can cause a transient down-modulation of epidermal growth factor (EGF) binding to quiescent fibroblast monolayers; the effect results from a reduction in EGF receptor (EGF-R) affinity and appears to be mediated by a protein kinase C (PKC)-independent mechanism. Here we show transient increases in EGF-R serine/threonine phosphorylation which are temporally coordinated with the effects on EGF binding; we also demonstrate that the cytokine-mediated phosphorylations, unlike those caused by PKC activators, have little discernible effect upon intrinsic EGF-R-associated tyrosine kinase activity. Cytokine-mediated EGF-R phosphorylation is resistant to staurosporine, an extremely potent inhibitor of PKC. Analysis of tryptic 32P-phosphopeptides reveals that Thr654, the unique site of PKC-mediated phosphorylation, is not phosphorylated in cytokine-treated cells, but a different, relatively acidic, peptide containing phosphoserine can be detected instead. 相似文献
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J T Dingle J Saklatvala R Hembry J Tyler H B Fell R Jubb 《The Biochemical journal》1979,184(1):177-180
Porcine synovium in organ culture produces a factor that causes chondrocytes to degrade their matrix. A quantitative assay for the factor, for which the cartilage of bovine nasal septum is used, is described. Evidence is presented that the catabolic factor is a protein. 相似文献
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Francesco P. Marchese Anna Aubareda Corina Tudor Jeremy Saklatvala Andrew R. Clark Jonathan L. E. Dean 《The Journal of biological chemistry》2010,285(36):27590-27600
Tristetraprolin (TTP) directs its target AU-rich element (ARE)-containing mRNAs for degradation by promoting removal of the poly(A) tail. The p38 MAPK pathway regulates mRNA stability via the downstream kinase MAPK-activated protein kinase 2 (MAPKAP kinase 2 or MK2), which phosphorylates and prevents the mRNA-destabilizing function of TTP. We show that deadenylation of endogenous ARE-containing tumor necrosis factor mRNA is inhibited by p38 MAPK. To investigate whether phosphorylation of TTP by MK2 regulates TTP-directed deadenylation of ARE-containing mRNAs, we used a cell-free assay that reconstitutes the mechanism in vitro. We find that phosphorylation of Ser-52 and Ser-178 of TTP by MK2 results in inhibition of TTP-directed deadenylation of ARE-containing RNA. The use of 14-3-3 protein antagonists showed that regulation of TTP-directed deadenylation by MK2 is independent of 14-3-3 binding to TTP. To investigate the mechanism whereby TTP promotes deadenylation, it was necessary to identify the deadenylases involved. The carbon catabolite repressor protein (CCR)4·CCR4-associated factor (CAF)1 complex was identified as the major source of deadenylase activity in HeLa cells responsible for TTP-directed deadenylation. CAF1a and CAF1b were found to interact with TTP in an RNA-independent fashion. We find that MK2 phosphorylation reduces the ability of TTP to promote deadenylation by inhibiting the recruitment of CAF1 deadenylase in a mechanism that does not involve sequestration of TTP by 14-3-3. Cyclooxygenase-2 mRNA stability is increased in CAF1-depleted cells in which it is no longer p38 MAPK/MK2-regulated. 相似文献
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Posttranslational regulation of tristetraprolin subcellular localization and protein stability by p38 mitogen-activated protein kinase and extracellular signal-regulated kinase pathways 下载免费PDF全文
Brook M Tchen CR Santalucia T McIlrath J Arthur JS Saklatvala J Clark AR 《Molecular and cellular biology》2006,26(6):2408-2418
The p38 mitogen-activated protein kinase (MAPK) signaling pathway, acting through the downstream kinase MK2, regulates the stability of many proinflammatory mRNAs that contain adenosine/uridine-rich elements (AREs). It is thought to do this by modulating the expression or activity of ARE-binding proteins that regulate mRNA turnover. MK2 phosphorylates the ARE-binding and mRNA-destabilizing protein tristetraprolin (TTP) at serines 52 and 178. Here we show that the p38 MAPK pathway regulates the subcellular localization and stability of TTP protein. A p38 MAPK inhibitor causes rapid dephosphorylation of TTP, relocalization from the cytoplasm to the nucleus, and degradation by the 20S/26S proteasome. Hence, continuous activity of the p38 MAPK pathway is required to maintain the phosphorylation status, cytoplasmic localization, and stability of TTP protein. The regulation of both subcellular localization and protein stability is dependent on MK2 and on the integrity of serines 52 and 178. Furthermore, the extracellular signal-regulated kinase (ERK) pathway synergizes with the p38 MAPK pathway to regulate both stability and localization of TTP. This effect is independent of kinases that are known to be synergistically activated by ERK and p38 MAPK. We present a model for the actions of TTP and the p38 MAPK pathway during distinct phases of the inflammatory response. 相似文献