Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.21.73 (urokinase-type plasminogen activator)
10,685 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have cloned the cDNA for Mo3, an activation Ag expressed by human monocytes and myelomonocytic cell lines after stimulation by PMA, LPS, muramyl dipeptide, certain cytokines, and cAMP agonists. We have previously shown that Mo3 expression in vivo is associated predominantly with macrophages in inflammatory sites. Mo3 is a highly glycosylated protein of about 50 kDa in monocytes and U-937 cells and is anchored to the plasma membrane by glycosyl-phosphatidylinositol linkage. We purified Mo3 protein by cleavage from the U-937 cell surface with phosphatidylinositol-specific phospholipase C, followed by affinity chromatography using a mAb. An internal peptide sequence was determined and used to design oligonucleotide probes for screening an expression cDNA library. Nucleotide sequencing indicated that the complete coding sequence encodes 335 amino acids, including a predicted signal peptide of 22 residues and a hydrophobic C-terminal portion that is probably cleaved during formation of the GPI linkage. The resulting mature protein of about 290 amino acids is consistent with the 29-kDa molecular mass of deglycosylated Mo3. A Northern blot of RNA from U-937 cells revealed a 1.5-kb band that was induced by PMA treatment. Mo3 cDNA was transfected into Cos cells and surface expression of Mo3 was detected by ELISA using various anti-Mo3 mAb. We performed a computer search of the National Biomedical Research Foundation database and found that Mo3 is identical to the human receptor for the urokinase plasminogen activator (uPA-R). Purified soluble Mo3, as well as anti-Mo3 antibodies, were able to block uPA binding to its receptor on U-937 cells, indicating that Mo3 is indeed uPA-R. The use of these anti-Mo3 antibodies may be helpful in assessing the role of uPA-R in processes such as inflammation and tumor invasion.
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PMID:cDNA for Mo3, a monocyte activation antigen, encodes the human receptor for urokinase plasminogen activator. 131 22

Interleukin-1 (IL-1) release from monocyte-macrophages (Mo) appears dependent on pericellular proteolysis mediated by plasmin. Thus plasminogen activator inhibitors (PAI) which bind the serine proteases responsible for the conversion of plasminogen to plasmin, may inhibit IL-1 release from Mo. We have examined the effect of purified PAI from a hepatoma cell line Hep G2, on IL-1 release from Mo with secondary effects on lymphocyte proliferation in vitro. Fast acting inhibitors of both urokinase (u-PA) and tissue plasminogen activator (two chain t-PA) were noted in harvest fluids of Hep G2 cells. These inhibitors were stable at pH 3 but lost activity at 45 degrees C. They were SDS-stable and migrated with Mr53 and 104 kDa. These properties conformed to characteristics of type-1 plasminogen activator inhibitor (PAI-1). Partially purified PAI-1 added to human Mo cultured on 125I fibrin layer both in the presence and absence of plasminogen inhibited secretion of IL-1 by Mo in response to LPS. This effect, however, did not correlate with the inhibition of plasminogen dependent fibrinolysis. This suggested a degree of sequestration and inaccessibility of membrane bound u-PA of LPS activated Mo to PAI-1. PAI-1, in addition, inhibited mitogen stimulated peripheral blood mononuclear cell (PBMC) proliferation at similar concentration ranges. This effect was abrogated by the addition of specific antisera to PAI-1. PAI-1 may be released as part of an acute phase response. In addition to influencing fibrinolysis, PAI-1 may constitute a negative feedback pathway on Mo IL-1 release and subsequent immune activation in vivo.
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PMID:Monocyte-macrophage release of IL-1 is inhibited by type-1 plasminogen activator inhibitors. 196 70

Cells of the monocyte/macrophage lineage are known to produce urokinase type plasminogen activator (u-PA) and are active participants in the inflammatory response. Modulation of cellular u-PA production, for instance in response to LPS, may have an important impact on the evolution of inflammatory lesions. A definitive picture of how monocyte u-PA production and activity are regulated by LPS is lacking. We addressed this issue directly by measuring u-PA Ag and activity in mononuclear cell cultures. By using a competition ELISA to quantitate u-PA Ag, we found that LPS-stimulated mononuclear cells in culture increased u-PA production in a dose-dependent manner and that all the u-PA detected was attributable to the monocytes therein. Increasing amounts of u-PA were secreted into the medium, bound to the cell surface, and found intracellularly. Although the absolute amounts of u-PA varied from donor to donor, the increases seen with LPS stimulation were a consistent and statistically significant finding. Only the cell-surface-bound u-PA was fibrinolytically active, however, with this activity increasing upon LPS stimulation. All monocyte cell-surface-associated fibrinolytic activity was attributed to u-PA, as shown by plasminogen dependence, neutralization by antibodies to u-PA, and identification of fibrinolytically active molecules eluted from the cell surface. The surface bound u-PA was not inhibited by its physiologic inhibitors, PAI-1 or PAI-2, whereas free u-PA was. Hence LPS stimulation results in monocytes exhibiting increased cell-surface-associated u-PA Ag and fibrinolytic activity, in spite of concomitant high levels of plasminogen activator inhibitor type 2 production. This surface-bound enzymatic activity may influence the ability of monocytes to migrate in and interact with an inflammatory microenvironment.
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PMID:Lipopolysaccharide-induced modulation of human monocyte urokinase production and activity. 225 14

Mononuclear phagocytes regulate the generation of plasmin by secreting urokinase-type plasminogen activator (uPA) and plasminogen activator inhibitor-2 (PAI-2). We investigated the production of plasminogen activator (PA) and PA inhibitor by the human monocytic leukemia cell line, THP-1. Similar to U937 monoblast-like cells and peripheral blood monocytes (PBM), THP-1 cells produce a PA that is specifically neutralized by anti-uPA antibody and comigrates with human high molecular mass uPA (54 kDa) on casein-plasminogen zymogaphy. PA activity could be dissociated from intact THP-1 cells by brief treatment with a weak acid-glycine buffer, indicating that the uPA is secreted and bound to receptors on the plasma membrane. Regulation of uPA proceeds normally in THP-1 cells, with cell-associated PA activity increasing from 77 +/- 20 to 163 +/- 26 and 325 +/- 30 mPU/10(6) cells in response to PMA and LPS, respectively; parallel increases in steady state levels of uPA mRNA were observed. In contrast to normal expression of uPA activity, functional PAI-2 could not be demonstrated in either the conditioned media or cell lysates of THP-1 under basal or stimulated conditions. Both U937 and PBM secrete low levels of PA inhibitor activity that increase substantially in response to stimulation with PMA and LPS. Immunoreactive PAI-2, measured by ELISA, was undetectable in THP-1 lysates or conditioned medium, but was consistently present in U937 and PBM, paralleling the presence of PA inhibitor activity. THP-1 cells express low levels of an abnormally sized mRNA for PAI-2 and demonstrate a regulatory defect whereby steady state levels of PAI-2 mRNA are markedly reduced upon stimulation with PMA or LPS. By contrast, U937 and PBM respond to identical stimulation with increases in PAI-2 mRNA. We conclude that THP-1 cells express a structurally abnormal species of PAI-2 mRNA, with complete loss of inhibitory activity as well as altered function of PMA- and LPS-responsive regulatory elements.
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PMID:The THP-1 cell line is a urokinase-secreting mononuclear phagocyte with a novel defect in the production of plasminogen activator inhibitor-2. 230 45

Marked changes in c-fos proto-oncogene mRNA level and transcription rate were observed upon modulation of the functional activity of cultured mouse peritoneal macrophages. Cholera toxin (CT), dexamethasone (dex), interferon-gamma (IFN-gamma), concanavalin A (Con A), and endotoxin (LPS) induced changes in mRNA levels and transcription rates of both urokinase-type plasminogen activator and tumor necrosis factor/cachectin genes, the products of which are sensitive indices of macrophage activity. All of these agents also caused rapid and transient changes in c-fos gene expression, either enhancement (CT, dex, and LPS) or decrease (IFN-gamma and Con A). Moreover, inhibition of protein synthesis elicited a transient increase in the level of c-fos gene transcription, suggesting that the transcriptional activity of the c-fos gene is controlled by labile protein repressor(s). Taken together, these results suggest a possible role for the c-fos gene product, a nuclear protein, in the modulation of the functional activity of differentiated macrophages.
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PMID:Modulations of functional activity in differentiated macrophages are accompanied by early and transient increase or decrease in c-fos gene transcription. 311 Feb 91

Transforming growth factor-beta (TGF-beta) is secreted by most cells as a biologically inactive complex, called the large latent TGF-beta complex. The complex is comprised of latent TGF-beta binding protein (LTBP) and latent TGF-beta, which is mature TGF-beta associated noncovalently with its amino-terminal propeptides. LTBP is disulfide-linked to the amino-terminal propeptide of latent TGF-beta. Active TGF-beta is generated by release of TGF-beta from the complex. Generation of active TGF-beta by macrophages has been reported, but the activation mechanism has not been described. Latent TGF-beta activation by macrophages was characterized using serum-free cultures of resident and thioglycollate-elicited murine peritoneal macrophages that were either unstimulated or LPS-stimulated in vitro. Serum-free conditioned medium was assayed for TGF-beta using a quantitative luciferase-based bioassay. LPS-stimulated thioglycollate-elicited macrophages activated endogenous latent TGF-beta, whereas non-LPS-stimulated thioglycollate-elicited and resident macrophages generated undetectable levels of TGF-beta. Latent TGF-beta activation required plasmin and urokinase (uPA), uPA binding to the uPA receptor, interaction with the cation-independent mannose 6-phosphate/insulin-like growth factor type II receptor, tissue type II transglutaminase, and LTBP. A time-course analysis of latent TGF-beta activation revealed that maximal TGF-beta was generated after 24 h (25 +/- 5 pg/ml). TGF-beta formed within the initial 24 h modulated the plasminogen activator system by down-regulating uPA, suggesting that TGF-beta temporally modulated its own formation by regulating cell-associated uPA.
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PMID:Characterization of latent TGF-beta activation by murine peritoneal macrophages. 763 10

Renal glomerular microvascular endothelial cell damage is characteristic of Shiga toxin-associated hemolytic uremic syndrome (HUS). An impaired renal fibrinolysis may be responsible for renal microvascular fibrin accumulation during the course of HUS disease. This study examined the effect of Shiga toxin, bacterial lipopolysaccharide (LPS, endotoxin), and tumor necrosis factor (TNF) on the expression of fibrinolysis factors by human renal glomerular microvascular endothelial cells (HRMEC) in vitro. The results were compared to a previously better-characterized endothelial cell type, human umbilical vein endothelial cells (HUVEC). In HUVEC, the ratio of fibrinolysis antigens was antifibrinolytic, consisting of 55-fold more plasminogen activator inhibitor type 1 (PAI-1) than tissue-type plasminogen activator (tPA). Treatment of HUVEC with LPS or TNF accentuated this ratio by decreasing tPA and increasing PAI-1 expression. In contrast, HRMEC produced urokinase-type plasminogen activator (uPA) in a 24-fold excess to PAI-1 and were thereby profibrinolytic with regard to fibrinolysis antigen expression. LPS and TNF further decreased PAI-1 antigen expression by HRMEC. These results argue against a role for LPS or TNF in decreasing renal fibrinolysis at the level of fibrinolysis factor expression by renal endothelial cells. Nevertheless, HUVEC and HRMEC were responsive to the same LPS analogs in the same order of potency. Shiga toxin decreased fibrinolysis factor expression to a greater extent in HRMEC than in HUVEC. Since HRMEC fibrinolysis antigen expression was profibrinolytic, the Shiga toxin-mediated decrease in renal endothelial uPA synthesis may predispose renal microvasculature to thrombosis and may have implications for the development of HUS.
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PMID:Human renal microvascular endothelial cells as a potential target in the development of the hemolytic uremic syndrome as related to fibrinolysis factor expression, in vitro. 808 1

Recent investigations have shown that in the murine kidney urokinase (uPA) and tissue-type plasminogen activator (tPA) are synthesized and released in urine by tubular epithelial cells, raising the possibility that plasminogen activators (PAs) may be involved in the maintenance of patency and fluidity in renal tubules. To further investigate the contribution of the PA system in renal pathology, we have determined the effects of LPS on the renal production of PAs: we localized PA-catalyzed proteolysis by zymographic analysis of tissue sections and studied the accumulation of mRNAs for PAs and their inhibitors (PAI-1 and PAI-2) by in situ hybridization. Both a single and two injections of LPS induced a dramatic reduction in urinary and renal uPA enzymatic activity; this decrease in catalytic activity was attributable to a reduction in uPA mRNA levels in both proximal and distal tubules. By contrast, we noticed a marked increase of tPA mRNA content in glomerular cells which was not accompanied by a concomitant increase in tPA-mediated proteolytic activity. In addition, a major up-regulation in PAI-1 mRNA levels was observed throughout the kidney, while PAI-2 mRNA was not detectable in the kidneys of control or LPS-injected animals. Our investigations document the profound alterations of the PA/PAI balance in renal tissue following in vivo LPS administration. They suggest that imbalanced extracellular proteolysis might participate in the alterations of kidney function observed in septic shock.
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PMID:LPS induces major changes in the extracellular proteolytic balance in the murine kidney. 816 38

Fig. 1 depicts our current thinking about the ways in which Mo1 and p150,95 form cis interactions with other leukocyte receptors. With respect to the associations of Mo1 with Fc gamma RIIIB and uPAR, the inhibitory effect of saccharides such as NADG suggests a lectin-carbohydrate interaction that may involve the recognition of Mo1's beta-glucan site for N-linked carbohydrates4 that are expressed by both Fc gamma RIIIB and uPAR. This hypothesis is supported by the results of Stockl et al., who showed that the binding of C-terminal-specific mAb VIM12 to Mo1, which enhances the phospholipase C-mediated release of Fc gamma RIIIB, was inhibited by NADG. However, unlike the sample lectin-carbohydrate interaction that appears to govern the association between Mo1 and Fc gamma RIIIB, effective Mo1-dependent uPAR signaling also depends on the binding of intact uPA to uPAR (the receptor-binding ATF of uPA proving insufficient to prime neutrophils for an enhanced burst response to FMLP). We speculate that ATF (residues 6-135) binds to uPAR while the carboxyl terminal fragment (residues 136-411), which includes a glycosylation site at residue 144, binds to the lectinlike site of Mo1, thus fostering the linkage between the two receptors. In support of this model is the fact that exposure of neutrophils to ATF reduced the degree of molecular proximity between Mo1 and uPAR (the latter probably occupied by endogenous intact uPA) and increased the molecular association between Mo1 and Fc gamma RIIIB (both as detected by quantitative RET). This hypothesis is analogous to the concept proposed by Nykjaer et al in which plasminogen activator inhibitor-1 initially binds to uPA to form a complex that secondarily binds to the alpha 2 macroglobulin receptor, leading to internalization of the complex. Whereas the contribution of intact uPA to the interaction between Mo1 and uPAR remains speculative (based on the indirect data available), no such ambiguity exists for the role of the LPS/LBP ligand in regulating the association between Mo1 and CD14. In this circumstance, no physical linkage exists between the two receptors without the ligand complex. This observation is consistent with the previously described affinity of the beta 2 integrins for LPS, leading to the notion that the LPS portion of the LPS/LPB complex binds to Mo1, serving to link it with LPS/LBP bound to CD14. The observed reversibility of the interactions between the integrin glycoproteins and uPAR or CD14 illustrates the fact that these associations can be highly dynamic and tied to cellular processes that include directed motility (Mo1-uPAR), adherence to substrates (Mo1-CD14), and energy metabolism (p150,95-uPAR). We speculate that the GPI-anchored receptor proteins serve as rapidly diffusible, expendable "scouts" for the beta 2 integrins, which serve to expand their ligand binding repertoire in a cis-acting fashion.
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PMID:Beta 2 (CD11/CD18) integrins can serve as signaling partners for other leukocyte receptors. 914 45

Monocytes, macrophages and foam cells are central to atherogenesis. We have examined the potential ability of monocytes, macrophages and foam cells to affect the stability of deposited fibrin, characteristic of the atherosclerotic plaque, by their production of plasminogen activators and their inhibitors. Monocytes respond to thrombin and LPS by up-regulation of PAI-2 synthesis, and PAI-2 is their major product among the plasminogen activators/inhibitors. In contrast, macrophages and foam cells, while they did produce PAI-2, did not respond to thrombin and LPS by an increase in its synthesis. All PAI-2 produced by macrophages and foam cells was accumulated intracellularly, whereas monocytes also secreted PAI-2. Secreted PAI-2 was active as an inhibitor of u-PA, whereas intracellular PAI-2 required detergent treatment to generate activity. Thus monocytes, but not macrophages or foam cells, produce and secrete active PAI-2, thus potentially affecting fibrin stability in the local environment.
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PMID:Regulation, location and activity of plasminogen activator inhibitor 2 (PAI-2) in peripheral blood monocytes, macrophages and foam cells. 924 52


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