UNIPROT:P00750 - FACTA Search

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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Studies have been conducted on the enzyme plasminogen activator (PA) in cultures of RSV transformed CEF. The enzyme exists in two forms, a soluble extracellular form (PAex) and a cell-associated form that is firmly bound to specific membranes (PAmem) when cell homogenates are subfractionated. Both forms of the enzyme are induced in a synergistic fashion by treatment of RSVCEF with the tumor promoter phorbol myristate acetate (PMA). The induction of the enzyme by PMA has allowed for the purification of PAex. In addition, PMA treatment of RSVCEF causes pronounced morphological alterations in culture. The use of protease inhibitors, [3H]-DFP, and a direct fluorometric assay for PA indicate that the morphological changes are due to the direct catalytic action of PA, independent of plasminogen, until now its only known natural substrate. Recent experiments suggest that PAmem is responsible for the morphological changes and that residual amounts of LETS protein are lost from the cell surface and substratum coincident with the morphological changes. The possible role of serine proteases in regulatory cellular behavior in transformed or tumor promoter-treated cells is discussed.
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PMID:Plasminogen activator and the membrane of transformed cells. 625 77

Alveolar lavage cells from normal sheep were found to be composed of over 95% macrophages. When the cells were cultured, fibrinolytic and thromboplastin-like activities could be detected within 2-4 hours of incubation. As the number of cultured cells was increased the two activities in the conditioned medium increased proportionately. The cells were separated into two distinct subpopulations by means of a sedimentation velocity cell fractionation technique. The macrophage subpopulations were examined for differences in size, morphology, esterase staining and ability to release plasminogen activator and procoagulant activity respectively. These activities were confined to the large cell subpopulation. The fibrinolytic activity was shown to be plasminogen-dependent and could be inhibited by DFP. On the basis of this the fibrinolytic activity has been designated as plasminogen activator. The procoagulant activity was shown to be thromboplastin in nature because it was Factor VII dependent, inactivated by phospholipase C and not inhibited by DFP. The procoagulant activity has been designated as macrophage thromboplastin. The two activities could be distinguished on the basis of DFP inhibition.
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PMID:Plasminogen activator and thromboplastin activity from sheep alveolar macrophages. 668 4

Subcutaneous granulomas were induced in sheep by injecting Freund's adjuvant. At varying times thereafter afferent and efferent lymphatics draining the granulomas were cannulated. Lymph was collected for periods up to several days or weeks from either normal skin or from inflammatory lesions 15 to 120 days after the initiation of the lesions. The fibrinolytic activity of cells and cell culture medium in which cells were grown was assayed by using 125I-fibrin plates. No detectable enzyme activity was found from normal afferent, normal efferent, or stimulated efferent lymph cells. Afferent granuloma cells produced a plasminogen-dependent, DFP inhibitable protease activity that was dependent on the cell concentration and the incubation time. Results of cell separation techniques such as sedimentation velocity, adherence on fibrin plates, and Sephadex G-10 fractionation showed that the large, macrophage-like cell population in afferent lymph was secreting the plasminogen activator. The lymph cells collected from lesions 1 to 2-mo-old were more active than an equivalent number of cells collected from earlier or later lesions. When tuberculin was injected directly into lesions the lymph cells that appeared in the subsequent 1 to 2 days produced more enzyme per cell. The relationship between plasminogen activator and other possible mediators that appear in either the cells or plasma of afferent lymph is discussed.
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PMID:The production of plasminogen activator by afferent but not efferent lymph cells emigrating from chronic granulomatous lesions in sheep. 719 65

The production of proteolytic enzymes by osteoblasts is considered important for initiating osteoclastic bone resorption. Using the established cell line NY as an example of osteoblast-like cells, the effect of intracellular cyclic AMP (cAMP) and protein kinase C (PKC) on plasminogen activator secretion and its specific binding to the cells were investigated. HT-1080 cells were used as the control. NY cells predominantly secrete single-chain urokinase-type plasminogen activator (scu-PA) and some two-chain u-PA. Both scu-PA and u-PA were present in the cell surface and cell lysate of NY cells, and their distribution in HT-1080 cells was quite similar to that of NY cells. Exposing cells to phorbol myristate acetate (PMA) or dibutyryl cyclic AMP (db cAMP) enhanced the secretion of scu-PA and two-chain u-PA, whereas 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H7) decreased scu-PA secretion, indicating that it is enhanced by protein kinase C (PKC) as well as by cAMP in NY cells. On the other hand, in HT-1080 cells, PMA decreased the level of two-chain u-PA secretion into the conditioned medium. The binding assay of 125I-DFP-u-PA to NY cells revealed the presence of a single class of binding sites with a Kd of 2.23 nM and Bmax of 0.82 x 10(6) binding sites/cell. PMA however, altered neither the Kd nor the Bmax. Dibutyryl cAMP increased the Bmax 1.9 fold. Thus, NY cells secrete u-PA and express specific binding sites on the cell surface, which are modulated by cAMP and PKC.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of scu-PA secretion and u-PA receptor expression in osteoblast-like cells. 816 59

The effect of thrombin on the fibrinolytic potential of human vascular smooth muscle cells (SMC) in culture was studied. SMC of different origin responded to thrombin treatment with a dose and time dependent increase in tissue-type plasminogen activator (t-PA) and plasminogen activator inhibitor type-1 (PAI-1) levels in both cell lysates and conditioned media with maximum effects achieved at 10-20 IU/ml thrombin. PAI-1 antigen levels also increased in the extracellular matrix of thrombin treated SMC. PAI-2 levels in cell lysates of such SMC were not affected by thrombin. The effect was restricted to active thrombin, since DFP-thrombin and thrombin treated with hirudin showed no increasing effect on t-PA and PAI-1 levels in SMC. Enzymatically active thrombin also caused a four-fold increase in specific PAI-1 mRNA and a three-fold increase in t-PA mRNA. Furthermore we demonstrated the presence of high and low affinity binding sites for thrombin on the surface of SMC with a KD = 4.3 x 10(-10)M and 9.0 x 10(4) sites per cell and a KD = 0.6 x 10(-8) M and 5.8 x 10(5) sites per cell respectively. Thrombin could come in contact with SMC in case of vascular injury or following gap formation between endothelial cells. Our data support the idea that besides its known proliferative effect for SMC, thrombin could also modulate their fibrinolytic system.
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PMID:Thrombin stimulates expression of tissue-type plasminogen activator and plasminogen activator inhibitor type 1 in cultured human vascular smooth muscle cells. 825 51

Under normal circumstances, the platelet surface serves as a site of assembly for plasminogen (PGN) and tissue-type plasminogen activator (t-PA) and facilitates PGN activation. Since the plasmin (Pn) produced on the platelet surface can modulate a variety of platelet properties, we examined the effects of Pn on platelet-surface PGN activation. We incubated platelets with Pn (one caseinolytic unit/ml for one hr at 37 degrees C) and measured the effects of this treatment on the binding of PGN, Pn, and t-PA to unactivated platelets; and on the kinetics of PGN activation on the platelet surface. Pn treatment increased the number of PGN binding sites by 78% (from 46,000 to 88,000 sites/platelet) without affecting affinity (KD = 2.2 microM). Pn treatment had a modest effect on (DFP-inactivated) Pn binding but did not modify t-PA binding; however, treatment increased the catalytic efficiency of t-PA approximately two-fold. Importantly, all of these effects occurred without evidence for platelet activation by Pn. These observations imply that PGN activation may be an autocatalytic process on the platelet surface and provide evidence for a unique reciprocating mechanism governing the interaction between platelets and the plasminogen activation system.
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PMID:Reciprocating autocatalytic interactions between platelets and the activation system. 839 49

Smooth muscle cell (SMC) migration is an early response to vascular injury and contributes to the development of intimal thickening. Upregulation of several components of the plasminogen activator (PA) system has been documented after vascular injury. Utilizing a Transwell filter assay system and human umbilical vein SMCs, we sought to define the role of four different PA system components on SMC migration and matrix invasion: (1) PAs, (2) plasmin, (3) PA receptors, and (4) PA clearance receptors (ie, low density lipoprotein receptor-related protein [LRP]). Addition of active two-chain urokinase-type PA (UPA) stimulated random migration (192 +/- 30% of control, 0.36 nmol/L, P < .001). The stimulation was inhibited by pretreatment with diisopropylfluorophosphate, PA inhibitor type 1 (PAI-1), or aprotinin, a plasmin inhibitor. Augmented migration was also observed with either low-molecular-weight UPA or the amino terminal fragment of UPA (ATF), with the effects being additive. Stimulation by ATF alone, however, was not inhibited by aprotinin. The stimulatory effect was not specific for UPA, in that tissue-type PA (TPA) also increased migration (169 +/- 9% of control, 10 nmol/L, P < .001); the augmentation was inhibited by pretreatment with DFP, PAI-1, or aprotinin and was additive to the UPA effect. Antibodies to the UPA receptor but not 5'-nucleotidase (another glycosylphosphatidylinositol-anchored cell surface protein) inhibited baseline and UPA-stimulated migration. Similarly, both UPA and TPA stimulated invasion of a collagen gel; this augmentation was inhibited by aprotinin, whereas antibodies to the UPA receptor reduced baseline invasion. Finally, we tested whether inhibition of LRP function, which mediates internalization of PA/inhibitor complexes, affected either process. Both antibodies to LRP and recombinant receptor associated protein, a known inhibitor of ligand binding to the LRP, significantly inhibited migration but did not affect collagen gel invasion. These data demonstrate the ability of several components of the PA system to modulate SMC migration and invasion in vitro via plasmin-dependent and -independent mechanisms.
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PMID:Contrasting effects of plasminogen activators, urokinase receptor, and LDL receptor-related protein on smooth muscle cell migration and invasion. 885 24

Urokinase-type plasminogen activator (UPA), particularly when bound to its receptor (UPAR), is thought to play a major role in local proteolytic processes, thus facilitating cell migration as may occur during angiogenesis, neointima and atherosclerotic plaque formation, and tumor cell invasion. To facilitate understanding of the need and function of the UPA/UPAR interaction in cell migration and vascular remodeling, we changed several amino acid residues in UPA so as to interfere with its interaction with its receptor. The receptor-binding domain of UPA has been localized to a region in the growth factor domain between residues 20 and 32. Since the binding of UPA to UPAR appears to be species specific, we used the differences in amino acid sequences in the growth factor domain of UPA between various species to construct a human UPA variant that does not bind to the human UPAR. We substituted Asn22 for its mouse equivalent Tyr by site-directed mutagenesis. This mutant UPA had similar plasminogen activator characteristics as wild-type UPA, including its specific activity and interaction with plasminogen activator inhibitor-1. However, no UPA/UPAR complexes could be observed in cross-linking experiments using DFP-treated 125I-labeled mutant UPA and lysates of various cells, including U937 histiocytic lymphoma cells, phorbol myristate acetate-treated human ECs, and mouse LB6 cells transfected with human UPAR cDNA. In direct binding experiments, DFP-treated 125I-labeled mutant UPA could not bind to phorbol myristate acetate-treated ECs, whereas wild-type UPA did bind. Furthermore, a 25-fold excess of wild-type UPA completely prevented the binding of DFP-treated 125I-labeled wild-type UPA to the human receptor on transfected LB6 cells, whereas an equal amount of mutant UPA had only a very small effect. In ligand blotting assays, very weak binding of mutant UPA to human UPAR could be observed. Changing Asn22 into the other amino acid residues alanine or glutamine had no effect on binding to UPAR on human ECs. The functional integrity of the growth factor domain in the non-receptor binding Asn22Tyr mutant is suggested by the fact that binding of this mutant to a murine UPAR can be restored after additional mutations in the growth factor domain, Asn27,His29,Trp30 to Arg27,Arg29,Arg30. We conclude that Asn22 and Asn27,His29,Trp30 in human UPA are key determinants in the species-specific binding of the enzyme to its receptor and that changing Asn22 into Tyr results in a UPA mutant with strongly reduced binding to UPAR.
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PMID:Binding of human urokinase-type plasminogen activator to its receptor: residues involved in species specificity and binding. 959 26

Plasminogen activator "Ahh-32" from Agkistrodon halys halys venom has been isolated and purified using affinity and ion-exchange chromatography. The purified enzyme consists of the single peptide-chain with molecular weigth of 32 kDa. It can convert free plasminogen into active form--plasmin. "Ahh-32" was inhibited by DFP and benzamidine. Besides, the enzyme influences significantly the activation of plasminogen by streptokinase without having effect on analogical process in case of usage of tissue tipe plasminogen activator. The obtained protein can be used as an instrument under investigation of protein-protein interactions in haemostasis system.
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PMID:[Plasminogen activator from Agkistrodon halys halys venom]. 1749 16

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