Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.7 (plasmin)
 9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lactation is a physiological process characterized by the secretion of large quantities of protein, carbohydrate, and lipid. To achieve the production, the mammary gland must grow and then differentiate; both processes require extensive tissue remodeling. Remodeling begins with a carefully controlled proteolysis of the extracellular matrix and cell-cell adhesion proteins. Plasmin is a serine protease that has been implicated in the tissue remodeling associated with the declining phase of lactation and mammary involution. As lactation progresses, the quantity of plasmin activity increases within the mammary tissue and milk. This has led to the hypothesis that gradual involution results from progressive tissue remodeling. Hormonal attenuation of gradual involution by bST would slow tissue remodeling and would be permissive for lactation. In vitro results indicate that insulin-like growth factor-I impairs the secretion of plasminogen activator by bovine mammary epithelial cells. As such, a mechanism of action for bST exists.
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PMID:Role of tissue remodeling in mammary epithelial cell proliferation and morphogenesis. 183 24

A novel triple-kringle plasminogen activator protein, PK1 delta FE1X, has been produced which is a genetic chimera between the fibrin binding kringle 1 domain of plasminogen and the two kringles and serine protease domains of naturally occurring wild-type tissue plasminogen activator (wt t-PA). This chimera also contains a modification to prevent high mannose type N-linked glycosylation on kringle 1 of t-PA. PK1 delta FE1X is biochemically and fibrinolytically similar to wt t-PA in vitro but retains the decreased plasma clearance rate characteristic of other t-PA variants which lack fibronectin finger-like and epidermal growth factor domains. The serine protease domain of PK1 delta FE1X exhibits the amidolytic activity characteristic of wt t-PA. In an indirect coupled plasminogen activator assay, the specific activity of PK1 delta FE1X is approximately 1.4 times greater than that of wt t-PA. In a fibrin film-binding assay, greater binding to untreated fibrin is observed with wt t-PA than with PK1 delta FE1X. However, following limited plasmin digestion of the fibrin film, PK1 delta FE1X binding increases to the level observed with wt t-PA. The incremental binding to plasmin-digested fibrin observed with PK1 delta FE1X is eliminated if plasmin digestion of the fibrin film is followed by carboxypeptidase B treatment. This result suggests that plasminogen kringle 1 binds plasmin-digested fibrin even after recombination with a heterologous protein. The fibrinolytic activity of PK1 delta FE1X in human plasma clot lysis assays was similar to that of wt t-PA at activator concentrations of approximately 1 microgram/ml. At substantially lower concentrations, approximately 0.1 microgram/ml, PK1 delta FE1X was only slightly less active than wt t-PA. Pharmacokinetic analysis showed that wt t-PA activity is cleared approximately 15 times as rapidly as PK1 delta FE1X following intravenous bolus injection. In a rabbit jugular vein clot lysis model, intravenous bolus injection of 0.06 mg/kg of PK1 delta FE1X showed greater thrombolytic potency than a similar administration of 0.5 mg/kg of wt t-PA. Thus it appears that in vitro exon shuffling techniques can be used to generate novel fibrinolytic agents which biochemically and pharmacologically represent the combination of individual domains of naturally occurring proteins.
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PMID:Replacement of finger and growth factor domains of tissue plasminogen activator with plasminogen kringle 1. Biochemical and pharmacological characterization of a novel chimera containing a high affinity fibrin-binding domain linked to a heterologous protein. 184 87

Serpins form a family of structurally related proteins, many of which function in plasma as inhibitors of serine proteases involved in inflammation, blood coagulation, fibrinolysis, and complement activation. To further characterize the mechanism by which serpins inhibit their target enzymes, we have studied the effect of temperature on the reaction of C1 inhibitor and the serine protease plasma kallikrein. At both 38 and 4 degrees C, C1 inhibitor (Mr 105,000) is cleaved by alpha-kallikrein (Mr 85,000 and 88,000) at position P1 (Arg444) of the reactive center, a reaction that leads to the formation of a covalent bimolecular enzyme-serpin complex (Mr 195,000) and cleaved but uncomplexed serpin (Mr 95,000). Between 38 and 4 degrees C, the product distribution is temperature-dependent, with more cleaved C1 inhibitor (Mr 95,000) formed at lower temperatures and correspondingly less Mr 195,000 complex. Studies employing intrinsic tryptophan fluorescence and 1H NMR spectroscopy show that this behavior is not caused by temperature-dependent conformational changes of kallikrein or C1 inhibitor. C1 inhibitor also behaves in this manner with the light chain of kallikrein and, to a lesser extent, with plasmin and C1s. These data are best explained by a branched reaction pathway, identical with the scheme describing the mechanism of action of suicide substrates. This scheme involves the formation of an enzyme-inhibitor intermediate, which can be stabilized into a covalent complex and/or dissociate into free enzyme and cleaved inhibitor, depending on the reaction conditions.
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PMID:Mechanism of serpin action: evidence that C1 inhibitor functions as a suicide substrate. 188 45

The glycoprotein tissue-type plasminogen activator (t-PA, alteplase, CAS 105857-23-6) is a serine protease consisting of 527 amino acids and can activate plasminogen to plasmin, which subsequently dissolves the fibrin network of a thrombus. This activation occurs selectively on the thrombus, making recombinant t-PA a very effective agent in the treatment of thromboembolic disorders. t-PA has a short in vivo half-life and is rapidly removed from the circulation by the liver. The catabolism of t-PA involves receptor-mediated endocytosis and intracellular degradation in several cell types of the liver namely hepatic endothelial, parenchymal and Kupffer cells. Liver endothelial cells have been reported to possess a specific uptake system for t-PA based on the recognition of the high mannose carbohydrate structures on Asn117. To further elucidate the involvement of the mannose receptor on sinusoidal endothelial cells in the hepatic catabolism of t-PA and to identify the mechanisms involved, biochemical as well as electron microscopic studies were performed. The biochemical studies revealed that the removal of the mannose side chain in t-PA significantly reduced its clearance and degradation in isolated perfused livers. The binding of t-PA to preparations of primary hepatocytes and liver cell membranes could not be competed for by various sugars and glycoproteins, and was not dependent on the presence of carbohydrates on the molecule. This ruled out a major relevance of the sugar moieties of t-PA in its recognition by liver cells that were not of endothelial origin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Endocytosis of the recombinant tissue plasminogen activator alteplase by hepatic endothelial cells. 190 31

Tissue-type plasminogen activator (tPA) is a serine protease which cleaves plasminogen to its active form, plasmin. tPA plays a physiologic role in hemostasis, wound healing, and embryogenesis. Therapeutically, recombinant human tPA is used as a thrombolytic in myocardial infarction. Although production of therapeutic quantities of tPA in Chinese hamster ovary (CHO) cells transfected with the human gene for tPA is practical, production costs remain high. One important factor which determines the ultimate cost of tPA (or any other recombinant protein expressed in mammalian cells) is its production level on a per cell basis. We have used postembedding immunocytochemical staining with colloidal gold to study the subcellular localization of tPA in CHO cells expressing recombinant tPA (rCHO) in an effort to understand the factor(s) which might limit secretion. Staining for tPA was evaluated visually and by morphometric analysis and was specific and reproducible. Serially passaged rCHO showed no significant change in staining density over 31 serial passages. Staining density was greatest over dilated cisternae of the rough endoplasmic reticulum and nuclear envelope. Golgi stacks and large acid phosphatase-positive vacuoles (probably lysosomes) were also heavily stained. Staining of lysosomal vacuoles suggested that rCHO might be degrading nascent tPA. Incubation of rCHO with 125I-tPA showed that the cells were not internalizing tPA from the media. These results suggest that rCHO fail to secrete a portion of the tPA they synthesize and that it is degraded in lysosomes. This observation may have important implications on the choice of expression systems for efficient production of large quantities of recombinant proteins.
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PMID:Quantitative immunocytochemical staining for recombinant tissue-type plasminogen activator in transfected Chinese hamster ovary cells. 190 92

Cultures of transformed fibroblasts actively involved in extracellular matrix degradation have been examined for initial activation of serine and metallo protease cascade systems. Rous sarcoma virus transformed chick embryo fibroblasts (RSVCEF), in contrast to transformed mammalian cells, produce active, two chain urokinase-type plasminogen activator (tcu-PA). Active tcu-PA is found in serum-free, plasmin-free conditioned medium from RSVCEF cultures as determined by two independent methods, immunoprecipitation and differential DFP sensitivity. RSVCEF cultures synthesize and secrete inactive, single chain uPA (scu-PA) which is converted to tcu-PA in a time dependent manner by a catalytic mechanism that appears to involve a functioning uPA receptor on the surface of intact cells. The enzyme activity responsible for this conversion may represent the initiating catalytic event in the PA/plasminogen serine protease cascade system. A 70 kDa prometalloprotease capable of degrading denatured collagen following its activation also is significantly elevated in RSVCEF cultures over that of normal CEF. Trace amounts of the active 62 kDa form of the metalloprotease (gelatinase) is found in the transformed RSVCEF cultures indicating that these cultures produce a natural activator of the prometalloprotease. Plasmin and/or PA do not appear to be the activator of this enzyme as determined by indirect inhibition assays and direct assays employing purified enzymes. The possible central position of pro PA and the 70 kDa prometalloprotease in an interacting, complex protease cascade system involved in extracellular matrix degradation is discussed.
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PMID:Serine protease and metallo protease cascade systems involved in pericellular proteolysis. 196 54

The effects of serine protease inhibitors, diisopropyl fluorophosphate (DFP) and phenylmethanesulfonyl fluoride (PMSF), on hemolytic activity of C6 were reinvestigated. C6 was inactivated in a range of 1-10 mM by both of the inhibitors as previously reported. Limited proteolytic digestion was also studied to elucidate the functional and structural domains of C6. The major fragments produced by trypsin, plasmin, or lysyl endopeptidase could not be separated unless disulfide bonds were disrupted, but Staphylococcus aureus V8 protease yielded several fragments, each of which was not linked by disulfide bond. When C6 labeled with [3H]DFP was subjected to limited digestion with V8 protease, a fragment with a molecular weight of 38 kilodaltons (kDa) was mainly labeled and other fragments of 53 kDa and 26.4 kDa were also faintly labeled, while fragment 35 kDa wasn't labeled, indicating specific domains reactive with DFP. On the other hand, when C6 with or without DFP treatment was digested with V8 protease and those fragments were incubated with C5 and subjected to sucrose density ultracentrifugation, fragments 53, 38, 35 and 27.5 kDa interacted with C5 in both cases. These results suggest that C6 modified by DFP can interact with C5, and the amino-terminal sequences of fragment 38 and 35 kDa suggest the binding domain of C6 with C5 takes place within the two short consensus repeats.
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PMID:Functional and structural domains of the sixth component (C6) of human complement. 205 69

Tissue-type plasminogen activator (t-PA) is a serine protease that converts a zymogen plasminogen into an active serine protease, namely, plasmin. Plasmin is the proteolytic enzyme that degrades fibrin. In the absence of fibrin, e.g., in circulating plasma, t-PA activates plasminogen at a very slow rate. However, when fibrin is present, this activity is enhanced two to three orders of magnitude. As a consequence of these kinetic characteristics, plasmin is predominantly generated on the fibrin surface. This in turn results in a relative sparing of circulating fibrinogen and other plasma proteins to plasmin--mediated degradation. Following the demonstration of the potential of natural t-PA as a thrombolytic agent, an intensive effort was launched to enhance its production by recombinant DNA technology. The pharmacological action and the clinical efficacy of t-PA has been tested by several Authors in the treatment of acute myocardial infarction (AMI), and more recently, of pulmonary embolism, a condition for which this drug seems to be very promising: from this point of view this short article provides evidence that the various thrombolytic agents are of equal ability in mediating the rapid lysis of a coronary thrombus after i.v. administration when given appropriately and at the proper time; clinical experience provides little support for the contention of the superiority of t-PA over other thrombolytic agents, particularly for coronary thrombolysis. We are waiting for the results that will come from the GISSI-2 study, that is comparing streptokinase (SK) vs. t-PA in AMI's patients.
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PMID:[Tissue-type plasminogen activator]. 211 66

Plasminogen activator (PA) is a specific serine protease which catalyses conversion of the inactive plasminogen into the broad-spectrum protease, plasmin. PA exists in two structurally related forms known as tissue-type PA (tPA) and urokinase-type PA (uPA). Conversion of normal cells into a malignant state frequently leads to increased production of uPA. There is increasing evidence that uPA is directly involved in the process of metastasis. High levels of uPA in human breast cancers is a marker for poor prognosis. Finally, uPA may be a target for anti-metastatic agents, either by inhibition of its synthesis, inhibition of its activity or its binding to receptor.
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PMID:Plasminogen activators and cancer. 213 47

Prognostic variables in breast cancer are urgently needed to individualize adjuvant cytotoxic therapy, especially in those patients where metastases in the lymph nodes have not been detected (node-negative disease). So far histomorphological criteria, the determination of receptors for steroid hormones or EGF (epidermal growth factor), the protease cathepsin D or DNA-ploidy are used to distinguish between low- and high-risk patients. High-risk patients have a higher incidence of recurrences and/or shorter overall survival after surgery of the primary tumour than low-risk patients. High-risk patients (node-positive; hormone-receptor-negative) would receive adjuvant hormone therapy or chemotherapy. In the node-negative patient, adjuvant therapy is only recommended if a high content of cathepsin D and aneuploidy of the tumour (or high S-phase in diploid tumours) has been diagnosed. Determination of cathepsin D in tumour extracts as a variable in breast cancer patients is based on the fact that invasion and metastasis is correlated with elevated levels of tumour-associated proteases such as cathepsins B and D, collagenase IV and plasminogen activators. The urokinase-type plasminogen activator (uPA) which is secreted by tumour cells as an enzymatically inactive proenzyme (pro-uPA) seems to play a key role in mediating tumour cell invasion in cancer tissues. Receptor-bound uPA converts enzymatically inactive plasminogen into the serine protease plasmin which then degrades the extracellular matrix surrounding the tumour cells (tumour stroma). We localized pro-uPA/uPA immunohistochemically in paraffin-embedded formalin-fixed breast cancer tissue sections. Pro-uPA/uPA was detected in the cytoplasm and on the plasma membrane of the tumour cells reflecting receptor-bound pro-uPA/uPA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tumour-associated fibrinolysis: the prognostic relevance of plasminogen activators uPA and tPA in human breast cancer. 213 50


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