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:3.4.21.7 (plasmin)
9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We present a kinetic assay based on the use of fluorescein isothiocyanate (FITC)-labeled fibrinogen as a fluoroactive substrate. The multiple FITCs bound to fibrinogen experienced quenching due to their close proximity. The thrombin-induced polymerization of FITC-fibrinogen led to additional fluorescence quenching due to enhanced neighbor-neighbor interactions in protofibrils and protofibril aggregates. The initial rate of quenching was directly dependent on the thrombin concentration at either low or high ionic strength. The final extent of quenching during polymerization with thrombin could be modulated by prevailing ionic strength and thrombin concentration suggesting that the quenching was due to fibril extension as well as aggregation. The full extent of quenching was greatly reduced by addition to the reaction of unlabeled fibrinogen or Gly-Pro-Arg-Pro, as expected for quenching due to neighbor-neighbor interactions. In contrast to polymerization, cleavage of fibrinogen by plasmin released FITC-labeled fragments free of proximity-based quenching that resulted in a large intensity increase as lysis proceeded--a process termed dequenching. The majority of the dequenching signal during fibrinogenolysis occurred during the generation of fragment X which proceeded as a first-order process with respect to fibrinogen-bound plasmin with kcat = 0.479 s-1. The Kd of active plasmin to fibrinogen was calculated to be 0.42 microM. Addition of epsilon-aminocaproic acid (epsilon ACA)-plasmin complex to FITC-fibrinogen produced little dequenching, demonstrating a requirement for binding in order to initiate lysis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A fluorescence quench and dequench assay of fibrinogen polymerization, fibrinogenolysis, or fibrinolysis. 771 Jan 20

Urinary trypsin inhibitor (UTI) has a multipotent inhibitory effect on proteases such as trypsin, chymotrypsin, plasmin, human leukocyte elastase, or hyaluronidase. UTI can bind easily to its receptors on various types of tumor cells (human ovarian cancer HOC-I cells, human choriocarcinoma SMT-cc1 cells, and murine Lewis lung carcinoma 3LL cells). Our results show that the UTI receptors of some tumor cells have a possible role in modulating plasmin activity on the cell surface and prevention of tumor cell invasion and metastasis (H. Kobayashi et al., J. Biol. Chem., 269; 20642-20647, 1994). UTI interacts with tumor cells as a negative modulator of the invasive cells. We investigated whether this effect may be mediated by UTI binding to the cell surface receptors. In addition, the role of peptide sequences from each UTI domain and their interaction with tumor cells were investigated. UTI derivatized with biotin or FITC was taken up by tumor cells in a dose-dependent manner. This cell association was inhibited with a monoclonal antibody D1, which specifically recognizes NH2 terminus (domain I) of UTI. The binding was inhibited by fluid phase UTI, but not HI-8, COOH terminus (domain II) of UTI, suggesting that UTI binds to cells through a site in the UTI domain I. Furthermore, we found that UTI, HI-8 and a number of peptides containing Arg-Gly-Pro-Cys-Arg-Ala-Phe-Ile promoted the inhibition of tumor cell invasion. This site corresponds to the plasmin-inhibiting domain within HI-8. The possibility that UTI binding to tumor cells might be involved in the prevention of tumor cell invasion in vitro was excluded since HI-8, lacking domain I, promotes the inhibition of tumor cell invasion with essentially the same affinity as UTI. All these data allow us to conclude that inhibition of tumor cell invasion is mediated by domain II, which possesses anti-plasmin activity.
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PMID:Inhibition of tumor cell invasion through matrigel by a peptide derived from the domain II region in urinary trypsin inhibition. 772 51

Adhesive interactions between cells and the subendothelial extracellular matrix take place at several stages during tumor progression and metastasis. We have previously demonstrated that thrombin possesses an active yet cryptic Arg-Gly-Asp (RGD) site which can be exposed in the presence of low concentrations of plasmin and cell-associated heparan sulfate proteoglycan. Thus, thrombin may act as a matrix-adhesive molecule via activation of the alpha v beta 3 integrin. We have now identified a 31 amino acid fragment as the minimal thrombin-generated cleavage product, which contains an active RGD site, following gel filtration analysis on FPLC Superdex 75 column. The role of membrane-associated heparan sulfate in thrombin conversion to an adhesive protein was demonstrated by using CHO cell mutants defective in various aspects of glycosaminoglycan synthesis. Incubation of both thrombin and a low concentration of plasmin on the surface of wild type CHO cells resulted in a typical digestion cleavage profile upon gel filtration. No cleavage products were observed when thrombin and a suboptimal plasmin concentration were incubated on monolayers of CHO cell mutants lacking heparan sulfate. Next, we examined the possible role of the thrombin RGD site during the progression of tumor development and metastasis. Toward this, we tested murine melanoma cells expressing low (B16-F1 cells) and high (B16-BL6 cells) lung colonization potentials in cell adhesion assays in vitro. Differential adherence capability of the cells was observed: while high attachment levels of B16-BL6 cells were obtained, the low metastatic B16-F1 cells did not adhere to thrombin RGD. Antibodies raised against the RGD site in thrombin specifically recognized thrombin digested with plasmin, but were unable to interact with native thrombin or prothrombin and inhibited potently B16-BL6 melanoma cell adhesion. Furthermore, the antibodies failed to recognize RGD in other adhesive plasma proteins such as vitronectin, fibrinogen, or fibronectin. Provided that the RGD-containing fragments of thrombin are widely distributed throughout the vascular system, they may have a significant role during tumor progression and dislodgement of metastatic cells. The development of RGD mimetics and/or specific antibodies might thus be applied to inhibit a critical step in metastatic spread.
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PMID:The involvement of thrombin RGD in metastasis: characterization of a cryptic adhesive site. 774

The aim of this study was to synthesize and investigate hybrid peptides which contain the RGD (Arg-Gly-Asp) sequence coupled with lysine residues in special arrangements (antiplasmin carboxyterminal peptide) in an effort to simultaneously inhibit platelet aggregation and promote fibrinolysis. The in vitro haemostatic modifying properties of the synthesized peptides were tested by ADP-induced platelet aggregation, plasmin-generation tests and fibrin-clot lysis assays. The hybrid peptide RGDFAP, composed of RGDF (Arg-Gly-Asp-Phe) coupled to a synthetic peptide residue of the carboxyterminal part of antiplasmin (AP26) inhibited platelet activation and increased plasmin generation and in vitro fibrin-clot lysis.
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PMID:Hybrid peptide containing RGDF (Arg-Gly-Asp-Phe) coupled with the carboxy terminal part of alpha 2-antiplasmin capable of inhibiting platelet aggregation and promoting fibrinolysis. 779 48

Kringle domains are found in several plasma proteins of blood coagulation and fibrinolysis. A murine monoclonal antibody, designated alpha HII-5, was produced against a synthetic peptide representing residues 216-231 of human prothrombin kringle 2. The sequence of the hexadecapeptide (Glu-Asn-Phe-Cys-Arg-Asn-Pro-Asp-Gly-Asp-Glu-Glu-Gly-Val-Gly-Cys) is conserved in several kringle-containing proteins, represents a predicted region of high local hydrophilicity in prothrombin kringle 2, and contains the anionic (Asp-223 and Asp-225) residues that contribute to lysine binding by plasminogen kringle 4. In a solution-phase immunoassay, antibody alpha HII-5 bound prothrombin and the kringle 5 light chain fragment of plasminogen (miniplasminogen), but not plasminogen or plasmin. In contrast, using a solid-phase assay with antigen immobilized onto a surface (polystyrene microtiter plates, glass, or nitrocellulose) antibody alpha HII-5 specifically bound prothrombin, plasminogen, recombinant tissue plasminogen activator (tPA), and the apo(a) subunit of lipoprotein(a). By immunoblotting analysis antibody alpha HII-5 bound determinants on prothrombin fragment 2 and plasminogen kringle 5. These observations suggest that a subset of kringle domains on plasma proteins, including prothrombin kringle 2 and plasminogen kringle 5, contains a homologous antigenic determinant in the region of the kringle lysine-binding site. In contrast to prothrombin kringle 2, the homologous peptide site on plasminogen is not available for antibody binding except when plasminogen is adsorbed to a nonphysiological surface, or when kringles 1-4 are removed.
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PMID:A kringle-specific monoclonal antibody. 786 98

We have expressed a full-length cDNA clone encoding human factor D by using a baculovirus expression system. The purified recombinant protein reacted with Ab against native factor D, but was hemolytically inactive and slightly larger than factor D. These results suggested that the recombinant protein was the elusive zymogen of factor D. Amino acid sequencing demonstrated that the recombinant factor D consisted of two proenzyme forms with respective activation peptides, AAPPRGR and APPRGR. Catalytic amounts of trypsin converted recombinant profactor D to its enzymatically active form, exhibiting SDS-PAGE mobility and specific hemolytic activity similar to those of native factor D. About 90% of trypsin-activated recombinant profactor D had the same NH2-terminus as factor D. Human thrombin, kallikrein, and plasmin could also activate recombinant profactor D, but relatively high concentrations of these enzymes were required and the specific hemolytic activity of the "activated" profactor D was about one-third that of native factor D. Trypsin-activatable profactor D was also purified from the urine of a patient with Fanconi's syndrome. This native profactor D represented less than 1.0% of the total antigenic factor D in the patient's urine and had a Gly-Arg dipeptide as the activation peptide. Apparently, urine profactor D was produced by cleavage of pre-profactor D at Arg-(-3) by a serine protease with trypsin-like specificity, which probably is different from the putative leader peptidase that produces the recombinant profactor D. Urine profactor D was inhibited by diisopropyl fluorophosphate although the recombinant proenzyme was resistant to this inhibitor.
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PMID:Recombinant and native zymogen forms of human complement factor D. 814 40

We have previously demonstrated that chemically modified thrombin preparations induce endothelial cell (EC) adhesion, spreading and cytoskeletal reorganization via an Arg-Gly-Asp (RGD) sequence and the alpha v beta 3 integrin. Native thrombin, however, did not exhibit adhesive properties, consistent with crystal structure analysis, showing that Gly-Asp residues of the RGD epitope are buried within the molecule. We have now identified a possible physiological mean of converting thrombin to an adhesive protein. Plasmin, the major end product of the fibrinolytic system, converted thrombin to an adhesive protein for EC in a time and dose-dependent manner. EC adhesion and spreading was also induced by a low molecular weight (approximately 3,000 D) cleavage fragment generated upon incubation of thrombin with plasmin. Cell adhesion mediated by this fragment was completely inhibited by the synthetic peptide GRGDSP. Conversion of thrombin to an adhesive molecule was significantly enhanced in the presence of heparin or heparan sulfate, while other glycosaminoglycans (GAGs) (e.g., dermatan sulfate, keratan sulfate, chondroitin sulfate) had no effect. The role of cell surface heparan sulfate in thrombin conversion to EC adhesive protein was investigated using CHO cell mutants defective in various aspects of GAG synthesis. Incubation of both thrombin and a suboptimal amount of plasmin on the surface of formaldehyde fixed wild-type CHO-KI cells resulted in an efficient conversion of thrombin to an adhesive molecule, as indicated by subsequent induction of EC attachment. In contrast, there was no effect to incubation of thrombin and plasmin with fixed CHO mutant cells lacking both heparan sulfate and chondroitin sulfate, or with cells expressing no heparan sulfate and a three-fold increase in chondroitin sulfate. A similar gain of adhesive properties was obtained upon incubation of thrombin and plasmin in contact with native, but not heparinase-treated extracellular matrix (ECM) produced by cultured ECs. It appears that cell surface and ECM-associated heparan sulfate modulate thrombin adhesive properties through its heparin binding site in a manner that enables suboptimal amounts of plasmin to expose the RGD domain. Our results demonstrate, for the first time, a significant modulation of thrombin molecule by heparin, resulting in its conversion to a potent adhesive protein for ECs. This conversion is most effective in contact with cell surfaces, basement membranes and ECM.
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PMID:Thrombin adhesive properties: induction by plasmin and heparan sulfate. 824 31

Recombinant staphylokinase (STAR) is produced as a 136 amino acid protein with NH2-terminal sequence Ser-Ser-Ser (mature STAR, HMW-STAR), which may be converted to lower molecular weight forms (LMW-STAR) by removal of the first six residues (yielding STAR-delta 6 with NH2-terminal Gly-Lys-Tyr-) or the first ten residues (yielding STAR-delta 10 with NH2-terminal Lys-Gly-Asp-). In the present study the occurrence and effects of these conversions during plasminogen activation by HMW-STAR were studied in purified systems and in human plasma. In stoichiometric mixtures of HMW-STAR and native human plasminogen (Glu-plasminogen), rapid and quantitative conversion of HMW-STAR to LMW-STAR occurred, concomitant with exposure of the active site in the plasmin-STAR complex. NH2-terminal amino acid sequence analysis revealed the sequence Lys-Gly-Asp- in addition to the known sequences of the Lys-plasmin chains, identifying STAR-delta 10 as the derivative generated from HMW-STAR. In mixtures of catalytic amount of HMW-STAR and human plasminogen, plasmin generation occurred progressively, following an initial lag phase, during which HMW-STAR was converted to LMW-STAR. Plasmin-mediated conversion of HMW-STAR to LMW-STAR obeyed Michaelis-Menten kinetics with Km = 3.6 microM and k2 = 0.38 s-1. The specific clot lysis activities of HMW-STAR (122,000 +/- 8,000 units/mg) and LMW-STAR (129,000 +/- 8,000 units/mg) were indistinguishable. In an in vitro system consisting of a 60 microliters plasma clot submerged in 250 microliters plasma, 80% clot lysis within 1 h was obtained with 70 nM HMW-STAR.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Molecular conversions of recombinant staphylokinase during plasminogen activation in purified systems and in human plasma. 825 56

Nerve growth factor-gamma (NGF-gamma) is a serine proteinase which reversibly associates with the well characterized neurotrophin NGF-beta. In this study, we demonstrated that NGF-gamma cleaves recombinant single chain urokinase-type plasminogen activator (scu-PA), converting the zymogen into a two-chain form (tcu-PA). The apparent masses of the two u-PA chains were 33 and 22 kDa, as determined by SDS-polyacrylamide gel electrophoresis (PAGE). There was no evidence for secondary cleavage sites or further digestion of tcu-PA by NGF-gamma, even when conversion of scu-PA was complete. The NH2-terminal sequence of the 33-kDa band was Ile-Ile-Gly-Gly-Glu, indicating that NGF-gamma cleaved scu-PA at Lys158-Ile159, the plasmin cleavage site. Cleavage of scu-PA by NGF-gamma resulted in scu-PA activation. The kcat and Km for this reaction, as determined in a continuous assay with the tcu-PA-specific substrate L-pyroglutamyl-glycyl-arginine-p-nitroanilide hydrochloride (S-2444), were (4.1 +/- 0.6) x 10(-2) s-1 and 2.3 +/- 0.4 microM, respectively. The catalytic efficiency (kcat/Km) for scu-PA activation by NGF-gamma was 1.3 x 10(4) M-1 s-1, compared with 6.2 x 10(5) M-1 s-1 for the activation of scu-PA by plasmin. NGF-gamma-cleaved scu-PA which was bound to receptors on U937 monocytoid cells. The apparent masses of the resulting u-PA cleavage products were identical to those generated in solution as determined by SDS-PAGE. Cell-associated scu-PA was activated by NGF-gamma, as determined by the generation of activity against the tcu-PA-specific fluorogenic substrate, glutamyl-glycyl-arginine-7-amino-4-methyl coumarin. By activating scu-PA, NGF-gamma may initiate the u-PA-dependent cell-surface proteinase cascade and support NGF-beta activities which involve cellular migration and/or extracellular matrix remodeling.
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PMID:Nerve growth factor-gamma activates soluble and receptor-bound single chain urokinase-type plasminogen activator. 839 59

Katsuwokinase (KK) is a unique fibrinolytic enzyme recently found in skipjack "Shiokara," a Japanese traditional salt-fermented food. A crude enzyme extracted from skipjack Shiokara (Katsuwonus pelamis) showed a very strong fibrinolytic activity above 45 CU/g (fibrin plate method) based on plasmin. KK not only hydrolyzed fibrin but also several synthetic amido substrates, particularly pyro-Glu-Gly-Arg-pNA. The fibrinolytic activity of KK was not affected in the presence of 10% NaCl, was stable in the pH range from 1 to 10 at 37 degrees C for 30 min, and was inhibited by DFP, SBTI, BPTI, and aprotinin but not by epsilon-amino-n-caproic acid and t-4-amino-methylcyclohexane carboxylic acid. The crude enzyme contained at least four kinds of KK, and the major form purified had a pI value of approximately 5.0 and a molecular weight of 35,000. The N-terminal amino acid sequence of 21 residues, I-V-G-G-Y-E-Q-Z-A-H-S-Q-P-H-Q-V-S-L-N-S-G-, had 80% homology with that of trypsin. The fibrinolytic activity of the purified enzyme was approximately 2.6 times greater than that of plasmin by molar ratio, demonstrating its identity as a new and very potent fibrinolytic enzyme.
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PMID:A unique strong fibrinolytic enzyme (katsuwokinase) in skipjack "Shiokara," a Japanese traditional fermented food. 852 30


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