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)

Fibronectin (Fn), a high molecular weight glycoprotein, was found to constitute 0.43% of the normal adult beagle dog lung. The tissue Fn (TFn) was solubilized by sequential chemical extractions and quantified by ELISA (enzyme-linked immunoabsorbent assay). Subsequent plasmin digestion did not appear to solubilize significantly more Fn. Since 70% of the lung tissue was solubilized by the extractions and plasmin digestions, the TFn quantified represented the bulk of lung Fn. The TFn was identical to plasma fibronectin in the ELISA and one can infer that the Fn molecule is not significantly altered as it is incorporated into the lung connective tissue matrix. Lungs from beagles in which fibrosis had been induced with bleomycin contained 0.99% Fn, more than a twofold increase over normal. In the ELISA TFn from fibrotic lungs gave an inhibition curve of the same shape as did TFn from normal lungs. Thus, Fn from fibrotic lungs is not different qualitatively from Fn from normal lungs in any way detectable with this antiserum. The TFn content of plasmin digests of intact lung was less than that of extracts, which was the converse of results obtained on placenta (B. A. Bray (1985) Biochem. J. 226, 811-815). This difference between lung TFn and placental TFn may be due to differences in degree of glycosylation, which determines susceptibility to proteases.
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PMID:The fibronectin content of canine lungs is increased in bleomycin-induced fibrosis. 242 83

Primary adherence and attachment area of seeded human endothelial cells (EC) were determined on differently coated polytetrafluoroethylene (PTFE) grafts. Cell counts and morphometric analyses were done immediately after 60 minutes of electronically controlled seeding of 3 x 10(4) EC/cm2, as well as after 3 hours of subsequent incubation. Cell adherence and cell spreading were distinctly superior on two surface-covering substrates: fibronectin-treated type I/III collagen and fibrinolytically inhibited fibrin glue. Uncovered, purely fibronectin- or laminin-coated PTFE or type IV collagen treated with the specifically binding glycoprotein laminin showed a far lower EC attachment rate and less pronounced cell spreading. It appears that not only a high surface content of fibronectin but also a smooth PTFE-covering matrix are prerequisites for optimal primary adherence and cell spreading. Because fibrin glue might be fibrinolytically degraded despite its plasmin-inhibiting epsilon-amino-caproic acid compound, type I/III collagen plus fibronectin could provide an optimal precoating substrate for EC lining of PTFE grafts.
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PMID:Precoating substrate and surface configuration determine adherence and spreading of seeded endothelial cells on polytetrafluoroethylene grafts. 246 98

The gamma chain of human plasma fibrinogen is heterogeneous with three forms differing in length at the C-terminus. Alternative RNA splicing produces two gamma chain mRNAs encoding gamma 50 and gamma 57.5 polypeptides, while fibrinogen gamma 55 is produced by post-translational modification of the gamma 57.5 chain. The composition of purified variant gamma chain fibrinogens, which comprise 10% to 13% total plasma fibrinogen, is predominantly heterodimeric (A alpha, B beta, gamma 50/gamma 55 or A alpha, B beta, gamma 50/gamma 57.5), whereas the composition of purified fibrinogen with the major form of the gamma chain is homodimeric (A alpha, B beta, gamma 50/gamma 50). These gamma chain variations interrupt sequences that mediate platelet-fibrinogen interactions. Therefore, the structure and function of gamma 57.5 C-terminal sequences were investigated using synthetic peptides and a specific monoclonal antibody (MoAb), L2B. The L2B epitope was localized and included gamma 57.5 chain residues 409-412 (Arg-Pro-Glu-His), as determined by differential enzyme-linked immunosorbent assay (ELISA) reactivity with a His-412 deleted synthetic peptide and by Western blot analysis of plasmin cleaved fibrinogen gamma 57.5. L2B had no effect on adenosine diphosphate (ADP)-induced platelet aggregation supported by either fibrinogen gamma 50 or gamma 57.5. High concentrations (0.5 to 1 mmol/L) of synthetic peptide gamma 57.5 405-416 only weakly inhibited ADP-induced platelet aggregation supported by either fibrinogen gamma 50 or gamma 57.5. Binding of fibrinogen gamma 50 (IC50 = 780 mumol/L) or gamma 57.5 (IC50 = 650 mumol/L) to ADP-stimulated platelets was weakly inhibited, and MoAb L2B failed to inhibit fibrinogen gamma 57.5 binding. Peptide gamma 57.5 408-416 failed to dissociate platelet-bound fibrinogens. These data indicate that the gamma 408-416 sequence of fibrinogen gamma 55 or gamma 57.5 alone is unlikely to bind to the platelet fibrinogen receptor, glycoprotein llb-llla (GPllb-llla), in support of platelet aggregation under physiologic conditions. The sequence recognized by L2B does not resemble known GPllb-llla binding site peptide sequences [Arg-Gly-Asp-Ser (RGDS) or gamma 50 400-411] as determined by competitive inhibition ELISA comparing these binding site synthetic peptides with gamma 57.5 408-416. This epitope is available for binding MoAb L2B in gamma 55 or gamma 57.5 chain dimers and binds to all gamma 57.5 408-416 epitopes equally in non-crosslinked and factor Xllla crosslinked fibrin clots.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The C-terminal sequences of the gamma 57.5 chain of human fibrinogen constitute a plasmin sensitive epitope that is exposed in crosslinked fibrin. 247 31

Tissue-type plasminogen activator (t-PA), an important component of the fibrinolytic system, is now available as a biotechnologically manufactured recombinant protein for therapeutic use. It has proved highly effective in the clinical therapy of acute thromboembolic diseases such as myocardial infarction and pulmonary embolism. t-PA activates plasminogen to plasmin, which subsequently dissolves the fibrin network of a blood clot. This activation by t-PA occurs selectively on the clot surface, with negligible systemic side effects. The half-life of t-PA in vivo is in the order of minutes due to rapid hepatic elimination. t-PA is a glycoprotein with serine protease activity and consists of a polypeptide chain with 527 amino acids. Recently, intensive research efforts have been devoted to modification of the molecular structure of t-PA, with the objective of further increasing fibrin specificity and catalytic activity, or reducing the rate of elimination. As a result, considerable insights into structure-function relationships within the t-PA molecule have been gained, but as yet no clinically utilizable variant has been constructed which is in all respects superior to naturally occurring t-PA.
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PMID:Properties of molecular variants of tissue-type plasminogen activator. 250 92

Plasmin resulted in increased neutrophil adherence to cultured ovine pulmonary artery endothelial cell monolayers in a concentration-dependent manner (10(-12)-10(-7) M). The adherence response increased fivefold above baseline within 60 min after addition of plasmin (10(-8) M) and the response persisted up to 30 min after removal of plasmin. The neutrophil adherence was mediated by the action of plasmin on neutrophils rather than endothelial cells. The response was the result of an increase in functional activity of CD18 neutrophil cell surface adhesive glycoprotein. Neutrophil adherence was inhibited by pretreatment of neutrophils with MAbs IB4 and 60.3 targeted against the beta chain of the CD18, whereas control isotypic MAb 60.5 against HLA class I antigen had no effect. The plasmin catalytic site was not involved in the response. Lys-plasminogen had reduced adherence-promoting activity relative to plasmin, whereas glu-plasminogen had no effect. Elastase-derived plasminogen fragments corresponding to kringle 1+2+3 and kringle 4 (both of which contained the lysine-binding sites) possessed neutrophil adherence-promoting activities similar to plasmin, whereas miniplasminogen (which contains the catalytic site but no lysine-binding sites) had minimal effect, indicating the involvement of lysine-binding sites in the response. Blocking lysine-binding sites of plasmin and elastase-derived plasminogen fragments with tranexamic acid (IC50 of 5 mM) inhibited neutrophil adherence. A monospecific polyclonal antibody against the lysine-binding sites also reduced the neutrophil adherence-promoting activity of plasmin. The results indicate that plasmin induces neutrophil adherence to the endothelium and that the effect is mediated by lysine-binding sites on plasmin.
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PMID:Role of catalytic and lysine-binding sites in plasmin-induced neutrophil adherence to endothelium. 256 79

Thrombin activation of platelets induces the release of a high molecular weight glycoprotein, thrombospondin. On treatment with factor XIII transglutaminase and [3H]putrescine, thrombospondin undergoes specific incorporation of this labeled amine, with 2-3 mol of putrescine being incorporated per mol of thrombospondin. Analysis of plasmin digests of [3H]putrescine-thrombospondin showed that the Mr 53,000-core peptide contains the glutamine site for amine incorporation. In the absence of amine substrate, thrombospondin was found to provide both donor (glutamine) and acceptor (lysine) sites for intermolecular cross-links by factors XIIIa, and high molecular weight protein complexes were formed. Homopolymers of thrombospondin were also observed by electron microscopy. Thrombin-cleaved thrombospondin has more cross-linking sites accessible for [3H]putrescine incorporation or for cross-linkage to itself than does the uncleaved native protein. Examination of thrombospondin cross-linkage in the presence of other protein substrates (fibronectin, collagen, fibrinogen, and von Willebrand factor) for factor XIIIa, resulted in reduced thrombospondin polymer formation. Electron microscopy and autoradiography of fibrin clots formed in the presence of 125I-thrombospondin showed an association of thrombospondin with fibrin fibrils. However, confirmation that this association involves covalent epsilon-(gamma-glutamyl)lysyl cross-links between thrombospondin and fibrin was not obtained.
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PMID:Characterization of thrombospondin as a substrate for factor XIII transglutaminase. 287 42

Tissue plasminogen activator (TPA) converts plasminogen to plasmin within the fibrin clot, thus localizing activation of fibrinolysis. To determine the extent to which platelets promote activation of plasminogen by TPA, we studied the interaction of TPA and plasminogen with unstimulated platelets. Normal washed platelets incubated in the presence of physiologic concentrations of plasminogen (180 micrograms/mL) and TPA (20 ng/mL) failed to generate plasmin activity. In contrast, incubation of platelets with TPA concentrations achieved during thrombolytic therapy (40 to 800 ng/mL) produced a tenfold to 50-fold increase in plasmin activity. After exposure to plasminogen and 200 ng/mL of TPA for one hour, platelets failed to agglutinate in the presence of ristocetin. Incubation of platelets suspended in autologous plasma with 400 ng/mL of TPA for one hour also inhibited ristocetin-induced agglutination. Exposure of platelets to plasminogen and increasing concentrations of TPA correlated with a decrease in glycoprotein Ib (GPIb) and an increase in glycocalicin, as shown by immunoblotting. The glycoprotein IIb/IIIa (GPIIb/IIIa) complex and a 250,000-dalton protein also disappeared from washed platelets after incubation with plasminogen and 200 ng/mL of TPA for one hour. These platelets failed to aggregate in the presence of adenosine diphosphate (ADP) or gamma thrombin, although aggregation in response to calcium ionophore A23187 and arachidonic acid remained intact. However, aggregation in response to all four agonists was normal when platelets were incubated with TPA in the presence of autologous plasma. Platelets from a patient with Glanzmann's thrombasthenia also generated plasmin in the presence of TPA. Hydrolysis of GPIb and inhibition of ristocetin-induced agglutination occurred to a lesser extent with these platelets than with control platelets. We conclude that platelets provide a surface for activation of plasminogen by pharmacologic amounts of TPA. Plasmin generation leads to degradation of GPIb and decreased ristocetin-induced agglutination in normal and thrombasthenic platelets, as well as degradation of GPIIb/IIIa in normal washed platelets and inhibition of ADP and gamma thrombin-induced aggregation. These findings suggest that pharmacologic concentrations of TPA may cause platelet dysfunction due to plasmin generation on the platelet surface.
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PMID:Activation of plasminogen by tissue plasminogen activator on normal and thrombasthenic platelets: effects on surface proteins and platelet aggregation. 294 Oct 84

Thrombospondin (TSP) is a multifunctional platelet alpha-granule and extracellular matrix glycoprotein that binds specifically to plasminogen (Plg) via that protein's lysine-binding site and modulates activation by tissue activator (TPA). In this study we report that the plasminogen activators, TPA and urokinase, greatly influence the binding of Plg to TSP. Using an enzyme-linked immunosorbent assay and a TSP-Sepharose affinity bead-binding assay we have found that Plg-TSP complex formation was markedly enhanced (up to 5-fold) when catalytic concentrations of Plg activators were included in the reaction mixtures. The enhancement was dependent upon the generation of small amounts of active plasmin and was duplicated by pretreatment of the immobilized TSP with plasmin prior to addition of the Plg. The enhancement effect was associated with selective proteolysis of the immobilized TSP. Purified Lys-Plg (the plasmin modified form of native Glu-Plg) bound to TSP to a greater extent than Glu-Plg, and binding of both forms was augmented by Plg activators. The apparent KD values of complex formation were unchanged in the presence of Plg activators suggesting that the enhancement effect was due to the generation of additional binding sites. The increased amount of bound Plg was demonstrated to result in a similar increase in the amount of plasmin generated from the complexes by TPA. Plg activators did not influence binding of Plg to histidine-rich glycoprotein or of histidine-rich glycoprotein to TSP, demonstrating specificity. In addition when TSP was treated with other proteases (human thrombin or human leukocyte elastase) no augmentation of Plg binding was seen. Thus, the initial production of small amounts of plasmin from Plg immobilized on TSP in fibrin-free microenvironments could generate a positive feedback loop by enzymatically modifying both TSP and Plg, resulting in an increase in TSP-Plg complex formation leading to the localized production of substantially more plasmin.
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PMID:Tissue plasminogen activator and urokinase enhance the binding of plasminogen to thrombospondin. 294 36

Complement receptor type 1 (CR1) is a glycoprotein of Mr about 250 000 present on erythrocytes and other cell types. CR1 acts as a cofactor in the factor I-mediated breakdown of complement fragment C3b to form iC3b. Using an assay of cofactor activity, a wide variation in mean CR1 levels between erythrocytes from individual donors is observed. CR1 levels also decrease on ageing of erythrocytes in vivo, and again the rate of loss is widely variable between individuals. However, variable loss of CR1 during ageing of erythrocytes is likely to make only a minor contribution to the observed variation in mean CR1 levels. CR1 is very sensitive to proteolysis, and random proteolytic removal of CR1 from erythrocytes is likely to be an important factor in loss of CR1 on ageing of red cells in vivo. In vitro, mild trypsin treatment, plasmin or thrombin digestion of erythrocytes results in the loss of the factor I cofactor activity from the cell surface, and appearance of this activity in the supernatant. We conclude that an active fragment of CR1 is released from the cell surface on proteolysis. Subsequent prolonged trypsin treatment destroys most of the activity of this fragment. Proteolytic removal of CR1 from red cells may account not only for loss on ageing of cells, but also for the acquired CR1 deficiencies observed by others in systemic lupus erythematosus.
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PMID:Loss of complement receptor type 1 (CR1) on ageing of erythrocytes. Studies of proteolytic release of the receptor. 294 10

We have characterized the effects of plasmin on glycoprotein Ib (GpIb), a platelet membrane receptor for von Willebrand factor (vWF), and on glycocalicin, a fragment of the alpha chain of GpIb that contains the vWF-binding region. The addition of 4.5 X 10(-7) mol/L plasmin to washed platelets caused a time-dependent decrease in ristocetin-induced, vWF-dependent platelet agglutination. epsilon-Aminocaproic acid (EACA) inhibited plasmin release of glycocalicin-related antigen from washed platelets and preserved vWF-dependent platelet agglutination, thus indicating that the lysine-binding sites on plasmin facilitated its degradation of GpIb. To demonstrate a direct interaction between plasmin and the vWF-binding region of GpIb we incubated purified glycocalicin with plasmin. Plasmin degraded the glycocalicin into two small carbohydrate-poor peptides and into a larger carbohydrate-rich fragment. EACA was able to inhibit plasmin-mediated degradation of glycocalicin in a concentration-dependent fashion. These studies indicated that plasmin degradation of GpIb was due to a direct interaction between plasmin and GpIb and that this effect was mediated by the lysine-binding region of the plasmin molecule.
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PMID:Proteolysis of platelet glycoprotein Ib by plasmin is facilitated by plasmin lysine-binding regions. 294 32


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