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)

Matrix metalloproteinase 9 (MMP-9) has been purified as an inactive zymogen of M(r) 92,000 (proMMP-9) from the culture medium of HT 1080 human fibrosarcoma cells. The NH2-terminal sequence of proMMP-9 is Ala-Pro-Arg-Gln-Arg-Gln-Ser-Thr-Leu-Val-Leu-Phe-Pro, which is identical to that of the 92-kDa type IV collagenase/gelatinase. The zymogen can be activated by 4-aminophenylmercuric acetate, yielding an intermediate form of M(r) 83,000 and an active species of M(r) 67,000, the second of which has a new NH2 terminus of Met-Arg-Thr-Pro-Arg-(Cys)-Gly-Val-Pro-Asp-Leu-Gly-Arg-Phe-Gln-Thr- Phe-Glu. Immunoblot analyses demonstrate that this activation process is achieved by sequential processing of both NH2- and COOH-terminal peptides. TIMP-1 complexed with proMMP-9 inhibits the conversion of the intermediate form to the active species of M(r) 67,000. The proenzyme is fully activated by cathepsin G, trypsin, alpha-chymotrypsin, and MMP-3 (stromelysin 1) but not by plasmin, leukocyte elastase, plasma kallikrein, thrombin, or MMP-1 (tissue collagenase). During the activation by MMP-3, proMMP-9 is converted to an active species of M(r) 64,000 that lacks both NH2- and COOH-terminal peptides. In addition, HOCl partially activates the zymogen by reacting with an intermediate species of M(r) 83,000. The enzyme degrades type I gelatin rapidly and also cleaves native collagens including alpha 2 chain of type I collagen, collagen types III, IV, and V at undenaturing temperatures. These results indicate that MMP-9 has different activation mechanisms and substrate specificity from those of MMP-2 (72-kDa gelatinase/type IV collagenase).
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PMID:Matrix metalloproteinase 9 (92-kDa gelatinase/type IV collagenase) from HT 1080 human fibrosarcoma cells. Purification and activation of the precursor and enzymic properties. 140 Apr 81

Fibrinogen fraction I (340 kDa) and fraction II (305 kDa) were isolated by glycine precipitation. The subunit chains of the two fractions were separated, after reduction, by reverse-phase high performance liquid chromatography. The amino acid compositions of the B beta and tau chains of fibrinogen II were identical with those of fibrinogen I. In contrast, the A alpha chains of fibrinogen II were composed of two populations, one comprising homogeneous, intact A alpha chains and the other consisting of heterogeneous, deficient A alpha chains (A alpha' chains) of lengths varying according to the sizes of their COOH-terminal defects. The molar ratio of the A alpha to the A alpha' chains in fibrinogen II was 1.16:1. The amino acid composition and sequence analyses of the TPCK-trypsin peptides derived from the A alpha' chains revealed that the COOH-terminal residues of the A alpha' chains were mainly Asn-269, Gly-297 and Pro-309. These results indicate that the fibrinogen II molecule is asymmetrical and can be represented by the formula (A alpha) (A alpha')(B beta)2(tau)2 and that fibrinogen II cannot be a plasmin degradation product of fibrinogen I.
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PMID:Human fibrinogen heterogeneity: the COOH-terminal residues of defective A alpha chains of fibrinogen II. 142 Aug 13

Ketomethylene pseudopeptide analogues Aa-Pro-Arg psi (COCH2) Gly-pip, 1, where Aa are D- or L-amino acids (Dpa, beta, beta-diphenylalanine; alpha Nal, alpha-naphthylalanine; beta Nal, beta-naphthylalanine; Fgl, fluorenylglycine) with highly lipophilic side chains and psi (COCH2) is a ketomethylene pseudopeptide bond, have been synthesized through a modified Dakin-West reaction under very mild conditions with a high yield using tripeptide 4 with a labile functional group directly on the side chain. Their enzymatic assay of thrombin inhibition has been carried out. The structure-activity relationship study indicated that a lipophilic side chain on the amino acid in the P3 position is very important for binding to the apolar site of thrombin. Compound 1a with D-Dpa at the P3 position has a Ki of 0.2 microM and it doubles thrombin clotting time at only 3 times higher concentration. These values are about 7 times better than those of the corresponding D-Phe analogues. Furthermore, 1a shows poor inhibitory activity against plasmin, factor Xa, urokinase, and kallikrein. Preliminary in vivo testing (3-4-kg rabbit as the animal model) shows no observable side effect (change of blood pressure and accumulation of blood platelet in lungs) at a dose of 1 mg/kg.
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PMID:Synthesis and biological activity of ketomethylene pseudopeptide analogues as thrombin inhibitors. 152 87

Linear tri- and tetrapeptide precursors of 2,5-piperazinedione were prepared and their conversion to spirocyclic dipeptidase enzymes, the spirocyclic dipeptides (SpDp) were generated from the precursors by a two-step mechanism consisting in the proteolytic release of the C-terminal dipeptide ethyl ester and its subsequent spontaneous cyclization. After intraperitoneal administration of urokinase and Ac-Leu-Lys-Gly-Acp-OEt, a SpDp precursor targeted to endogenous plasmin, or the administration of the activated Hageman factor fragment and Ac-Leu-Arg-Ala-Acp-OEt, a SpDp precursor, targeted to endogenous kallikrein, the generated corresponding C-terminal dipeptide ethylester intermediates and SpDp, cyclo(Gly-Acp) and cyclo (Ala-Acp), respectively, were detected in the blood serum of C57B1 mice. Suppression of partial amnesia induced by sodium nitrite was observed in rats where it was subcutaneously administered with H-Leu-Ala-Acp-OEt, a peptide precursor of alaptide, the active SpDp, i.e. cyclo(1-amino-1-cyclopentanecarbonyl-L-alanyl).
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PMID:Two-step generation of spirocyclic dipeptides from linear peptide ethyl ester precursors. 153 Sep 83

Two principal forms of fragment E are generated upon digestion of fibrinogen by plasmin, according to the concentration of enzyme used. At a high concentration of plasmin (above 10 micrograms/ml), a form lacking fibrinopeptide A (FpA) at the N-terminus of the A alpha-chain was generated. This form of fragment E caused a dose-dependent increase in thrombin clotting times but had no measurable inhibitory activity towards thrombin cleavage of D-phenylalanyl-L-pipecolyl-L-arginine p-nitroanilide. At a low concentration of plasmin (less than 1 microgram/ml), fragment E containing 35-40% of the original amount of FpA was present in the terminal digest. The FpA-containing form of fragment E inhibited thrombin cleavage of fibrinogen, inhibited amidolytic activity and bound to the enzyme with an affinity 3-fold tighter than fibrinogen itself (Kd 4.1 +/- 0.3 microM as opposed to 12.7 +/- 1.8 microM). During digestion of fibrinogen at low plasmin concentration, up to 65% of the FpA was cleaved just subsequent to the progressive release of B beta-(1-42)-peptide, and the Arg-16-Gly-17 bond of the A alpha-chain became relatively stable towards plasmin action when present in fragment E (and possibly fragment Y). It is proposed that both forms of fragment E can inhibit clotting by binding to the fibrin(ogen)-recognition site (anion-binding exosite) of thrombin. The FpA-containing form of fragment E can also inhibit binding that occurs distal to the P1 site and thereby interfere with amidolysis of the peptide substrate. Our finding of a lability of the Arg-16-Gly-17 bond in the early phase of digestion may provide an alternative explanation of the increased FpA concentrations observed during thrombolytic therapy.
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PMID:Generation of forms of fragment E with differing thrombin-binding properties during digestion of fibrinogen by plasmin. 153 88

Plasmin is known to activate platelets. However, it is not clear whether plasminogen activators as used in thrombolytic therapy can aggregate platelets and how this relates to the ability of each activator to convert plasminogen to plasmin. Urokinase (UK) and streptokinase (SK) activated purified plasminogen (2 microM) in a concentration-dependent manner. The rates of aggregation of washed platelets by the above plasminogen activators and plasminogen were similar to the extent of activation of plasminogen to plasmin in the absence of platelets. UK or SK (0.2 microM) and plasminogen (2 microM) aggregated platelets modified by an ADP affinity analog, 5'-p-fluorosulfonylbenzoyladenosine (FSBA), and cleaved aggregin, a putative ADP receptor, in [3H]FSBA-modified platelets. These results suggest that the effect was independent of ADP. In contrast, incubation mixtures containing only plasminogen (2 microM) and single chain tissue plasminogen activator (sc-tPA) (less than or equal to 0.12 microM) neither activated the zymogen to an appreciable extent nor aggregated platelets. But, in the presence of fibrin(ogen) fragments (tPA-stimulator), a mixture of plasminogen and sc-tPA aggregated unmodified and FSBA-modified platelets, and cleaved aggregin. The results imply that platelets, in the presence of t-PA stimulator, potentiate activation of plasminogen to plasmin by t-PA, as previously reported. P1, Phe-Gln-Val-Val-Cys-(NpyS)-Gly-NH2, (NpyS = 3-nitro-2-thiopyridine), a synthetic hexapeptide capable of binding to and inhibiting calpain, has been shown to inhibit platelet aggregation induced by purified plasmin. P1 inhibited platelet aggregation by plasminogen and any of the three plasminogen activators. Our results show that at plasma concentrations of plasminogen and at levels of UK and SK attained after infusion of these agents during thrombolysis, these mixtures can cause maximum aggregation which may contribute to reocclusion and stenosis following infarct therapy. P1 can effectively inhibit platelet aggregation under such conditions.
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PMID:Aggregation of washed platelets by plasminogen and plasminogen activators is mediated by plasmin and is inhibited by a synthetic peptide disulfide. 153 63

Human fibrinogen and the plasmin-generated fibrinogen fragment D were photoaffinity labeled specifically with the peptide [14C]Gly-Pro-Arg-N(4-azido-2-nitrophenyl)Lys amide. In the case of fibrinogen, greater than 85% of the incorporated radioactivity was found in the gamma chain. Similarly, when fragment D (Mr, 90,000) was labeled with the same derivatized peptide, virtually all the radioactivity was found in the gamma-chain portion. The labeled fragment D was treated with CNBr and an initial purification was achieved by two gel-filtration steps. The labeled material was purified further by HPLC and was also compared with CNBr digests of unlabeled material. Amino acid analysis and gas-phase sequencing showed the labeled fragment to be gamma-chain residues 337-379.
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PMID:Photoaffinity labeling of the primary fibrin polymerization site: isolation and characterization of a labeled cyanogen bromide fragment corresponding to gamma-chain residues 337-379. 155 95

The plasma concentration of lipoprotein (a) [Lp(a)] is correlated with the risk of atherosclerosis. It is a lipoprotein particle consisting of apoprotein (a) [Lp(a)] is correlated with the risk of atherosclerosis. It is a lipoprotein particle consisting of apoprotein (a) [apo(a)], a protein showing considerable amino acid sequence identity with plasminogen. bound to low-density lipoprotein. The apo(a) portion of Lp(a) was recently shown to have serine-proteinase-type amidolytic activity and to be able to degrade the adhesive glycoprotein fibronectin. To characterize this enzyme activity further, we used chromogenic peptide substrates and inhibitors. Of the substrates tested, those with arginine at the scissile bond [N-alpha-benzoyl-L-Arg p-nitroanilide (pNA), N-alpha-benzoyl-Ile-Glu-Gly-Arg-pNA, N-alpha-benzyloxycarbonyl-Arg-Gly-Arg-pNA] gave the highest hydrolysis rates. Synthetic substrates with plasmin specificity (Val-Leu-L-Lys-pNA and Val-Phe-L-Lys-pNA) were not hydrolysed by Lp(a). Neither tissue plasminogen activator nor urokinase had any effect on the enzyme activity. The addition of antibodies to these plasminogen activators did not inhibit the enzyme activity of Lp(a). Inhibition experiments with phenylmethanesulphonyl fluoride, carbodi-imide, dichloroisocoumarin and competitive peptide inhibitors demonstrated that Lp(a) has enzyme activity that closely resembles that of serine proteinases. Whether this serine-proteinase activity of Lp(a) plays any role in the genesis of atherosclerosis remains to be established.
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PMID:Characterization of the enzyme activity of human plasma lipoprotein (a) using synthetic peptide substrates. 182 80

The question whether single-chain urokinase-type plasminogen activator (Sc-uPA) possesses an enzymatic activity has been a subject of intense investigation for a number of years but still remains unresolved. Recent studies from several laboratories suggest that Sc-uPA or its plasmin-resistant mutants obtained by site-directed mutagenesis possess significant, albeit low, amidolytic and plasminogen activator activities, ranging from 0.1% to 1% of that observed for two-chain urokinase (Tc-uPA). In an effort to characterize these putative intrinsic activities, Sc-uPA was repeatedly treated with dansyl-Glu-Gly-Arg chloromethyl ketone (dansyl-EGRck) or diisopropyl fluorophosphate (DFP) (0.1-0.25 mM added thrice over a period of 24 h at 0 degrees C). This treatment exhaustively inactivated the Tc-uPA contaminant but did not affect Sc-uPA, as evidenced by the lack of significant incorporation of radiolabeled inhibitor in Sc-uPA and full activation of the inhibitor-treated Sc-uPA by plasmin. Assayed in the presence of excess DFP or dansyl-EGRck to ensure trapping of any Tc-uPA generated in the assay mixture, Sc-uPA (84 micrograms/mL, 10,500 latent units/mL) did not elicit any detectable cleavage of the chromogenic substrate S-2444 (detection limit 0.1 unit of Tc-uPA/mL). However, if the Tc-uPA inhibitors were removed prior to assay, a trace amount of amidolytic activity invariably reappeared in the Sc-uPA preparation. Incorporation experiments with [3H]DFP suggested that the appearance of this amidolytic activity was due to formation of Tc-uPA. Plasminogen activator assay of DFP- and dansyl-EGRck-treated Sc-uPA (0.45-2.25 microM), performed in the presence of these inhibitors and Trasylol (10 microM) to ensure entrapment of any Tc-uPA or plasmin generated in the reaction mixture, showed no significant cleavage of 125I-labeled plasminogen (detection limit 0.1 nM). However, if dansyl-EGRck and DFP were removed from the inhibitor-treated Sc-uPA and the assay was performed in the presence of Trasylol alone, there was significant cleavage of 125I-plasminogen due to contamination by Tc-uPA. Fibrin, a positive effector of plasminogen activation by Tc-uPA or Sc-uPA preparations in the absence of DFP and dansyl-EGRck, did not promote cleavage of plasminogen or S-2444 by Sc-uPA in the presence of the Tc-uPA inhibitors.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Single-chain urokinase-type plasminogen activator does not possess measurable intrinsic amidolytic or plasminogen activator activities. 182 71

This study demonstrates an enhancing effect of aspirin on the amidolytic activity of plasmin. The stimulation of plasmin by aspirin was concentration-dependent and was attained at aspirin concentrations above 2 x 10(-4) M. Aspirin produced a small, reproducible and statistically significant stimulation of the chromogenic activity of plasmin upon H-D-Valyl-L-Leucyl-L-Lysine-p-nitroanilide (S-2251) or pyro-Glu-Gly-Arg-p-nitroanilide (S-2444). Kinetic analysis demonstrated a slight decrease in the affinity of plasmin for substrate S-2251 in the presence of aspirin, reflected by a change of the Km from 3.2 x 10(-4) M to 3.8 x 10(-4) M, and an increase of the Vm. The reciprocal Lineweaver-Burk curve indicated an uncompetitive type of stimulation. The stimulatory effect of aspirin was abolished by the lysine analogue 6-aminohexanoic acid (AHA) but not by the alpha-amino acid glutamic acid. The effect of AHA suggests a specific involvement of lysine binding sites (LBS) on plasmin in the interaction of the enzyme with aspirin. Transient acidification of plasmin abolished its response to aspirin, to AHA and to their combination. The addition of aspirin to diluted human control or pregnancy plasma in vitro stimulated the plasma-mediated cleavage of the chromogenic substrate S-2251. In contrast to its effect on plasmin, aspirin failed to change the activity of tissue-type or urokinase-type plasminogen activators. It is conceivable that in addition to the antithrombotic effect of aspirin ascribed to its interaction with the platelets, aspirin also directly stimulates plasmin activity.
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PMID:Stimulation of plasmin activity by aspirin. 182 77


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