EC:3.4.21.7 - FACTA Search

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)

Heparin cofactor II (HCII), a member of the "serpin" family of serine protease inhibitors, is a 65,600-Da plasma glycoprotein that inhibits thrombin and chymotrypsin. The rate of thrombin inhibition is stimulated approximately 1000-fold by heparin or dermatan sulfate. Thrombin and chymotrypsin cleave the Leu444-Ser445 bond (designated P1-P'1) in the reactive site of HCII, forming a stable equimolar complex in which the protease is inactive. In this study, we have determined the effects of substituting an arginine for Leu444 in recombinant HCII (rHCII). The rHCII was expressed in Escherichia coli and partially purified by heparin-Sepharose chromatography. Apparent second-order rate constants (k2) for inhibition of thrombin, coagulation factor Xa, kallikrein, plasmin, and chymotrypsin by rHCII were determined using appropriate chromogenic substrates. In the absence of a glycosaminoglycan, rHCII(Leu444----Arg) inhibited thrombin at a 98-fold higher rate (k2 = 6.2 x 10(6) M-1 min-1) than native rHCII (k2 = 6.3 x 10(4) M-1 min-1). Dermatan sulfate accelerated thrombin inhibition by both forms of rHCII, but the maximum rate constant in the presence of dermatan sulfate was only 2-fold higher for rHCII(Leu444----Arg) (k2 = 5.3 x 10(8) M-1 min-1) than for native rHCII (k2 = 2.2 x 10(8) M-1 min-1). Heparin was less effective than dermatan sulfate in stimulating both forms of rHCII. Factor Xa, kallikrein, and plasmin were inhibited more rapidly and chymotrypsin more slowly by rHCII(Leu444----Arg) than by native rHCII. These effects are qualitatively similar to those observed with the natural mutant alpha 1-antitrypsin Pittsburgh (Met358----Arg at the P1 position) and strengthen the hypothesis that the P1 residue is a major determinant of protease specificity in the serpins. Furthermore, the rapid rate of inhibition of thrombin by rHCII(Leu444----Arg) in the absence of heparin or dermatan sulfate suggests that this variant may be useful as a therapeutic agent.
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PMID:Substitution of arginine for Leu444 in the reactive site of heparin cofactor II enhances the rate of thrombin inhibition. 213 9

The primary structure of rat hepatocyte growth factor (HGF) was elucidated by determining the base sequence of the complementary DNA (cDNA) of HGF. The cDNA for rat HGF was isolated by screening a liver cDNA library with oligonucleotides based on the partial N-terminal amino acid sequence of the beta subunit of purified rat HGF. HGF is encoded in an mRNA of about 6 kilobases. Both alpha and beta subunits of HGF are specified in a single open reading frame for a 728-amino acid protein with a calculated molecular weight of 82,904. The N-terminal part of HGF has a signal sequence and a prosequence with 30 and 25 amino acid residues, respectively. The mature heterodimer structure is derived proteolytically from this single pre-pro precursor polypeptide. The calculated molecular weights of the alpha and beta subunits are 50,664 and 25,883, respectively, and each subunit has two potential N-linked glycosylation sites. The amino acid sequence of HGF is 38% identical with that of plasminogen. The alpha subunit of HGF contains four "kringle" structures, and the beta subunit has 37% amino acid identity with the serine protease domain of plasmin. Northern blot analysis revealed that HGF mRNA was expressed in rat various tissues, including the liver, kidney, lung, and brain.
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PMID:Deduced primary structure of rat hepatocyte growth factor and expression of the mRNA in rat tissues. 213 29

C1-s, one of the three subcomponents of C1-, the first component of complement, is a serine protease comprising two disulfide-linked chains, the B chain, containing the catalytic site, and the A chain, involved in Ca2+ binding and Ca2(+)-dependent interaction(s) with the other C1- subcomponents. In an attempt to identify the regions responsible for the latter functions, C1-s was submitted to limited proteolysis with plasmin, a treatment that split the A chain into three major fragments, alpha 1, alpha 2, and gamma. Fragment alpha 2, which comprised the epidermal growth factor-like (EGF-like) region of C1-s, was heterogeneous, starting at serine 97 or phenylalanine 105 and ending at lysine 195. This fragment was reduced and alkylated and then digested with elastase, and three peptides covering positions 131-135, 131-139, and 131-140 were characterized by amino acid analysis, Edman degradation, and mass spectrometry, showing that position 134 of C1-s is occupied partly by an asparagine (47%) and partly by an erythro-beta-hydroxyasparagine, in contrast with the homologous position (150) of C1-r which only contains erythro-beta-hydroxyasparagine. As measured by equilibrium dialysis, native alpha 2, like the other plasmin-cleavage fragments, did not retain the ability of intact C1-s to bind Ca2+. In the same way, plasmin cleavage abolished the ability of C1-s to dimerize or to associate with C1-r in the presence of Ca2+. In contrast, both alpha 2 and the N-terminal alpha 1 fragment, starting at serine 24 of the A chain, were able to compete significantly with intact C1s for the formation of the Ca2(+)-dependent C1-s-C1r-C1-r-C1-s tetramer.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Chemical and functional characterization of a fragment of C1-s containing the epidermal growth factor homology region. 214 Dec 78

Thrombospondin (TSP), an adhesive glycoprotein found in platelets and extracellular matrix, has been shown previously to interact with plasminogen and tissue plasminogen activator, resulting in efficient plasmin generation. We now demonstrate specific complex formation of TSP with both the single-chain and two-chain forms of urokinase (scuPA and uPA). Binding of uPA and scuPA to immobilized TSP was detected and quantified using colorimetric immunoassays and a functional amidolytic assay. Binding was time and concentration dependent with apparent affinity constants of 40-50 nM. Binding was not affected by serine protease inhibitors, EDTA, or epsilon-aminocaproic acid. scUPA and uPA bound to TSP retained functional activity. Using a sensitive amidolytic assay we found that TSP. scuPA complexes were efficiently converted to TSP. uPA by catalytic plasmin concentrations. Additionally, TSP.uPA complexes were found to have plasminogen-activating activity equivalent to fluid-phase uPA and to be protected from inhibition by plasminogen activator inhibitor type 1, the major plasma and matrix plasminogen activator inhibitor. Using immunohistochemical techniques, we also demonstrated co-distribution of TSP and uPA in normal and malignant breast tissue. Complex formation of TSP with uPA may serve to localize, concentrate, and protect these enzymes on cell surfaces and within the extracellular matrix, thereby providing a reservoir of plasminogen activator activity.
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PMID:Thrombospondin forms complexes with single-chain and two-chain forms of urokinase. 214 8

Tissue-type plasminogen activator (tPA) is a glycosylated serine protease which is an effective thrombolytic agent. Native single-chain tPA (sc-tPA) is converted to two-chain tPA (tc-tPA) by plasmin, the product of the reaction of plasminogen with tPA. Native sc-tPA occurs as two glycoforms. Type I sc-tPA is fully glycosylated, while type II lacks glycosylation at Asn-184. The rates at which type I and type II human melanoma sc-tPA were converted to type I and type II tc-tPA by plasmin were determined by two different methods. In each case, the second-order rate constant (kcat/Km) for type II sc-tPA (approximately 8 microM-1 s-1) was about twice that for type I sc-tPA (approximately 4 microM-1 s-1). These results indicate that glycosylation at Asn-184 hinders the conversion of sc-tPA to tc-tPA and suggest that under physiological conditions type I sc-tPA may persist in the single-chain form longer than type II sc-tPA. Previous studies have shown that type I tc-tPA has a lower activity than type II tc-tPA and that sc-tPA has a lower activity and susceptibility to inhibition when compared to tc-tPA. The present work provides further evidence that tPA glycosylation serves to modulate activity. The two major glycoforms may represent more persistent but slow acting (type I) and less persistent but faster acting (type II) variants of tPA.
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PMID:Glycosylation at Asn-184 inhibits the conversion of single-chain to two-chain tissue-type plasminogen activator by plasmin. 214 93

Incubation of polioviruses with human intestinal fluid is known to result in molecular and antigenic modification of the virion surface. Studies with different inhibitors of serine proteases suggested that trypsin in the intestinal fluid is most likely responsible for the primary cleavage of VP 1. However, minor differences could be distinguished between the final cleavage products produced by purified trypsin and intestinal fluid, respectively. Other enzymes present in intestinal fluid may thus contribute to the modification of polioviruses in vivo. No evidence was obtained in favour of any biological significance of these further modifications. Another serine protease plasmin, which is generated in the body from its ubiquitous precursor plasminogen under various physiological and pathological conditions, was also shown to be able to cleave VP 1 of polioviruses and bring about the corresponding modification of antigenic site 1. This observation extends the potential pathogenetic consequences of the host enzyme-mediated proteolytic modification of polioviruses from intestinal mucosa to most other tissues.
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PMID:Antigenic modification of polioviruses by host proteolytic enzymes. 215 86

Protein breakdown in submandibular glands rendered hypertrophic by amputation of the lower incisor teeth in rats was investigated. Reduced protein breakdown was observed in the hypertrophic gland tissues, and was found to be inhibited by 20 mM epsilon-amino-n-caproic acid, an inhibitor of serine protease, and 50 microM leupeptin, an inhibitor of trypsin, plasmin, papain and cathepsin B, but not by 2 mM PMSF (phenylmethylsulfonyl fluoride), an inhibitor of serine protease, 10 microM pepstatin, an inhibitor of cathepsin D and 20 microM antipain, an inhibitor of cathepsin A and B. These results suggest that some serine proteases and leupeptin-sensitive proteases (presumably cathepsin B) participate in protein breakdown in hypertrophic gland tissues, and that hypertrophy of the submandibular glands is closely related to the reduced protein breakdown in these tissues.
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PMID:Protein breakdown in submandibular glands rendered hypertrophic by amputation of lower incisor teeth in rats. 223 Sep 61

The plasma protein alpha 2-antiplasmin is the main physiological inhibitor of the serine protease plasmin, which is responsible for the dissolution of fibrin clots. We have determined the primary structure of mature human alpha 2-antiplasmin by DNA sequencing of overlapping cDNA fragments prepared from human liver mRNA. cDNA clones were identified by hybridization with a 48-base pair deoxyoligonucleotide probe deduced from the sequence of a 16-amino acid peptide of alpha 2-antiplasmin. Mature human alpha 2-antiplasmin contains 452 amino acids. It is homologous (23-28%) with five other proteins belonging to the serine protease inhibitor (serpin) superfamily. Its reactive site, i.e. the peptide bond cleaved by reaction with its primary target enzyme, plasmin, consists of Arg364-Met365. This dipeptide corresponds to the reactive site Met358-Ser359 of the archetypal serpin, alpha 1-antitrypsin.
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PMID:Primary structure of human alpha 2-antiplasmin, a serine protease inhibitor (serpin). 243 86

Human plasma kallikrein, a product of contact-activated plasma proteolysis, is moderately inhibited by aprotinin, a small polypeptide from bovine lung that has been used as an experimental drug in human disease states. Aprotinin has a Lys residue in the P1 (reactive center) position occupying residue 15. Since kallikrein is an arginine-directed serine protease, we hypothesized that an altered form of aprotinin, Arg15-aprotinin, might be a better inhibitor. Kinetic evaluations were performed in 96-well microplates. We found that the KL (loose or Michaelis-Menten complex) was unchanged by the modification. However, the association rate constant was increased from 1.14 X 10(4) (mol/L)-1s-1 to 1.5 X 10(5) (mol/L)-1s1, thus indicating that the inhibition rate was increased 14-fold for the modified protein. The Ki (at equilibrium) was decreased from 3.2 X 10(-7) mol/L to 1.5 X 10(-8) mol/L after substituting Arg for Lys in the P1 position. Therefore, the modified inhibitor binds to plasma kallikrein more tightly than the natural protein. We also investigated the effect of Arg15-aprotinin on tissue kallikrein, plasmin, factor XIIa, factor XIa, and thrombin and found that the Ki slightly decreased from 5.1 X 10(-7) mol/L to 1.2 X 10(-7) mol/L for tissue kallikrein and slightly decreased from 2 X 10(-8) mol/L to 1 X 10(-8) mol/L for plasmin. Arg15-aprotinin did not inhibit thrombin or factor XIIa, even though both enzymes are arginine-directed serine proteases. However, factor XIa, although it was not inhibited by aprotinin, had a Ki of 3.4 X 10(-8) mol/L for Arg15-aprotinin. Therefore, Arg15-aprotinin is a more effective inhibitor of plasma kallikrein as well as factor XIa but shows minimal preference for plasmin and tissue kallikrein. This study also indicates that it is possible and practical to perform kinetic analyses directly in microplates.
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PMID:Kinetics of inhibition of human plasma kallikrein by a site-specific modified inhibitor Arg15-aprotinin: evaluation using a microplate system and comparison with other proteases. 243 87

Previous studies have implicated proteases, acting extracellularly, in the mechanism of polyneuronal synapse elimination. Most studies have focused on mammalian, especially rodent, skeletal muscle, where retraction of subordinate nerve terminals occurs during a narrow time window 2-3 weeks after birth. To date no specific protease(s) has been detected that (i) coincides in time with maximal synapse elimination and (ii) is known to act extracellularly on specific extracellular matrix proteins. In previous studies of denervation in adult mouse muscle, rapid activation of urokinase-type plasminogen activator, a neutral serine protease, was detected. This enzyme, by activation of plasminogen to plasmin, specifically degrades matrix components such as fibronectin, type IV collagen, and laminin in muscle. We now present evidence for an initial increase and subsequent decrease in soluble urokinase-type PA--and, to a lesser extent, tissue PA--in developing muscle, suggesting postnatal developmental regulation of these enzymes during the period of maximal synapse elimination. Although considerably higher in specific activity, membrane-bound PA activity followed the wave of synapse elimination, possibly indicating a longer half-life of membrane-bound enzyme(s).
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PMID:Decrease in plasminogen activator correlates with synapse elimination during neonatal development of mouse skeletal muscle. 249 3

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