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:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A heat-stable, macromolecular inhibitor of the thrombin-fibrinogen reaction localized in rat liver microsomes has been shown to interfere with the polymerization step in the fibrinogen-fibrin conversion. The inhibitor had no effect on thrombin activity as measured with the synthetic, chromogenic substrate BZ-Phe-Val-Arg-pNA. The amount of fibrin formed and the release of fibrinopeptide A were not affected by the inhibitor. Recording of turbidity at 350 nm and 600 nm indicated an inhibition of the lateral aggregation of the end-to-end fibrin polymers. The inhibitor was localized in both the luminal and membrane fractions of the microsomes. The inhibitor activity was not affected by warfarin treatment of the rats.
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PMID:Studies of an inhibitor of the thrombin-fibrinogen reaction localized in rat liver microsomes. Interference with the polymerization step. 103 48

The amino acid sequences of both the alpha and beta subunits of human chorionic gonadotropin have been determined. The amino acid sequence of the alpha subunit is: Ala - Asp - Val - Gln - Asp - Cys - Pro - Glu - Cys-10 - Thr - Leu - Gln - Asp - Pro - Phe - Ser - Gln-20 - Pro - Gly - Ala - Pro - Ile - Leu - Gln - Cys - Met - Gly-30 - Cys - Cys - Phe - Ser - Arg - Ala - Tyr - Pro - Thr - Pro-40 - Leu - Arg - Ser - Lys - Lys - Thr - Met - Leu - Val - Gln-50 - Lys - Asn - Val - Thr - Ser - Glu - Ser - Thr - Cys - Cys-60 - Val - Ala - Lys - Ser - Thr - Asn - Arg - Val - Thr - Val-70 - Met - Gly - Gly - Phe - Lys - Val - Glu - Asn - His - Thr-80 - Ala - Cys - His - Cys - Ser - Thr - Cys - Tyr - Tyr - His-90 - Lys - Ser. Oligosaccharide side chains are attached at residues 52 and 78. In the preparations studied approximately 10 and 30% of the chains lack the initial 2 and 3 NH2-terminal residues, respectively. This sequence is almost identical with that of human luteinizing hormone (Sairam, M. R., Papkoff, H., and Li, C. H. (1972) Biochem. Biophys. Res. Commun. 48, 530-537). The amino acid sequence of the beta subunit is: Ser - Lys - Glu - Pro - Leu - Arg - Pro - Arg - Cys - Arg-10 - Pro - Ile - Asn - Ala - Thr - Leu - Ala - Val - Glu - Lys-20 - Glu - Gly - Cys - Pro - Val - Cys - Ile - Thr - Val - Asn-30 - Thr - Thr - Ile - Cys - Ala - Gly - Tyr - Cys - Pro - Thr-40 - Met - Thr - Arg - Val - Leu - Gln - Gly - Val - Leu - Pro-50 - Ala - Leu - Pro - Gin - Val - Val - Cys - Asn - Tyr - Arg-60 - Asp - Val - Arg - Phe - Glu - Ser - Ile - Arg - Leu - Pro-70 - Gly - Cys - Pro - Arg - Gly - Val - Asn - Pro - Val - Val-80 - Ser - Tyr - Ala - Val - Ala - Leu - Ser - Cys - Gln - Cys-90 - Ala - Leu - Cys - Arg - Arg - Ser - Thr - Thr - Asp - Cys-100 - Gly - Gly - Pro - Lys - Asp - His - Pro - Leu - Thr - Cys-110 - Asp - Asp - Pro - Arg - Phe - Gln - Asp - Ser - Ser - Ser - Ser - Lys - Ala - Pro - Pro - Pro - Ser - Leu - Pro - Ser-130 - Pro - Ser - Arg - Leu - Pro - Gly - Pro - Ser - Asp - Thr-140 - Pro - Ile - Leu - Pro - Gln. Oligosaccharide side chains are found at residues 13, 30, 121, 127, 132, and 138. The proteolytic enzyme, thrombin, which appears to cleave a limited number of arginyl bonds, proved helpful in the determination of the beta sequence.
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PMID:The amino acid sequence of human chorionic gonadotropin. The alpha subunit and beta subunit. 115 Jun 58

A simple assay procedure for antithrombin III is described. The synthetic product benzoyl-Phe-Val-Arg-p-nitroanilide (S-2160) is used as substrate. By thrombin p-nitroaniline is split from the tripeptide molecule. The yellowish color of this split product can be measured in a photometer. Inactivation of thrombin by antithrombin III results in inhibition of this reaction. The percentage of thrombin inhibited is in direct relation to the activity of antithrombin III. Various modifications were tested to optimate the method. Comparable results were obtained between the coagulation method of HENSEN and LOELIGER and the photometric method.
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PMID:Photometric assay of antithrombin III with a chromogenic substrate. 120 36

The effect of human platelets on the adhesion of polymorphonuclear leukocytes (PMNs) to cultured endothelial cells was investigated. Resting platelets inhibited the adhesion of PMNs stimulated by N-formyl-methionyl-leucyl-phenylalanine (fMLP), leukotriene B4 (LTB4), and tumor necrosis factor-alpha (TNF-alpha). Platelets similarly inhibited PMN adhesion induced by endothelial cell activation with TNF-alpha. The inhibitory effect depended on platelet number, was not associated with detectable platelet activation, and was also exerted by paraformaldehyde-fixed platelets. Moreover, supernatants of U46619- or thrombin-stimulated platelets were ineffective, thus excluding a role for constituents released as a result of the platelet-release reaction. Strong inhibition of PMN adhesion was exerted by platelet lysates. The inhibitory activity associated with lysates was sedimentable, heat sensitive, and not dialyzable through a membrane with a molecular-weight cutoff of 8,000; it was directed toward PMNs and was not due to cytotoxic effects or a general inhibition of PMN responsiveness to stimulation, since enzymatic release from activated PMNs was unaffected by platelet lysates. Finally, the activity was not prevented by specific adenosine inhibitors and anti-P-selectin monoclonal antibody. These data suggest that resting platelets can exert an inhibitory effect on PMN adhesion to the vessel wall during inflammatory and thrombotic conditions.
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PMID:Polymorphonuclear leukocyte adhesion to endothelial cells is inhibited by resting platelets. 128 Apr 66

Hirulog-1 [D-Phe-Pro-Arg-Pro-[Gly]4-desulphohirudin-(53-64) (HV1)] was designed to bind by its first four and last 12 residues to the alpha-thrombin catalytic site and anion-binding exosite for fibrin(ogen) recognition respectively, with a [Gly]4 bridge and an Arg-Pro bond at the scissional position. Human alpha-, gamma- and zeta-thrombins, as well as bovine trypsin, readily hydrolyse Spectrozyme-TH (D-hexahydrotyrosyl-Ala-Arg p-nitroanilide) at pH 7.4 and approx. 23 degrees C. Both alpha- and zeta-thrombins, which have high fibrinogen-clotting activities (greater than 3000 kunits/g), were inhibited with this substrate by hirulog-1 [Ki = 2.56 +/- 0.35 nM (n = 3) and 1.84 +/- 0.15 nM (n = 3) respectively] and slowly cleaved the inhibitor [k = 0.326 +/- 0.082 min-1 (n = 12) and 0.362 +/- 0.056 min-1 (n = 18) respectively], whereas gamma-thrombin, which has essentially no clotting activity (approx. 4 kunits/g), and trypsin were not inhibited with greater than 1000-fold molar excess of hirulog-1. Similar inhibition parameters were also obtained for hirulog-1 incubated with alpha-thrombin or zeta-thrombin at approx. 23 degrees C and by measuring thrombin activity with fibrinogen in the clotting assay at 37 degrees C. Cleavage of the Arg-3-Pro-4 bond in hirulog-1 by either alpha- or zeta-thrombin was shown by identical cleavage products of either thrombin on h.p.l.c. and by sequence analysis of the alpha-thrombin products. These data demonstrate that hirulog-1 is a specific inhibitor of thrombin forms with high fibrinogen-procoagulant activities and that its Arg-3-Pro-4 bond is slowly cleaved by these thrombin forms.
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PMID:Thrombin-specific inhibition by and slow cleavage of hirulog-1. 144 27

Thrombin is a multifunctional serine proteinase that plays a key role in coagulation while exhibiting several other key cellular bioregulatory functions. The X-ray crystal structure of human alpha-thrombin was determined in its complex with the specific thrombin inhibitor D-Phe-Pro-Arg chloromethylketone (PPACK) using Patterson search methods and a search model derived from trypsinlike proteinases of known spatial structure (Bode, W., Mayr, I., Baumann, U., Huber, R., Stone, S.R., & Hofsteenge, J., 1989, EMBO J. 8, 3467-3475). The crystallographic refinement of the PPACK-thrombin model has now been completed at an R value of 0.156 (8 to 1.92 A); in particular, the amino- and the carboxy-termini of the thrombin A-chain are now defined and all side-chain atoms localized; only proline 37 was found to be in a cis-peptidyl conformation. The thrombin B-chain exhibits the characteristic polypeptide fold of trypsinlike serine proteinases; 195 residues occupy topologically equivalent positions with residues in bovine trypsin and 190 with those in bovine chymotrypsin with a root-mean-square (r.m.s.) deviation of 0.8 A for their alpha-carbon atoms. Most of the inserted residues constitute novel surface loops. A chymotrypsinogen numbering is suggested for thrombin based on the topological equivalences. The thrombin A-chain is arranged in a boomeranglike shape against the B-chain globule opposite to the active site; it resembles somewhat the propeptide of chymotrypsin(ogen) and is similarly not involved in substrate and inhibitor binding. Thrombin possesses an exceptionally large proportion of charged residues. The negatively and positively charged residues are not distributed uniformly over the whole molecule, but are clustered to form a sandwichlike electrostatic potential; in particular, two extended patches of mainly positively charged residues occur close to the carboxy-terminal B-chain helix (forming the presumed heparin-binding site) and on the surface of loop segment 70-80 (the fibrin[ogen] secondary binding exosite), respectively; the negatively charged residues are more clustered in the ringlike region between both poles, particularly around the active site. Several of the charged residues are involved in salt bridges; most are on the surface, but 10 charged protein groups form completely buried salt bridges and clusters. These electrostatic interactions play a particularly important role in the intrachain stabilization of the A-chain, in the coherence between the A- and the B-chain, and in the surface structure of the fibrin(ogen) secondary binding exosite (loop segment 67-80).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The refined 1.9-A X-ray crystal structure of D-Phe-Pro-Arg chloromethylketone-inhibited human alpha-thrombin: structure analysis, overall structure, electrostatic properties, detailed active-site geometry, and structure-function relationships. 130 49

Human and bovine alpha-thrombin cleaved at the B-chain by chymotrypsin generates catalytically competent zeta-thrombins, which are comprised of two noncovalently linked fragments: a 36-(human) or 49-(bovine) residue A-chain linked by a disulfide to B-chain residues B1-148 (zeta 1-thrombin) and B-chain residues B149-259 (zeta 2-thrombin). Human and bovine D-Phe-Pro-Arg-CH2-zeta- and PhMeSO2-zeta-thrombins were prepared by reaction of the active-site histidine (H-B43) and serine (S-B205) with PPACK and PMSF, respectively. Unfolding and dissociation of the noncovalently linked polypeptide chains of either human or bovine D-Phe-Pro-Arg-CH2-zeta- and PhMeSO2-zeta-thrombins in 4.5 M guanidine-HCl and refolding upon 30-fold dilution in 50 mM sodium phosphate buffer pH 6.5, 750 mM NaCl, 0.1% PEG resulted in biphasic generation of catalytic activity. The slow phase was eliminated in the presence of the competitive inhibitor benzamidine-HCl. Unfolding and refolding mixtures of the appropriate inactive precursors generated the active chimeric thrombins bovine zeta 1-thrombin:human zeta 2-thrombin and human zeta 1-thrombin:bovine zeta 2-thrombin. Human zeta 1-thrombin and zeta 2-thrombin were isolated, and, upon recombining, the isolated fragments refolded to generate catalytically competent zeta-thrombin with an active-site content, specific activity toward Chromozym-TH, and a specificity constant (kcat/Km) for FPA release from fibrinogen that were all within 60% of those of native alpha-thrombin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Catalytically competent human and bovine zeta-thrombin and chimeras generated from unfolded polypeptide chains. 130 87

According to present models, thrombin activates platelets by cleaving its receptors after Arg41, creating a new N terminus which acts as a tethered ligand. In support of this model, a peptide (SFLLRNPNDKYEPF or TRP42/55) corresponding to residues 42-55 has been shown to activate the receptor. In the present studies, the structural basis for thrombin receptor activation was examined using fragments of this peptide, as well as variants of the peptide with selected amino acid substitutions. The results show that the features of SFLLRNPNDKYEPF required to mimic the effects of thrombin reside within the first 6 residues, SFLLRN. A hexapeptide comprised of these residues was approximately 5 times more potent than the parent peptide in assays of platelet aggregation and, in addition, caused tyrosine phosphorylation, inhibition of cAMP formation, and an increase in cytosolic Ca2+. Omission of either the Ser residue or the Arg and Asn residues greatly diminished peptide activity, as did the substitution of Ala for Phe or Arg. Substitution of Ala for Ser or the initial Leu, on the other hand, had little adverse effect. The inactive peptides SALLRN and NPNDKYEPF had no effect on platelet activation initiated by SFLLRN, but FLLRN inhibited platelet aggregation in response to both SFLLRN and thrombin. These results suggest that within SFLLRN the Phe and Arg residues are particularly important and that Phe must be preceded by another amino acid, the identity of which is not tightly constrained. This observation and comparisons with the homologous domains of proteins whose tertiary structure is known were used to predict the conformation of the SFLLR sequence. The model which emerged suggests that the SFLLR domain may be part of an extended beta structure in the intact receptor and that cleavage by thrombin causes it to contract and assume a modified helical configuration. In this predicted conformation the side chains of Phe and Arg point in the same direction, potentially into a pocket formed by the remainder of the receptor.
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PMID:Structure-function relationships in the activation of platelet thrombin receptors by receptor-derived peptides. 131 29

We have used a guinea pig gastric longitudinal (LM) smooth muscle bioassay system to evaluate the contractile activities of a previously described thrombin receptor-derived polypeptide, S42FLLRNPNDKYEPF55 (one-letter amino acid code) (TRP42-55) and of a series of peptides derived from this sequence. The contractile activities of the polypeptides were compared with the actions of thrombin. Shortened peptides of the sequences S42FLLRNPND50, S42FLLRN47, and S42FLLR46 (TRP42-46) all exhibited contractile activities that were equivalent to or greater than those of the parent polypeptide, TRP42-55. Both TRP42-55 and TRP42-46 mimicked the action of thrombin, in terms of two different signal transduction pathways that were activated either in the LM preparation or in the related but distinct gastric circular muscle assay. In the LM preparation, the peptide FSLLR also exhibited appreciable, but much reduced, activity. Minimal activity was exhibited in the LM by the sequence SFLLA, but the lysine-containing analogue S42FLLK46 was about one fifth as potent as TRP42-46. In contrast, the receptor-derived sequences S42FLL45, S42FL44-NH2, F43LLR46, and S42ALLR46, as well as arginine-containing polypeptides beginning with the SF motif, SFRG and SFRGHITR, were inactive in the LM bioassay system, at concentrations of greater than or equal to 200 microM, as either agonists or antagonists against TRP42-55. In addition to its actions in the LM and circular muscle preparations, the active pentapeptide, TRP42-46, also exhibited thrombin-mimetic intrinsic activity in a rat aortic arterial ring relaxation bioassay, whereas the pentapeptide S42FLLA46 and the tetrapeptide S42FLL45 were inactive. We conclude that the intrinsic biological activity of the thrombin receptor-derived peptide resides in the pentapeptide TRP42-46 and that the phenylalanine and arginine residues at positions 43 and 46 play key roles in the activity of this pentapeptide in smooth muscle systems.
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PMID:Action of thrombin receptor polypeptide in gastric smooth muscle: identification of a core pentapeptide retaining full thrombin-mimetic intrinsic activity. 132 29

The urokinase-type plasminogen activator receptor (u-PAR) was demonstrated on cultured smooth muscle cells (SMCs) of bovine aorta. Binding of 125I-urokinase-type plasminogen activator (u-PA) was concentration dependent and saturable within 45-60 minutes. A similar concentration and time dependence was found in functional plasminogen activation studies. Human two-chain high-molecular-weight u-PA and its proenzyme (pro-u-PA) bound specifically with identical affinity (Kd). Activation of pro-u-PA was strongly accelerated on binding to SMCs and occurred only in the presence of plasminogen on the cell surface. A 100-fold molar excess of unlabeled high-molecular-weight u-PA effectively blocked binding of the radiolabeled ligands; tissue-type plasminogen activator, plasminogen, low-molecular-weight u-PA, and unrelated proteins did not. 125I-u-PA binding was abolished by a monoclonal antibody against the specific u-PA sequence responsible for u-PAR binding. Binding of u-PA sharply decreased on SMC exposure to phosphatidylinositol-specific phospholipase C, confirming the glycan phospholipid cell anchorage of u-PAR. Bovine and human alpha-thrombin (240 nM) increased the binding of 125I-u-PA fivefold, translating into an increase in the number of sites per cell from about 10(5) to 5 x 10(5) without significant change in the Kd (1.29 +/- 0.39 nM). Active site blockade of thrombin by D-Phe-Pro-Arg-chloromethyl ketone resulted in the total loss of stimulatory activity, as did the use of the inactive active site thrombin mutant, S205A. Hirugen (100 microM), which blocks the anion-binding exosite of thrombin, blocked u-PAR stimulating activity. Thus, both the catalytic activity and integrity of the exosite are important for thrombin's stimulatory activity. Other SMC mitogens (epidermal growth factor, transforming growth factor-beta 1, basic fibroblast growth factor, platelet-derived growth factor, and phorbol 12-myristate 13-acetate) increased u-PAR expression on SMCs six- to 20-fold while concomitantly increasing Kd four- to 10-fold. In all cases the induction of u-PAR was dependent on de novo protein synthesis. These observations assign a possible role for thrombin and other mitogens in u-PAR regulation, thereby influencing the pericellular proteolysis that is important in SMC migration and atheromatous plaque development.
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PMID:Regulation of the urokinase-type plasminogen activator receptor on vascular smooth muscle cells is under the control of thrombin and other mitogens. 132 97


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