EC:3.4.21.5 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

alpha-Thrombin cleavage of 30 polypeptide hormones and their derivatives were analysed by quantitative amino-terminal analysis. The polypeptides included secretin, vasoactive intestinal polypeptide, cholecystokinin fragment, dynorphin A, somatostatins, gastrin-releasing peptide, calcitonins and human parathyroid hormone fragment. Most of them were selected mainly on the ground that they contain sequence structures homologous to the well known tripeptide substrates of alpha-thrombin. All selected polypeptides have one single major cleavage site and both Arg-Xaa and Lys-Xaa bonds were found to be selectively cleaved by alpha-thrombin. Under fixed conditions (1 nmol polypeptide/0.5 NIH unit alpha-thrombin in 20 microliters of 50 mM ammonium bicarbonate at 25 degrees C), the time required for 50% cleavage ranges from less than 1 min to longer than 24 h. Heparin invariably enhanced thrombin cleavage on all polypeptide analysed. The optimum cleavage site for alpha-thrombin has the structures of (a) P4-P3-Pro-Arg-P1'-P2', where P3 and P4 are hydrophobic amino acid and P1', P2' are nonacidic amino acids and (b) P2-Arg-P1', where P2 or P1' are Gly. The requirement for hydrophobic P3 and P4 was further demonstrated by the drastic decrease of thrombin cleavage rates in both gastrin-releasing peptide and calcitonins after chemical removal of hydrophobic P3 and P4 residues. The requirement for nonacidic P1' and P2' residues was demonstrated by the drastic increase of thrombin cleavage rates in both calcitonin and parathyroid hormone fragments, after specific chemical modification of acidic P1' and P2' residues. These findings confirm the importance of hydrophobic P2-P4 residues for thrombin specificity and provide new evidence to indicate that apolar P1' and P2' residues are also crucial for thrombin specificity. It is concluded that specific cleavage of polypeptides by alpha-thrombin can be reasonably predicted and that chemical modification can be a useful tool in enhancing thrombin cleavage.
...
PMID:Thrombin specificity. Requirement for apolar amino acids adjacent to the thrombin cleavage site of polypeptide substrate. 286 41

The molecule of trans-4-aminomethylcyclohexanecarbonylphenylalanine 4-carboxymethylanilide (8), which is a potent and selective inhibitor of plasma kallikrein, can be divided into three parts (P1, P1' and P2'), each of which contains one of the rings. In order to study the role of each part in the manifestation of potent and selective inhibitory activity and the relationship between the structure and inhibitory activities toward plasmin, plasma kallikrein, urokinase and thrombin, each part was substituted with various other moieties to give many kinds of analogs and their inhibitory activities against the above enzymes were examined. Among them, trans-4-aminomethylcyclohexanecarbonyl-O-2-bromobenzyloxycarbon yltyrosine 4-acetylanilide (12) inhibited plasmin and plasma kallikrein with IC50 values of 2.3 x 10(-7) M and 3.7 x 10(-7) M, and K(i) values of 1.2 x 10(-7) M and 1.3 x 10(-7) M, respectively.
...
PMID:Development of active center-directed plasmin and plasma kallikrein inhibitors and studies on the structure-inhibitory activity relationship. 837 Jan 8

Several crystal structures of intact members of the serine proteinase inhibitor (or serpin) superfamily have recently been solved but the relationship of their reactive-loop conformations to those of circulating forms remains unclear. Here we examine reactive-loop conformational changes of anti-trypsin and anti-thrombin by using limited proteolysis and binary complex formation with synthetic homologous reactive-loop peptides. Proteolysis at the P10-P9, P8-P7 and P7-P6 of anti-trypsin was distorted by binary complex formation. The P1'-P2' bond in anti-thrombin was more accessible to proteolysis after binary complex formation, whereas cleavage at the P4-P3 bond was variably altered by synthetic peptide insertion. The proteolytic accessibility of the reactive-site P1-P1' bond of anti-trypsin and anti-thrombin binary complexes was identical with that of the native form and no cleavage was observed in the hinge region (P15-P10) of either protein, whether native or as binary complexes. these results fit with the proposal that the hydrophobic reactive loop of serpins adopts a modified helical conformation in the circulation, with the hinge region being partly incorporated into the A beta-pleated sheet. This loop can be displaced by peptides and induced to adopt a new conformation similar to the three-turn helix of ovalbumin. Both the native and binary complexed forms of anti-thrombin showed a greatly increased proteolytic sensitivity in the presence of heparin, indicating that heparin either induces a conformational change in the local structure of the helical reactive loop or facilitates the approximation of enzyme and inhibitor.
...
PMID:Probing serpin reactive-loop conformations by proteolytic cleavage. 867 81

The importance of substrate residues P2' and P3' on thrombin catalysis has been investigated by comparing the hydrolysis of a series of fluorescence-quenched substrates. Each consisted of a 10-residue peptide, carrying a 2-aminobenzoyl (Abz) group at the N-terminus, and a penultimate 2,4-dinitrophenyl (Dnp) derivatized lysine. Cleavage of such a peptide relieves the intramolecularly-quenched fluorescence, allowing determination of the kinetic parameters. The nature of the P2' residue was found to have a major influence on the rate of cleavage: the Kcat/Km value for the hydrolysis of the Arg-Ser bond in Abz-Val-Gly-Pro-Arg-Ser-Phe-Leu-Leu-Lys(Dnp)-Asp-OH was nearly 3 orders of magnitude higher than that for the hydrolysis of the same substrate with aspartate instead of phenylalanine at the P2' position. Comparatively, the P3' side chain was less important: the kcat/Km value for the substrate with the least effective residue (aspartate) was only 33 times lower than that of the substrate with the most favorable amino acid (lysine). The role of thrombin residues Arg35, Lys36, Glu39 and Lys60f in the putative P2' and P3' binding sites was also examined. Replacement of Lys60f by glutamine improved the rate of cleavage for peptides with P2' lysine or leucine. Compared with thrombin, mutants E39K and E39Q hydrolyzed faster substrates with an acidic residue in P2' or P3', but slightly slower those with a lysine at either position. Mutations R35Q and K36Q only improved the hydrolysis of substrates with an acidic P2' residue. Overall, thrombin prefers bulky hydrophobic side chains in subsite S2' and positively charged residues in S3', whereas acidic residues are markedly antagonistic to both subsites.
...
PMID:Characterization of the P2' and P3' specificities of thrombin using fluorescence-quenched substrates and mapping of the subsites by mutagenesis. 867 38

The recombinant Kunitz protease inhibitor module (domain C5) of human collagen alpha 3(VI) chain was previously shown to lack inhibitory activity for proteases with trypsin-like specificity and some other proteases. We have now prepared mutants in the binding loop region including the P1' site (D2889-->A), the P2' site (F2890-->R) and the P3 site (T2886-->P) and in a more remote region (W2907-->V) either as individual substitutions or combinations of them. These mutants were analyzed for their kinetics of binding to trypsin by surface plasmon resonance and for their capacity to inhibit various proteases. Single substitutions (D-->A, T-->P, W-->V) showed an effect only for D->A which bound to trypsin with Kd = 0.25 microM. A 25-100-fold increase in affinity was observed for the double mutants T-->P/D-->A and F-->R/D-->A and approached the affinity of aprotinin (Kd approximately 0.01 nM) in two different triple mutants. These affinities correlated well with the inhibitory capacities of the mutants for trypsin in the cleavage of a large protein and a small peptide substrate. A similar but not completely identical improvement in inhibitory capacity was also observed for leucocyte elastase but not for thrombin. These data could be interpreted in terms of steric interferences or lack of hydrogen bonding of a few critical residues based on three-dimensional structures available for the C5 domain.
...
PMID:Conversion of the Kunitz-type module of collagen VI into a highly active trypsin inhibitor by site-directed mutagenesis. 868 42

The crystal structure of the noncovalent complex of bovine thrombin and a fibrinogen-A alpha tridecapeptide substrate analog, G17 psi, in which the scissile bond amide nitrogen of Gly-17f has been replaced by a methylene carbon, has been determined at 2.3 A resolution with an R factor of 17.1%. The geometry of the active site indicates that the crystal structure is a close model of the true Michaelis complex. The three independently determined thrombin/G17 psi complexes in the crystal asymmetric unit reveal novel interactions for the P2' and P3' residues-Pro-18f and Arg-19f, respectively-on the carboxyl-terminal side of the scissile bond and confirm previously observed interactions of the P1 (Arg-16f) through P10 (Asp-7f) positions on the amino-terminal side. The thrombin S2' binding site for Pro-18f, as observed in all three complexes, differs from that predicted by modeling studies and is notable for including two carbonyl oxygens of the thrombin main chain. Arg-19f occupies two binding sites on thrombin, S3'A and S3'B, which have dramatically different placements for the arginyl side chain and carboxyl terminus.
...
PMID:Bovine thrombin complexed with an uncleavable analog of residues 7-19 of fibrinogen A alpha: geometry of the catalytic triad and interactions of the P1', P2', and P3' substrate residues. 885 38

Mutations were introduced into the reactive-site region of human pancreatic secretory trypsin inhibitor (PSTI) to produce thrombin and/or factor Xa inhibitors. All of five mutants showed trypsin inhibitory activity as strong as wild-type PSTI. Moreover, the Arg (P1), Pro-Arg (P2-P1), and Pro-Arg-Ile-Tyr-Asn (P2-P1-P1'-P2'-P3') (bold letters indicated replaced amino acids compared to the wild type) mutants had additional inhibitory activities toward factor Xa, both thrombin and factor Xa, and thrombin, respectively, at 1 x 10(-5) M.
...
PMID:Mutations within the reactive-site region of human pancreatic secretory trypsin inhibitor confer alpha-thrombin and factor Xa inhibitory activities. 905 85

A peptide containing residues 1-50 of the Aalpha-chain of fibrinogen, expressed as a fusion peptide with beta-galactosidase, is rapidly cleaved by thrombin at Arg-16, similarly to whole fibrinogen. When Phe-8, which is highly conserved, is replaced with tyrosine (F8Y), the cleavage is slowed drastically [Lord, Byrd, Hede, Wei and Colby (1990) J. Biol. Chem. 265, 838-843]. To examine the structural basis for this result, we have determined the crystal structure of bovine thrombin complexed with a synthetic peptide containing residues 1-23 of fibrinogen Aalpha and the F8Y mutation. The crystals are in space group P43212, with unit-cell dimensions of a = 88.3 A (1 A = 0.1 nm), c = 195.5 A and two complexes in the asymmetric unit. The final R factor is 0.183 for 2sigma data from 7.0 to 2.5 A resolution. There is continuous density for the five residues in the P3, P2, P1, P1' and P2' positions of the peptide (Gly-14f to Pro-18f) at the active site of thrombin, and isolated but well-defined density for Tyr-8f at position P9 in the hydrophobic pocket of thrombin. The tyrosine residue is shifted relative to phenylalanine in the native peptide because the phenol side chain is larger and makes a novel, intrapeptide hydrogen bond with Gly-14f. Adjacent peptide residues cannot form the hydrogen bonds that stabilize the secondary structure of the native peptide. Consequently, the 'reaction'geometry at the scissile bond, eight residues from the mutation, is perturbed and the peptide is mostly uncleaved in the crystal structure.
...
PMID:Crystal structure of fibrinogen-Aalpha peptide 1-23 (F8Y) bound to bovine thrombin explains why the mutation of Phe-8 to tyrosine strongly inhibits normal cleavage at Arg-16. 930 32

Various compounds were synthesized by combining three components at positions P1, P1' and P2'. Of these, N-(trans-4-aminomethylcyclohexanecarbonyl)-Tyr(O-2-bromobenzylo xycarbonyl)- octylamide inhibited plasmin selectively with IC50 values of 0.80 and 0.23 microM towards S-2251 and fibrin, respectively. This compound also inhibited plasma kallikrein, urokinase, thrombin and trypsin with IC50 values of 10, > 50, > 50 and 1.6 microM, respectively.
...
PMID:Development of plasmin-selective inhibitors and studies of their structure-activity relationship. 1070 2

Comparison of thrombin receptors activation splitting sites sequences testifies to their similarity both in activation splitting sites of protein precursors and protein proteinase inhibitors reactive sites. In all these sites corresponded to effectory sites P2'-positions are placed by hydrophobic amino-acids only. The regularity defined conforms with previous thesis about the role of effectory S2'-site in regulation of the processes mediated by serine proteinases.
...
PMID:[Structural regularities in activated cleavage sites of thrombin receptors]. 1082 Aug 58

1 2 3 Next >>