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Drug
Enzyme
Compound
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Target Concepts:
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Query: EC:3.4.21.73 (
urokinase-type plasminogen activator
)
10,685
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In a previous study, it was shown that fibrin fragment E-2 selectively promotes the activation of plasminogen by pro-
urokinase
(pro-UK) [Liu, J., & Gurewich, V. (1991) J. Clin. Invest. 88, 2012-2017]. In this study, the kinetics of this promotion by fragment E-2 was studied.
Alanine
-158-rpro-UK (A-pro-UK), a recombinant plasmin-resistant mutant, was used in order to avoid interference by UK generation during the reaction. In some experiments, pro-UK was substituted in order to validate the mutant as a surrogate. In the presence of a range of concentrations (0-20 microM) of fragment E-2, a linear promotion of the catalytic efficiency of A-pro-UK against native Glu-plasminogen was seen which was 245.5-fold at the highest concentration of fragment E-2 and 450-fold at the highest ratio of E-2/plasminogen used. The promotion was largely a function of an increase in kcat, since fragment E-2 induced a less than 10-fold reduction in KM (8.50-1.40 microM). In contrast to this ligand, epsilon-aminocaproic acid (EACA) induced a biphasic promotion of the activation of Glu-plasminogen which was only 18-fold at maximum. Fragment E-2 did not promote the activation of Lys-plasminogen, but the catalytic efficiency of A-pro-UK was 19.7-fold greater against the open Lys-form than against the closed Glu- form of plasminogen. Fragment E-2 had no effect on the amidolytic activity of A-pro-UK or pro-UK, suggesting that the promotion of their activities was indirect and related to a fragment E-2-induced conformational change in Glu-plasminogen.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Fragment E-2 from fibrin substantially enhances pro-urokinase-induced Glu-plasminogen activation. A kinetic study using the plasmin-resistant mutant pro-urokinase Ala-158-rpro-UK. 138 27
The
urokinase
receptor is a multi-functional protein that plays a central role in cell surface plasminogen activation, cell migration, and cell adhesion. We previously demonstrated that high affinity peptide ligands for the
urokinase
receptor, which are
urokinase
competitors, can be obtained from a 15mer peptide library (Goodson et al., 1994). In order to probe for additional
urokinase
receptor binding sites we affinity selected the same bacteriophage library on complexes of soluble
urokinase
receptor (suPAR) and the receptor binding domain of
urokinase
, residues 1-48 (uPA1-48). Bacteriophage were isolated which bound to suPAR and suPAR:uPA1-48 complexes with high yield. The peptide sequences encoded by these bacteriophage were distinct from those obtained previously on
urokinase
receptor expressing cells, and comprise two groups based upon effects on su-PAR:1-anilino-8-napthalene sulfonate (ANS) fluorescence, and vitronectin binding competition.
Alanine
scanning mutagensis of the soluble peptides was used to define minimal regions and key residues for suPAR binding by competition with the parent bacteriophage. A comparison of these results with sequences of domains of both vitronectin and integrin alpha-chains, which have been reported to be important for
urokinase
receptor binding, suggests that the homology with the peptide sequences selected is functionally significant.
...
PMID:Random peptide bacteriophage display as a probe for urokinase receptor ligands. 1192 9
The binding of plasminogen activator inhibitor-1 (PAI-1) to serine proteinases, such as tissue-type plasminogen activator (tPA) and
urokinase-type plasminogen activator
(
uPA
), is mediated by the exosite interactions between the surface-exposed variable region-1, or 37-loop, of the proteinase and the distal reactive center loop (RCL) of PAI-1. Although the contribution of such interactions to the inhibitory activity of PAI-1 has been established, the specific mechanistic steps affected by interactions at the distal RCL remain unknown. We have used protein engineering, stopped-flow fluorimetry, and rapid acid quenching techniques to elucidate the role of exosite interactions in the neutralization of tPA,
uPA
, and beta-trypsin by PAI-1.
Alanine
substitutions at the distal P4' (Glu-350) and P5' (Glu-351) residues of PAI-1 reduced the rates of Michaelis complex formation (k(a)) and overall inhibition (k(app)) with tPA by 13.4- and 4.7-fold, respectively, whereas the rate of loop insertion or final acyl-enzyme formation (k(lim)) increased by 3.3-fold. The effects of double mutations on k(a), k(lim), and k(app) were small with
uPA
and nonexistent with beta-trypsin. We provide the first kinetic evidence that the removal of exosite interactions significantly alters the formation of the noncovalent Michaelis complex, facilitating the release of the primed side of the distal loop from the active-site pocket of tPA and the subsequent insertion of the cleaved reactive center loop into beta-sheet A. Moreover, mutational analysis indicates that the P5' residue contributes more to the mechanism of tPA inhibition, notably by promoting the formation of a final Michaelis complex.
...
PMID:The contribution of the exosite residues of plasminogen activator inhibitor-1 to proteinase inhibition. 1459 4
To find new principles for inhibiting serine proteases, we screened phage-displayed random peptide repertoires with
urokinase-type plasminogen activator
(
uPA
) as the target. The most frequent of the isolated phage clones contained the disulfide bridge-constrained sequence CSWRGLENHRMC, which we designated upain-1. When expressed recombinantly with a protein fusion partner, upain-1 inhibited the enzymatic activity of
uPA
competitively with a temperature and pH-dependent K(i), which at 25 degrees C and pH 7.4 was approximately 500 nm. At the same conditions, the equilibrium dissociation constant K(D), monitored by displacement of p-aminobenzamidine from the specificity pocket of
uPA
, was approximately 400 nm. By an inhibitory screen against other serine proteases, including trypsin, upain-1 was found to be highly selective for
uPA
. The cyclical structure of upain-1 was indispensable for
uPA
binding.
Alanine
-scanning mutagenesis identified Arg(4) of upain-1 as the P(1) residue and indicated an extended binding interaction including the specificity pocket and the 37-, 60-, and 97-loops of
uPA
and the P(1), P(2), P(3)', P(4)', and the P(5)' residues of upain-1. Substitution with alanine of the P(2) residue, Trp(3), converted upain-1 into a distinct, although poor,
uPA
substrate. Upain-1 represents a new type of
uPA
inhibitor that achieves selectivity by targeting
uPA
-specific surface loops. Most likely, the inhibitory activity depends on its cyclical structure and the unusual P(2) residue preventing the scissile bond from assuming a tetrahedral geometry and thus from undergoing hydrolysis. Peptide-derived inhibitors such as upain-1 may provide novel mechanistic information about enzyme-inhibitor interactions and alternative methodologies for designing effective protease inhibitors.
...
PMID:A urokinase-type plasminogen activator-inhibiting cyclic peptide with an unusual P2 residue and an extended protease binding surface demonstrates new modalities for enzyme inhibition. 1614 Dec 8
uPA
(
urokinase-type plasminogen activator
) is a potential therapeutic target in a variety of pathological conditions, including cancer. In order to find new principles for inhibiting
uPA
in murine cancer models, we screened a phage-displayed peptide library with murine
uPA
as bait. We thereby isolated several murine
uPA
-binding peptide sequences, the predominant of which was the disulfide-bridged constrained sequence CPAYSRYLDC, which we will refer to as mupain-1. A chemically synthesized peptide corresponding to this sequence was found to be a competitive inhibitor of murine
uPA
, inhibiting its activity towards a low-molecular-mass chromogenic substrate as well as towards its natural substrate plasminogen. The K(i) value for inhibition as well as the K(D) value for binding were approx. 400 nM. Among a variety of other murine and human serine proteases, including trypsin, mupain-1 was found to be highly selective for murine
uPA
and did not even measurably inhibit human
uPA
. The cyclic structure of mupain-1 was indispensable for binding.
Alanine
scanning mutagenesis identified Arg(6) of mupain-1 as the P1 residue and indicated an extended binding interaction including the P5, P3, P2, P1 and P1' residues of mupain-1 and the specificity pocket, the catalytic triad and amino acids 41, 99 and 192 located in and around the active site of murine
uPA
. Exchanging His(99) of human
uPA
by a tyrosine residue, the corresponding residue in murine
uPA
, conferred mupain-1 susceptibility on to the latter. Peptide-derived inhibitors, such as mupain-1, may provide novel mechanistic information about enzyme-inhibitor interactions, provide alternative methodologies for designing effective protease inhibitors, and be used for target validation in murine model systems.
...
PMID:A cyclic peptidylic inhibitor of murine urokinase-type plasminogen activator: changing species specificity by substitution of a single residue. 1831 60
