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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)
Fully activable recombinant human plasminogen (rPlg) was expressed in mammalian cells employing either recombinant vaccinia virus or stable lines coexpressing alpha 2-plasmin inhibitor. A panel of eight variants of rPlg was constructed, in which progressively up to 6 basic amino acid residues in the
hinge
region of rPlg between the NH2-terminal acidic domain ("proactivation peptide") and kringle 1 were substituted by neutral residues. Analysis of the cleavage rates of these variants by plasmin revealed that the peptide bond at Arg68 is most susceptible, followed by Lys62 and Lys77. A variant with all 6 basic residues substituted was cleaved at Lys20. Three of these variants, PlgB (R68A, R70A), PlgF (R68A, R70A, K77H, K78H), and PlgG (R61A, K62A, R68A, R70A, K77H, K78H), as well as rPlg, were analyzed in more detail. The conformation of these plasminogens was analyzed by monitoring the change in intrinsic fluorescence upon binding of lysine analogs. This revealed that rPlg exhibits the native tight Glu1-plasminogen conformation, whereas PlgB, PlgF, and Plg G display an open conformation similar to Lys78-plasminogen, leading to an increased affinity for lysine analogs. This allowed a direct study of the impact of the activation-resistant conformation on the properties of Glu1-plasminogen. The open conformation of rPlg variants leads to an increased rate of activation by
urokinase-type plasminogen activator
and streptokinase and increased binding to a fibrin clot. Fibrin clot lysis mediated by tissue-type plasminogen activator was accelerated for the variants as a result of a lower Km for tissue-type plasminogen activator-mediated plasminogen activation, resulting from the increased affinity of rPlg (variants) for intact fibrin. We conclude that the basic residues in the extremely plasmin susceptible
hinge
region of plasminogen are directly involved in maintaining the activation resistant Glu1-plasminogen conformation.
...
PMID:The activation-resistant conformation of recombinant human plasminogen is stabilized by basic residues in the amino-terminal hinge region. 779 79
We have studied conformational changes of type-1 plasminogen-activator inhibitor (PAI-1) during a temperature-dependent inhibitor-substrate transition by measuring susceptibility of the molecule to non-target proteinases. When incubated at 0 degree C instead of the normally used 37 degrees C, a tenfold decrease in the specific inhibitory activity of active PAI-1 was observed. Accordingly, PAI-1 was recovered in a reactive-centre-cleaved form from incubations with
urokinase-type plasminogen activator
(
uPA
) and tissue-type plasminogen activator (tPA) at 0 degree C, but not at 37 degrees C. It thus behaved as a substrate for the target proteinases at the lower temperature. Active PAI-1 was exposed to a variety of non-target proteinases, including elastase, papain, thermolysin, trypsin, and V8 proteinase. It was found that specific peptide bonds in the reactive centre loop (RCL) and strand 5 in beta-sheet A (s5A) had a temperature-dependent proteolytic susceptibility, while the P17-P16 (E332-S333) bond, forming the
hinge
between s5A and the RCL, showed indistinguishable susceptibility to proteolysis by V8 proteinase at 0 degree and 37 degrees C. In latent and reactive-centre-cleaved PAI-1, all the bonds were resistant to proteolysis at the higher as well as the lower temperature. An anti-PAI-1 monoclonal antibody maintained the inhibitory activity of PAI-1 and prevented reactive centre cleavage at 0 degree C, and thus prevented substrate behaviour. Concomitantly, it caused specific changes in proteolytic susceptibility of s5A and the RCL, but it did not affect cleavage of the P17-P16 bond by V8 proteinase. Our observations suggest that temperature-dependent conformational changes of beta-sheet A and the RCL determine whether the serpin act as an inhibitor or a substrate. Furthermore they suggest that the RCL of PAI-1 is fully extracted from beta-sheet A in the inhibitory as well as in the substrate form, favoring a so-called induced conformational state model to explain why inhibitory activity requires partial insertion of the RCL into beta-sheet A.
...
PMID:Conformational changes of the reactive-centre loop and beta-strand 5A accompany temperature-dependent inhibitor-substrate transition of plasminogen-activator inhibitor 1. 889 86
The
urokinase-type plasminogen activator
(
uPA
) binds to a specific cell-surface receptor, uPAR. On several cell types uPAR is present both in the full-length form and a cleaved form, uPAR(2+3), which is devoid of binding activity. The formation of uPAR(2+3) on cultured U937 cells is either directly or indirectly mediated by
uPA
itself. In a soluble system,
uPA
can cleave purified uPAR, but the low efficiency of this reaction has raised doubts as to whether
uPA
is directly responsible for uPAR cleavage on the cells. We now report that
uPA
-catalyzed cleavage of uPAR on the cell surface is strongly favored relative to the reaction in solution. The time course of
uPA
-catalyzed cleavage of cell-bound uPAR was studied using U937 cells stimulated with phorbol 12-myristate 13-acetate. Only 30 min was required for 10 nM
uPA
to cleave 50% of the cell-bound uPAR. This
uPA
-catalyzed cleavage reaction was inhibited by a prior incubation of the cells with
uPA
inactivated by diisopropyl fluorophosphate, demonstrating a requirement for specific receptor binding of the active
uPA
to obtain the high-efficiency cleavage of cell-bound uPAR. Furthermore, amino-terminal sequence analysis revealed that uPAR(2+3), purified from U937 cell lysates, had the same amino termini as uPAR(2+3), generated by
uPA
in a purified system. In both cases cleavage had occurred at two positions in the
hinge
region connecting domain 1 and 2, between Arg83-Ala84 and Arg89-Ser90, respectively. The
uPA
-catalyzed cleavage of uPAR is a new negative-feedback regulation mechanism for cell-surface plasminogen activation. We propose that this mechanism plays a physiological role at specific sites with high local concentrations of
uPA
, thus adding another step to the complex regulation of this cascade reaction.
...
PMID:Cell-surface acceleration of urokinase-catalyzed receptor cleavage. 903 Jul 17
Ovalbumin is a non-inhibitory serpin which lacks the ability to undergo the S --> R transition or conformational change. Amino acid residues in the
hinge
region (P11 to P14) of ovalbumin and other non-inhibitory serpins differ from the concensus sequence of this region of inhibitory serpins, and have been proposed to be responsible for lack of inhibitory properties, particularly the P14 charged residue. Site directed mutagenesis using PCR overlap extension was performed on these residues in ovalbumin to create a mutant with three amino acid changes, R340T, V342A and V343A. However analysis of the mutant recombinant ovalbumin with the consensus residues failed to show inhibitory activity or decreased stability, indicating that the
hinge
region alone is not responsible for lack of inhibition. A series of three fusion proteins were then constructed by replacing varying C-terminal regions of ovalbumin with the corresponding region of the inhibitory ov-serpin PAI-2 in order to further analyse serpin inhibitory function. Fusion proteins F1 and F2 contained approximately 16% and 35% PAI-2, respectively. This resulted in the replacing of structural features such as the reactive site loop,
hinge
region and beta sheet strands 5A and 6A. However both fusion proteins showed no inhibitory activity with the PAI-2 target protease
urokinase
(
uPA
) and no decrease in stability as analysed by transverse urea gradient (TUG) gels. The third chimeric fusion protein constructed (F3) contained 64% PAI-2 and did demonstrate inhibition of
uPA
, SDS-PAGE stable complex formation with
uPA
and increased instability on TUG gels. Structural differences between the inactive F2 and active F3 include the replacement of helix F and beta sheet strand 3A of ovalbumin with those of PAI-2, suggesting that these features may have a key role in serpin beta-sheet opening and inhibitory function.
...
PMID:Analysis of serpin inhibitory function by mutagenesis of ovalbumin and generation of chimeric ovalbumin/PAI-2 fusion proteins. 912 38
Expression/secretion vectors for the production of Fab' and single-chain (sc) Fab' by Bacillus brevis have been constructed. For the production of Fab', the cDNAs encoding the L chain and Fd' fragment (Fd with the
hinge
region) of a mouse-human chimeric Fab' against human
urokinase-type plasminogen activator
were fused directly with the translation-start and signal-peptide-encoding regions of the mwp gene, the gene for one of the major cell-wall proteins of Bacillus brevis. The two fused genes were placed tandemly downstream from the promoter of the cell-wall protein gene operon (cwp) of B. brevis. For the production of scFab', the two cDNAs were linked with a synthetic oligonucleotide encoding a flexible peptide linker of 17 or 24 amino acids, and fused with the translation start and signal-peptide-encoding regions of the mwp gene. Fab' was efficiently produced by B. brevis, being accumulated at a level of 100 mg/l in the culture medium in a simple shake-flask culture, which is the highest level obtained so far for a gram-positive bacterium. On the other hand, the scFab' remained at a level of a few milligrams per liter in the culture medium. The Fab' produced by B. brevis showed comparable antigen-binding activity to that of the parental antibody. The L chain and Fd' fragment, constituting the Fab', had the correct N-terminal amino acid sequences. These results indicate that B. brevis is a very promising host for the production of native Ig fragments.
...
PMID:Efficient production of a functional mouse/human chimeric Fab' against human urokinase-type plasminogen activator by Bacillus brevis. 939 Apr 57
PAI-1, the physiological inhibitor of tissue-type and
urokinase-type plasminogen activator
, is a unique member of the serpins as it exists in three distinct conformations: an active inhibitory conformation, a non-inhibitory substrate conformation, and a non-reactive latent conformation. Proline substitution of single residues in the P16-P20 region (situated at the proximal
hinge
of the reactive site loop) of wild-type PAI-1 (wtPAI-1) and a stabilized PAI-1-variant (PAI-1-stab; N150H, K154T, Q301P, Q319L, and M354I, t(1/2)=150), respectively, resulted in two series of PAI-1-variants with different properties. In wtPAI-1 only substitution at P18 resulted in a pronounced
u-PA
specificity and substrate behaviour towards t-PA. In contrast, in PAI-1-stab substitution at either P18, P19 or P20 resulted in a
u-PA
specificity and a significantly increased substrate behaviour towards t-PA and
u-PA
. Importantly, analysis of the kinetics of inhibition did not reveal any differences in the second-order rate constants of inhibition (k approximately 10(7)M(-1)s(-1)). The pronounced differences observed for identical mutations in wtPAI-1 vs PAI-1-stab demonstrate that not merely the sequence of the reactive loop but also intramolecular interactions between the hF/s3A-loop and the main part of the molecule govern the functional and conformational behaviour of PAI-1.
...
PMID:Comparative analysis of the proteinase specificity in wild-type and stabilized plasminogen activator inhibitor-1: evidence for contribution of intramolecular flexibility. 1535 69
