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Query: UNIPROT:P00750 (
PLA
)
16,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. An enzyme-linked immunosorbent assay (ELISA) and functional bioassay to determine immunoreactive and bioactive concentrations of pamiteplase, a novel thrombolytic agent, in human plasma were developed. The ELISA and functional bioassay showed satisfactory accuracy and precision within a concentration range of 0.5-25 ng.ml(-1) and of 0.127-16.2 ng.ml(-1) respectively. 2. The pharmacokinetics of pamiteplase in healthy human subjects were evaluated using the ELISA and functional bioassay. Irrespective of the method used, plasma concentrations declined bi-exponentially. Half-lives in the beta phase were 1.25 and 0.78 h, and AUCs were 507.9 and 286.4 ng.h.ml(-1) respectively. Total clearances of pamiteplase decreased to 19 and 31% of those of the wild-type
tissue-type plasminogen activator
. 3. The protein binding of pamiteplase in human plasma was investigated by gel filtration chromatography. Pamiteplase formed three high molecular weight complexes with
alpha2-macroglobulin
, C1-esterase inhibitor and alpha2-plasmin inhibitor in human plasma. This complex formation was relatively slow, and was thought to be irreversible and covalently bounded. Furthermore, this protein binding in humans resulted in the termination of biological action.
...
PMID:Determination, pharmacokinetics and protein binding of a novel tissue-type plasminogen activator, pamiteplase in human plasma. 1131 7
The plasma fibrinolytic/proteolytic balance was assessed in 60 stable angina patients who underwent control coronary catheterization and the results were correlated with angiographic findings and control samples (n = 20). The concentrations of
t-PA
, PAI-1, collagenase (MMP-1), tissue inhibitor of MMP (TIMP-1), plasmin-antiplasmin (PAP) complexes and
alpha2-macroglobulin
(alpha2-M) were measured in plasma samples. The results showed a significant increase of PAP (p <0.001) and a reduction of alpha2-M (p <0.001) in the group of patients when compared to controls, indicating a degree of fibrinolysis/proteolysis activation. There was no correlation between the different parameters analyzed and the extent of angiographically proven atherosclerosis (one or more stenotic vessels), while the
t-PA
levels were significantly elevated (p <0.03) in patients with coronary stenosis > or =75% or occlusion. We conclude that there is a disturbance of the plasma fibrinolysis/proteolysis in patients with stable angina not related to the extent of atherosclerosis. The
t-PA
levels may be a good marker for coronary occlusion in these patients.
...
PMID:Fibrinolysis/proteolysis balance in stable angina pectoris in relation to angiographic findings. 1152 15
The hemostatic system comprises platelet aggregation, coagulation and fibrinolysis also termed primary, secondary and tertiary hemostasis. From the platelet transcriptome 6000 mRNA species and represent receptors, ion channels, signalling molecules, kinases, phosphatases, and structural, metabolic and regulatory proteins. This abundance of regulatory proteins points towards the importance of signal transduction in platelet function. First platelets adhere to collagen, this induces activation signals such as TXA(2) that induces further Ca(2+) increase. Consecutively, fibrinogen binds to the integrin alpha(IIb)beta(3) resulting in aggregation.This self-amplifying process is controlled by signals, from endothelial cells, to restrict the platelet plug to the site of vessel injury. Secondary hemostasis (coagulation) consists of an extrinsic and intrinsic pathway. Thrombin is generated via Factor Xa resulting from the extrinsic tenase reaction that is turned of by tissue factor pathway inhibitor. While thrombin generation is maintained via positive feedback mechanisms activating factors V, VIII and XI. Excess thrombin is inhibited by antithrombin or by autodownregulation via activation of protein C. Since minor injuries are common, platelets and plasma clotting factors constantly produce clots to stop bleeding. If clots remained after the tissue healing, the vascular bed would become obstructed with clots therefore this is regulated by fibrinolysis, tertiary hemostasis.
Tissue-type plasminogen activator
synthesised by the endothelium, converts plasminogen to plasmin, the clot lysis enzyme. Plasmin clears the blood vessels by degrading fibrin. Fibrinolysis is controlled by plasminogen activators inhibitor (PAI-1), alpha2-antiplasmin and
alpha2-macroglobulin
, and thrombin-activatable fibrinolysis inhibitor (TAFI).
...
PMID:The hemostatic system. 1537 10
Lachesis venom
plasminogen activator
(LV-PA) is a 33-kDa serine proteinase isolated from bushmaster (Lachesis muta muta) snake venom, which activates the fibrinolytic system in vitro. This study has examined the effect of the plasma proteinase inhibitor
alpha2-macroglobulin
(alpha2-M) towards LV-PA and compares it with the effect on tissue type
plasminogen activator
(t-PA). The proteolytic activity of LV-PA alone or previously incubated with human plasminogen (Plg) on the large molecular mass protein substrates, dimethylcasein (DMC) and fibrinogen (Fg) was completely inhibited by human alpha2-M. However, the synthetic peptides Tos-Gly-Pro-Lys-pNA and H-D-Pro-Phe-Arg-pNA (S-2302) were hydrolyzed with almost no reduction in rate. At pH 7.4 and 37 degrees C the proteinase (0.15 microM over 15 min) interacted with alpha2-M, and each mole of alpha2-M bound 2 mol of enzyme. Sodium dodecyl sulfate gel electrophoresis of reduced samples showed that the interaction of alpha2-M with either LV-PA or t-PA preincubated with Plg resulted in the formation of approximately 90 kDa fragments and high molecular mass complexes (Mr 180 kDa), generated by the incubation mixture (LV-PA or t-PA) and Plg. The data suggest that LV-PA is a direct-type PA and its fibrinolytic effect can be reduced by alpha2-M in vivo.
...
PMID:Interaction of a plasminogen activator proteinase, LV-PA with human alpha2-macroglobulin. 1645 39
Coupling
tissue-type plasminogen activator
(tPA) to carrier red blood cells (RBC) prolongs its intravascular life span and permits its use for thromboprophylaxis. Here, we studied the susceptibility of RBC/tPA to PA inhibitors including plasminogen activator inhibitor-1 (PAI-1) that constrain its activity and may reduce the duration of its effect. Despite lesser spatial and diffusional limitations, soluble tPA was far less effective than RBC/tPA in dissolving clots formed in vitro from blood of wild-type (WT) mice (40 versus 80% lysis at equal doses of tPA). Furthermore, after i.v. injection, soluble tPA lost activity faster in transgenic mice expressing a high level of PAI-1 than in WT mice, whereas the activity of RBC/tPA was unaffected. PAI-1 inactivated soluble tPA at equimolar ratios in vitro, but it had no effect on the amidolytic or fibrinolytic activity of RBC/tPA. RBC/tPA was also more resistant than soluble tPA to in vitro inhibition by other serpins (
alpha2-macroglobulin
and alpha1-antitrypsin) and pathologically high levels of glucose. However, coupling to RBC did not protect a truncated tPA mutant, Retavase, from plasma inhibitors. Chemical removal of the RBC glycocalyx negated tPA protection from inhibitors: tPA coupled to glycocalyx-stripped RBC bound twice as much 125I-PAI-1 as did tPA coupled to naive RBC, and susceptibility of the bound tPA to inhibition by PAI-1 was restored. Thus, the RBC glycocalyx protects RBC-coupled tPA against inhibition. Resistance to high levels of inhibitors in vivo contributes to the potential utility of RBC/tPA for thromboprophylaxis.
...
PMID:The glycocalyx protects erythrocyte-bound tissue-type plasminogen activator from enzymatic inhibition. 1721 48
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