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
Query: EC:3.4.21.73 (
urokinase-type plasminogen activator
)
10,685
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The lipoprotein Lp(a) is a cholesterol-rich plasma lipoprotein from the density fraction 1.06-1.21 g/ml. Numerous clinical and epidemiological studies have revealed a strong correlation between high plasma Lp(a) concentrations and the incidence of coronary heart disease. Furthermore, the Lp(a)-specific protein apo(a) has been detected in atherosclerotic lesions. Lp(a) is essentially an LDL-like lipoprotein particle to which the glycoprotein apo(a) is attached through a disulfide bridge with apo B-100. The elucidation of the amino acid sequence of apo(a) revealed a high homology to specific regions of human plasminogen. The latter consists of five tandemly arranged kringle domains followed by a C-terminal trypsin-like protease region.
Apo(a)
is composed of a large number of kringle domains, all highly homologous to kringle IV of plasminogen, followed by a kringle V-like protease-domain. The lipoprotein Lp(a), therefore, combines structural elements of both the lipoprotein and coagulation systems. In contrast to plasminogen, Lp(a) cannot be activated by TPA, streptokinase or
urokinase
to give proteolytic activity. However, in vitro studies have shown that Lp(a) can both inhibit endothelial cell induced fibrinolysis and can also bind to plasmin modified fibrin. These findings provide a pathobiochemical basis for the involvement of Lp(a) in atherosclerotic and thrombotic processes. The function of this lipoprotein is, however, still unclear.
...
PMID:[Lipoprotein(a): characteristics of a special lipoprotein and its potential clinical significance]. 214 32
Lp(a) represents a genetically transmitted class of plasma LDL having apo B-100 linked by a disulfide bridge to a glycoprotein, apo(a). Lp(a) is heterogeneous in size and density.
Apo(a)
is also heterogeneous in size (molecular weight between approximately 300,000 and 700,000) due probably to the polymorphism of both polypeptide and carbohydrate chains. Recent studies have shown that apo(a) has a striking amino acid sequence homology with plasminogen, a serine protease zymogen that following activation to plasmin enters the fibrinolytic system.
Apo(a)
is severalfold larger than plasminogen (molecular weight approximately 90,000) and also differs from it because it fails to be activated to plasmin. This is due to the fact that arginine is replaced by serine at the site of cleavage by streptokinase,
urokinase
, or tissue plasminogen activator. A single gene locus appears to control the Lp(a) polymorphism as well as the concentration of the Lp(a) phenotypes in the plasma. Patients with high plasma levels of Lp(a) have been shown to have an increased incidence of cardiovascular disease but a causal relationship has not been firmly established. The information that is being rapidly acquired on the structure of Lp(a) should facilitate the understanding of the molecular basis of the polymorphism of this genetic variant and of the role that the various Lp(a) phenotypes play in atherosclerosis and thrombosis. The potential physiologic role of Lp(a) remains open to inquiry.
...
PMID:Lipoprotein(a): a genetically determined lipoprotein containing a glycoprotein of the plasminogen family. 297 66
Apolipoprotein(a) [apo(a)] is a glycoprotein with Mr approximately equal to 280,000 that is disulfide linked to apolipoprotein B in lipoprotein(a) particles. Elevated plasma levels of lipoprotein(a) are correlated with atherosclerosis. Partial amino acid sequence of apo(a) shows that it has striking homology to plasminogen. Plasminogen is a plasma serine protease zymogen that consists of five homologous and tandemly repeated domains called kringles and a trypsin-like protease domain. The amino-terminal sequence obtained for apo(a) is homologous to the beginning of kringle 4 but not the amino terminus of plasminogen.
Apo(a)
was subjected to limited proteolysis by trypsin or V8 protease, and fragments generated were isolated and sequenced. Sequences obtained from several of these fragments are highly (77-100%) homologous to plasminogen residues 391-421, which reside within kringle 4. Analysis of these internal apo(a) sequences revealed that apo(a) may contain at least two kringle 4-like domains. A sequence obtained from another tryptic fragment also shows homology to the end of kringle 4 and the beginning of kringle 5. Sequence data obtained from two tryptic fragments show homology with the protease domain of plasminogen. One of these sequences is homologous to the sequences surrounding the activation site of plasminogen. Plasminogen is activated by the cleavage of a specific arginine residue by
urokinase
and tissue plasminogen activator; however, the corresponding site in apo(a) is a serine that would not be cleaved by tissue plasminogen activator or
urokinase
. Using a plasmin-specific assay, no proteolytic activity could be demonstrated for lipoprotein(a) particles. These results suggest that apo(a) contains kringle-like domains and an inactive protease domain.
...
PMID:Partial amino acid sequence of apolipoprotein(a) shows that it is homologous to plasminogen. 347 6
The effect of a 17-kringle form of recombinant apo(a) [r-apo(a)] on in vitro fibrin clot lysis was studied. In these assays, fibrin clots were formed in the wells of microtiter plates, and lysis of the clots was monitored by measurement of the turbidity at 405 nm. The results indicate that r-apo(a) produces a dose-dependent antifibrinolytic effect in clots formed using either purified components or barium-adsorbed plasma. This effect was found to be independent of clot structure, since lysis of clots formed using both high and low concentrations of thrombin was prolonged by r-apo(a) to the same extent. The two components of the antifibrinolytic effect of r-apo(a) were determined to be (i) attenuation of tPA-mediated plasminogen activation (the major component) and (ii) inhibition of plasmin degradation of fibrin, although r-apo(a) did not directly attenuate plasmin activity, as measured by S-2251 hydrolysis. r-
Apo(a)
interfered most substantially with tPA-mediated activation of Glu-plasminogen and less substantially with tPA-mediated Lys-plasminogen activation and
urokinase
-mediated activation of plasminogen. In summary, we have demonstrated that apo(a) is able to attenuate fibrin clot lysis in vitro, primarily as a consequence of the interference by apo(a) with tPA-mediated Glu-plasminogen activation. These studies illuminate possible mechanisms by which Lp(a) may contribute to the development of vascular disease in vivo.
...
PMID:Antifibrinolytic effect of recombinant apolipoprotein(a) in vitro is primarily due to attenuation of tPA-mediated Glu-plasminogen activation. 771 Oct 34
The serine-proteinase domain in human apolipoprotein(a) [apo(a)] and plasminogen exhibit 89% sequence identity including the catalytic triad. Cleavage of the Arg(561)-Val(562) activation site in plasminogen by either tissue- or
urokinase-type plasminogen activator
results in formation of the fibrinolytic enzyme plasmin.
Apo(a)
does not contain measurable amidolytic activity nor can it be activated by plasminogen activators. It has been suggested that the latter finding might be explained by the substitution of the plasminogen Arg-Val activation site by Ser-Ile in apo(a). To investigate if introduction of the Arg-Val activation site in apo(a) might result in sensitivity towards plasminogen activators, we expressed wild-type and Arg-Val mutant recombinant apo(a) [r-apo(a)] in human embryonic kidney and hepatocyte cell lines. Free r-apo(a) and lipoprotein-like particles [r-Lp(a)] were obtained in the culture supernatants of transfected 293 and HepG2 cells, respectively. Incubation of mutant r-apo(a)/r-Lp(a) with plasminogen activators produced neither plasmin-like activity nor cleavage at the Arg-Val activation site, even in the presence of various stimulators of plasminogen activation. Our data suggest that the high selectivity of activators for plasminogen activation requires interactions with regions in plasminogen distant from the activation disulfide loop which are not present in apo(a).
...
PMID:Effect of plasminogen activators on human recombinant apolipoprotein(a) having the plasminogen activation cleavage site. 1055 66
