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Query: EC:3.4.21.7 (
plasmin
)
9,023
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A high plasma concentration of lipoprotein Lp(a) is now considered to be a major and independent risk factor for cerebro- and cardiovascular atherothrombosis. The mechanism by which Lp(a) may favour this pathological state may be related to its particular structure, a
plasminogen-like
glycoprotein, apo(a), that is disulfide linked to the apo B100 of an atherogenic LDL-like particle. Apo(a) exists in several isoforms defined by a variable number of copies of
plasminogen-like
kringle 4 and single copies of kringle 5 and the catalytic region. At least one of the
plasminogen-like
kringle 4 copies present in apo(a) (kringle IV type 10) contains a lysine binding site (LBS) that is similar to that of plasminogen. This structure allows binding of these proteins to fibrin and cell membranes. Plasminogen thus bound is cleaved at Arg561-Val562 by plasminogen activators and transformed into
plasmin
. This mechanism ensures fibrinolysis and pericellular proteolysis. In apo(a) a Ser-Ile substitution at the Arg-Val plasminogen activation cleavage site prevents its transformation into a
plasmin
-like enzyme. Because of this structural/functional homology and enzymatic difference, Lp(a) may compete with plasminogen for binding to lysine residues and impair, thereby, fibrinolysis and pericellular proteolysis. High concentrations of Lp(a) in plasma may, therefore, represent a potential source of antifibrinolytic activity. Indeed, we have recently shown that during the course of the nephrotic syndrome the amount of plasminogen bound and
plasmin
formed at the surface of fibrin are directly related to in vivo variations in the circulating concentration of Lp(a) (Arterioscler. Thromb. Vasc. Biol., 2000, 20: 575-584; Thromb. Haemost., 1999, 82: 121-127). This antifibrinolytic effect is primarily defined by the size of the apo(a) polymorphs, which show heterogeneity in their fibrin-binding activity--only small size isoforms display high affinity binding to fibrin (Biochemistry, 1995, 34: 13353-13358). Thus, in heterozygous subjects the amount of Lp(a) or plasminogen bound to fibrin is a function of the affinity of each of the apo(a) isoforms and of their concentration relative to each other and to plasminogen. The real risk factor is, therefore, the Lp(a) subpopulation with high affinity for fibrin. According to this concept, some Lp(a) phenotypes may not be related to atherothrombosis and, therefore, high Lp(a) in some individuals might not represent a risk factor for cardiovascular disease. In agreement with these data, it has been recently reported that Lp(a) particles containing low molecular mass apo(a) emerged as one of the leading risk conditions in advanced stenotic atherosclerosis (Circulation, 1999, 100: 1154-1160). The predictive value of high Lp(a) as a risk factor, therefore, depends on the relative concentration of Lp(a) particles containing small apo(a) isoforms with the highest affinity for fibrin. Within this context, the development of agents able to selectively neutralise the antifibrinolytic activity of Lp(a), offers new perspectives in the prevention and treatment of the cardiovascular risk associated with high concentrations of thrombogenic Lp(a).
...
PMID:Inhibition of fibrinolysis by lipoprotein(a). 1146 Apr 83
Apolipoprotein(a) [apo(a)] is the distinctive glycoprotein of lipoprotein Lp(a), which is disulfide linked to the apo B100 of a low density lipoprotein particle. Apo(a) possesses a high degree of sequence homology with plasminogen, the precursor of
plasmin
, a fibrinolytic and pericellular proteolytic enzyme. Apo(a) exists in several isoforms defined by a variable number of copies of
plasminogen-like
kringle 4 and single copies of kringle 5, and the protease region including the backbone positions for the catalytic triad (Ser, His, Asp). A lysine-binding site that is similar to that of plasminogen kringle 4 is present in apo(a) kringle IV type 10. These kringle motifs share some amino acid residues (Asp55, Asp57, Phe64, Tyr62, Trp72, Arg71) that are key components of their lysine-binding site. The spatial conformation and the function of this site in plasminogen kringle 4 and in apo(a) kringle IV-10 seem to be identical as indicated by (i) the ability of apo(a) to compete with plasminogen for binding to fibrin, and (ii) the neutralisation of the lysine-binding function of these kringles by a monoclonal antibody that recognises key components of the lysine-binding site. In contrast, the lysine-binding site of plasminogen kringle 1 contains a Tyr residue at positions 64 and 72 and is not recognised by this antibody. Plasminogen bound to fibrin is specifically recognised and cleaved by the tissue-type plasminogen activator at Arg561-Val562, and is thereby transformed into
plasmin
. A Ser-Ile substitution at the activation cleavage site is present in apo(a). Reinstallation of the Arg-Val peptide bond does not ensure cleavage of apo(a) by plasminogen activators. These data suggest that the stringent specificity of tissue-type plasminogen activator for plasminogen requires molecular interactions with structures located remotely from the activation disulfide loop. These structures ensure second site interactions that are most probably absent in apo(a).
...
PMID:Apolipoprotein(a): structure-function relationship at the lysine-binding site and plasminogen activator cleavage site. 1192 26
Apolipoprotein(a), the
plasminogen-like
component of lipoprotein(a), is transformed into fragments by polymorphonuclear neutrophils (PMNs) elastase. Since stimulated PMNs express urokinase-type plasminogen activator (uPA), we sought to investigate the relevance of apo(a) fragmentation on plasminogen activation by neutrophils. Freshly isolated human PMNs stimulated by a 10 kringle recombinant apo(a), r-apo(a), activate plasminogen in a specific and saturable manner (Km = 476 +/- 42 nM, Vmax = 896 +/- 18 pmol min(-1)). This activation is prevented by amiloride, an inhibitor of u-PA, and epsilon-aminocaproic acid, epsilon-ACA, a lysine analogue that blocks plasminogen binding to PMNs. Stimulation of PMNs by apo(a) results in the formation of elastase-derived apo(a) fragments. These fragments produce a concentration-dependent decrease in the formation of
plasmin
. Addition of elastase inhibitors to PMNs prevented degradation of apo(a) and partially restored the formation of
plasmin
. In a similar manner, isolated r-apo(a) fragments were able to produce a 100% decrease in
plasmin
generation as compared to intact r-apo(a). These data indicate that apo(a) fragments produce a more pronounced inhibition in the generation of cell-bound
plasmin
by uPA than the parent apo(a). These effects of apo(a) and its fragments were neutralised by a monoclonal antibody directed against the lysine-binding site of apo(a). This mechanism may be of biological relevance to the effects of Lp(a) in conditions where PMNs accumulate and release elastase, i.e. thrombus lysis and inflammatory lesions.
...
PMID:Neutrophils stimulated by apolipoprotein(a) generate fragments that are stronger inhibitors of plasmin formation than apo(a). 1554 35
Production of proteinases with
plasmin
-like and plasminogen-activating activities by a micromycete Arthrobotrys longa 1 was studied. Polycyclic growth of the producer in submerged cultures was observed, with an endogenous rhythm of the periods of intense microconidia formation alternating with the phases of drastic increase in the content of producing mycelium. The highest
plasminogen-like
and plasminogen-activating activities (up to 1000 and 500 cond. U/mL, respectively) were found to correlate with the polycyclic growth of the producer, coinciding with the stage of microconidia germination. Enhanced secretion of proteinases with
plasminogen-like
and plasminogen-activating activity was found to be associated with increased specific growth rate of A. longa l.
...
PMID:[Morphological and Physiological Properties of the Micromycete Arthrobotrys longa, a Producer of Longolytin, a Proteolytic Complex with a Thrombolytic Effect]. 2747 5
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