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

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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An A alpha-arginine-141 to serine substitution has been identified in a homozygous dysfibrinogen, fibrinogen Lima, associated with impaired fibrin polymerization. The point mutation created an asparagine-X-serine-type glycosylation sequence, and indeed, extra, mainly disialylated biantennary oligosaccharides have been isolated from A alpha asparagine-139 of the patient's fibrinogen. This type of glycosylation sequence is unique for human fibrinogen, because the sequences shown for normal and abnormal fibrinogens are all asparagine-X-threonine types. The terminal sialic acids of the extra oligosaccharides seem to have largely contributed to the impaired fibrin gel formation, as evidenced by its correction to a near normal level by desialylation. Nevertheless, the polymerizing fibrin facilitated tissue-type plasminogen activator-catalyzed plasmin formation in a normal fashion, indicating that the initial two-stranded fibrin protofibrils had been constructed normally. Thus the impaired fibrin gel formation could be attributed to the delay in their subsequent lateral association, most probably because of the repulsive forces generated by the negative electric charge of the extra sialic acids. The substitution of a basic residue arginine to a noncharged residue serine may also have contributed to the impaired function in a similar manner or by steric hindrance in association with bulky extra oligosaccharide chains.
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PMID:Fibrinogen Lima: a homozygous dysfibrinogen with an A alpha-arginine-141 to serine substitution associated with extra N-glycosylation at A alpha-asparagine-139. Impaired fibrin gel formation but normal fibrin-facilitated plasminogen activation catalyzed by tissue-type plasminogen activator. 163 21

The goal of the present study was to assess the relative importance of receptor-bound and secreted plasminogen activator urokinase (u-PA) in generating cell-surface plasmin and fostering destruction of normal tissue by tumor cells. We first showed that active site-inhibited u-PA could displace endogenous u-PA from the surface of the human colon adenocarcinoma cell line HCT 116. We then prepared expression vectors for u-PA and for a mutant molecule in which the codon for the active site serine residue was changed to encode alanine. Expression of non-functional mutant u-PA decreased the level of cell-bound active u-PA by more than 95% via a mechanism that involved competition for receptor sites. Decreased cell-surface u-PA activity was associated with a decrease in cell-bound plasmin activity to undetectable levels, suggesting that receptor-bound u-PA plays an important role in the generation of plasmin on the cell surface. Transfectants that secreted eightfold to 20-fold elevated levels of active wild-type u-PA showed approximately 50% increases in cell-associated u-PA and only twofold to fourfold increases in cell-associated plasmin, suggesting that the role of secreted u-PA in generating cell-surface plasmin activity was relatively minor. In parent cells and both types of transfectants there was a good correlation between the amount of plasmin bound to the tumor cell surface and the extent to which a basement membrane substrate was degraded. These studies show that receptor-bound u-PA provides an efficient mechanism for plasmin generation on the surface of tumor cells, which, in turn, contributes significantly to their degradative potential.
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PMID:Effects of urokinase receptor occupancy on plasmin generation and proteolysis of basement membrane by human tumor cells. 164 83

Serine protease inhibitors ("serpins") are highly homologous proteins which inhibit selected "target" serine proteases by acting as a pseudo-substrate. Their specificity is primarily determined by the amino acid sequence around the carboxyl-terminally located reactive center (P1-P1'). In addition, the association rate constant between a serpin and a serine protease can be dramatically increased by non-protein cofactors, such as heparin in the case of thrombin inhibition by antithrombin III. In an attempt to alter the specificity of PAI-1 from an inhibitor of the fibrinolytic system to an inhibitor of coagulation, we replaced P1-P1' or P3 through P3' of the reactive center of PAI-1 by the corresponding residues of antithrombin III and assessed whether the mutant proteins, purified from lysates of transformed Escherichia coli cells, had acquired thrombin inhibitory properties. The experiments were performed in the presence and absence of vitronectin, a multifunctional protein which has been shown to bind PAI-1 in plasma and in the matrix of endothelial cells. The second-order rate constants for t-PA inhibition of "wild-type" PAI-1 and PAI P1-P1'ATIII, irrespective of the presence of vitronectin, were similar, whereas replacing P3-P3' resulted in a 40-fold decrease of the second-order rate constant towards t-PA, again independent of vitronectin. In the absence of vitronectin, reactivity of PAI-1 and its "antithrombin III-like" variants towards thrombin was slow; however, PAI-1 P3-P3' ATIII had a 10-fold higher k1 than wild-type PAI-1 (1.3 x 10(4) M-1 s-1 versus 1.1 x 10(3) M-1 s-1). In contrast, in the presence of vitronectin, PAI-1 and even more rapidly PAI-1 P3-P3'ATIII were found to be effective thrombin inhibitors, with k1 values of 2.2 x 10(5) M-1s-1 and 1.8 x 10(6) M-1 s-1, respectively. Thus, in the presence of vitronectin, PAI-1 P3-P3'ATIII displays a 3-fold higher k1 with thrombin than with t-PA. It is shown that vitronectin enhances, in a dose-dependent manner, the formation of sodium dodecyl sulfate-resistant complexes between PAI-1 or mutants thereof and thrombin. Therefore, vitronectin is the first protein described to function as a cofactor for serpin specificity. PAI-1 is proposed to be a versatile inhibitor which, in the presence of vitronectin, can modulate both coagulation and fibrinolysis.
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PMID:Alteration of serpin specificity by a protein cofactor. Vitronectin endows plasminogen activator inhibitor 1 with thrombin inhibitory properties. 169

Plasminogen activators are serine proteinases which transform the serum zymogen, plasminogen, into plasmin, a broad-spectrum protease with fibrinolytic effect. Two main plasminogen activators have been described in humans: urokinase (UK; molecular weight, 55,000) and tissue-type plasminogen activator (tPA; molecular weight, 74,000). Thirteen subjects were studied who had alopecia areata (AA), nine in the active phase and four in remission. There were alterations in the perivascular and peribulbar fibrinolytic activity in the nine subjects in the active phase of disease, suggesting a possible role of plasminogen activators in AA. A modified Todd's autohistographic method was used to evaluate cutaneous fibrinolytic activity (which depended on the activity of plasminogen activators) in the 13 AA subjects and five volunteer controls. Cutaneous fibrinolytic activity was reduced in perivascular areas, but increased in peribulbar areas, in the nine subjects in the active phase of disease. Tests with monoclonal antibodies directed against the catalytic sites of tPA and UK showed that the perivascular fibrinolytic activity was tPA dependent, and the peribulbar fibrinolytic activity was UK dependent.
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PMID:The role of plasminogen activators in alopecia areata. 189 52

The binding of t-PA to fibrin is mediated both by its "finger" (F) and its "kringle 2" (K2) domain. In addition, these domains are involved in the stimulation of t-PA activity by fibrin. We analyzed the kinetic characteristics of Glu-plasminogen activation by t-PA and a set of t-PA deletion mutants in the absence and the presence of desA-fibrin. In the absence of desA-fibrin, the activity of t-PA (variants) is determined by the presence of the protease domain, irrespective of the composition of the amino-terminal heavy chain. In the presence of the cofactor desA-fibrin, the activity of t-PA (variants) is dependent on the domain composition of the heavy chain. The activity of t-PA is stimulated 2,400 fold by desA-fibrin, whereas the activity of the mutant lacking the K1 domain (del. K1) increases 936 fold in the presence of this cofactor. Mutants lacking either the K2 domain (del. K2) or the F domain (del. F) exhibit an enhanced activity upon desA-fibrin addition of 200 and 210 fold, respectively. DesA-fibrin has no stimulatory effect on the activity of the mutant containing only the serine-protease domain (del.FE K1 K2) nor on the activity of the variant containing only the K1 domain and the serine-protease domain (del. FE K2). Furthermore, we determined the relative fibrin affinity of each t-PA variant, which is similarly dictated by the composition of the heavy chain.
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PMID:Kinetic characterization of tissue-type plasminogen activator (t-PA) and t-PA deletion mutants. 190 54

The authors report on the influence of plasminogen activators (PA) on implantation of TA3Ha mammary tumor cells in the healing hepatic wounds of syngeneic strain A mice. Intravenously injected TA3Ha cells, although they rarely metastasize to the liver, formed tumors in the hepatic wounds of a significant percent (42%, P less than 0.0001) of mice. The frequency of tumor formation declined as the interval between surgery and tumor cell inoculation was increased. Furthermore, preexposure of cells to fibrinogen, fibronectin, laminin, or peptides containing the arginine-glycine-aspartic acid-serine residues dramatically reduced the frequency of tumor formation in the hepatic wounds. These results indicate that TA3Ha cells interact with fibrinogen-related proteins in the wound to aid their attachment and growth. Because these proteins are susceptible to digestion by plasmin, PA were used in this study to examine whether administration of these drugs to the mice would modulate tumor formation in the liver wounds. Among the PA tested, human plasmin B-chain-streptokinase complex (B-SK) and recombinant tissue plasminogen activator (t-PA) inhibited tumor implantation in a dose-related manner. Administration of 900 units (U) of B-SK or 3300 U of t-PA per mouse reduced the frequency of tumor formation from 42% to 0% (P = 0.02) and 11% (P = 0.02), respectively. The B-SK was complexed with p-nitrophenyl-p-guanidinobenzoate; it did not activate the plasminogen or inhibit tumor formation in the hepatic wounds. Although urokinase activated the plasminogen, it did not inhibit tumor implantation in the hepatic wound. Heparin, an anticoagulant that prevents conversion of fibrinogen to fibrin without being fibrinolytic, had no influence on tumor formation in the hepatic wounds. The PA can generate plasmin that digests the cell attachment proteins in wounds and consequently inhibits tumor cell attachment.
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PMID:Inhibition of tumor implantation at sites of trauma by plasminogen activators. 191 15

Interleukin-1 (IL-1) release from monocyte-macrophages (Mo) appears dependent on pericellular proteolysis mediated by plasmin. Thus plasminogen activator inhibitors (PAI) which bind the serine proteases responsible for the conversion of plasminogen to plasmin, may inhibit IL-1 release from Mo. We have examined the effect of purified PAI from a hepatoma cell line Hep G2, on IL-1 release from Mo with secondary effects on lymphocyte proliferation in vitro. Fast acting inhibitors of both urokinase (u-PA) and tissue plasminogen activator (two chain t-PA) were noted in harvest fluids of Hep G2 cells. These inhibitors were stable at pH 3 but lost activity at 45 degrees C. They were SDS-stable and migrated with Mr53 and 104 kDa. These properties conformed to characteristics of type-1 plasminogen activator inhibitor (PAI-1). Partially purified PAI-1 added to human Mo cultured on 125I fibrin layer both in the presence and absence of plasminogen inhibited secretion of IL-1 by Mo in response to LPS. This effect, however, did not correlate with the inhibition of plasminogen dependent fibrinolysis. This suggested a degree of sequestration and inaccessibility of membrane bound u-PA of LPS activated Mo to PAI-1. PAI-1, in addition, inhibited mitogen stimulated peripheral blood mononuclear cell (PBMC) proliferation at similar concentration ranges. This effect was abrogated by the addition of specific antisera to PAI-1. PAI-1 may be released as part of an acute phase response. In addition to influencing fibrinolysis, PAI-1 may constitute a negative feedback pathway on Mo IL-1 release and subsequent immune activation in vivo.
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PMID:Monocyte-macrophage release of IL-1 is inhibited by type-1 plasminogen activator inhibitors. 196 70

The Escherichia coli outer-membrane phospholipase A (OM PLA) is a membrane-bound acyl hydrolase with a broad substrate specificity. In order to obtain more insight into the mechanism of action of this enzyme, we designed an active-site-directed inhibitor for OM PLA on the basis of the known substrate specificity as a first step in the elucidation of the catalytic mechanism of this enzyme. The inhibitor, hexadecanesulfonyl fluoride, consists of a long hydrocarbon chain for high-affinity binding by the enzyme and a sulfonyl fluoride moiety as a reactive group. The kinetics of the inactivation of OM PLA by hexadecanesulfonyl fluoride were studied in Triton X-100 micelles. Inactivation is very fast, specific and shows the same characteristics with respect to acyl specificity, pH profile and metal ion requirement as the activity of OM PLA on substrates. Incubation of OM PLA with a stoichiometric amount of hexadecanesulfonyl fluoride leads to a total and irreversible loss of enzyme activity, resulting from the sulfonylation of Ser144. This Ser144, which we suggest to be the active-site serine of OM PLA, is part of the sequence HDSNG, whereas in the water-soluble serine proteases and lipases the structural motif GXSXG is normally encountered. On the basis of the kinetics of inactivation of OM PLA by hexadecanesulfonyl fluoride, we discuss a possible catalytic mechanism of the enzyme.
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PMID:Inactivation of Escherichia coli outer-membrane phospholipase A by the affinity label hexadecanesulfonyl fluoride. Evidence for an active-site serine. 204 Feb 86

The activity of the Escherichia coli outer-membrane phospholipase (OM PLA) is strictly regulated in its natural habitat, the E. coli outer membrane. OM PLA can be reconstituted in phospholipid bilayers, resulting in low specific activity of the enzyme compared to its activity on mixed lipid/detergent micelles. The enzyme can be activated by the addition to these vesicles of the membrane-perturbing peptides polymyxin B, melittin or cardiotoxin resulting in hydrolysis of mainly the sn-1 ester bond of the phospholipids as is also observed in vivo. We used the affinity label hexadecanesulfonyl fluoride to probe the influence of lipid environment on the activity of OM PLA. In detergent and substrate micelles, the rate constant for the sulfonylation of the active-center serine of the purified OM PLA by the affinity label hexadecanesulfonyl fluoride depends on amphiphile concentration. We have reported a similar influence of amphiphile concentration on the activity of the enzyme [Horrevoets, A. J. G. et al. (1989) Biochemistry 28, 1139-1147]. Analysis of the rates of inactivation of OM PLA by hexadecanesulfonyl fluoride in vesicles composed of various phospholipids indicated that activation of the enzyme by membrane-perturbing peptides can be accurately quantified with this affinity label. Our results show that the affinity label hexadecanesulfonyl fluoride can be used to monitor the state of activation of OM PLA in different lipid environments, including non-hydrolyzable substrate analogues. Implications for the in vivo situation are discussed.
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PMID:Activation of reconstituted Escherichia coli outer-membrane phospholipase A by membrane-perturbing peptides results in an increased reactivity towards the affinity label hexadecanesulfonyl fluoride. 204 Feb 88

Implantation and subsequent placental development in many species including the human are dependent on trophoblast invasion of the uterine epithelium, the underlying basement membrane, connective tissue and blood vessels. However, trophoblast invasion in situ is strictly controlled by the microenvironment provided by the pregnant uterus. Key mechanisms underlying various steps in trophoblast invasion of basement membrane and stroma are similar to those identified in the case of invasive tumor cells: (a) attachment to basement membrane by binding to laminin and possibly other basement membrane components; (b) detachment from the basement membrane matrix prior to its penetration, a process that requires the presence of complex-type oligosaccharides on the cell surface; (c) breakdown of basement membrane components by trophoblast-derived metalloproteases (type IV and interstitial collagenase) and serine proteases (plasminogen activator). Type IV collagenase activity is stimulated by binding to laminin, a molecule also secreted by the trophoblast. Activation of trophoblast-derived metalloproteases appears to be plasmin-dependent. Plasmin results from the cleavage of plasminogen by trophoblast-derived plasminogen activator. Control of trophoblast invasion in situ is mediated by decidua-derived transforming growth factor beta (TGF beta) which in turn induces tissue inhibitor of metalloproteases (TIMP) both in the decidua and the trophoblast. We suggest that this control of trophoblast invasiveness is regulated both spatially as well as temporally during gestation. A preprogrammed decline in trophoblast invasiveness with increasing gestational age remains an additional possibility. The nature of the loss of control of trophoblast invasiveness in choriocarcinoma remains to be identified. Refractoriness to TGF beta action remains to strong possibility.
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PMID:Mechanisms of trophoblast invasiveness and their control: the role of proteases and protease inhibitors. 209 85


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