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)

The ability of BCG-activated macrophages from C57BL/6J mice to lyse neoplastic targets was depressed by inhibitors of methyltransferase reactions (10(-4) M adenosine, 10(-5) M EHNA, and 10(-4) M L-homocysteine or 10(-5) M DZA). Binding of P815 mastocytoma targets to BCG-activated macrophages, which has been shown to be a necessary event in cytolysis of those targets, was also inhibited by adenosine, EHNA, and L-homocysteine or by DZA at the above concentrations. Inhibition of binding was obtained when macrophages were pretreated with the inhibitors, whereas pretreatment of targets with the inhibitors did not alter binding. The inhibitors were not toxic to the macrophages, as judged by morphology and viability of the macrophage cultures as well as by ability of macrophages to bind antibody-coated P815 targets or to secrete plasminogen activator. The inhibitors, at concentrations that inhibited cytolysis and binding, also depressed one type of S-adenosyl-L-methionine-mediated methylation reaction (protein carboxy-O-methylation) in BCG macrophages. The data suggest that transmethylation reactions are essential for the ability of BCG activated murine macrophages to bind and, hence, to destroy P815 tumor cells.
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PMID:The role of transmethylation reactions in regulating the binding of BCG-activated murine macrophages to neoplastic target cells. 724 Jul 42

The low density lipoprotein receptor-related protein (LRP) is a multifunctional cell surface receptor, expressed in liver, that binds with high affinity and endocytoses several structurally and functionally distinct ligands, including apolipoprotein E-activated beta-migrating very low density lipoprotein, tissue-type plasminogen activator, and alpha 2-macroglobulin. Here using in situ hybridization and quantitative RNase protection assays, we show that LRP is also expressed throughout the brain. LRP message is particularly high in the cerebellum, cortex, hippocampus, and brain stem. In addition, we demonstrate that a 39-kDa protein which copurifies with LRP and regulates the binding of other ligands to LRP is also expressed throughout the brain. Interestingly, expression of the 39-kDa message is approximately 100-fold of that found in liver, suggesting that the activity of LRP is more tightly regulated in brain tissue than in liver. Using primary cultures of isolated postnatal cortical neurons, [35S]methionine biosynthetic labeling and immunoprecipitation, we also demonstrate the de novo biosynthesis of LRP, the 39-kDa protein, as well as tissue-type plasminogen activator. Finally, using radioligand binding as well as fluorescent ligand binding and uptake studies, we show that LRP is functional in cortical neurons. These results taken together thus demonstrate expression of functional LRP in neuronal cells and suggest a potential role for LRP in brain protein and lipoprotein metabolism, development, and regeneration.
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PMID:Expression and function of the low density lipoprotein receptor-related protein (LRP) in mammalian central neurons. 751 35

Plasminogen activator inhibitor-1 (PAI-1) is the primary inhibitor of the plasminogen activators (PAs), tissue-type plasminogen activator (tPA), and urokinase-type plasminogen activator (uPA). A library of PAI-1 mutants containing substitutions at the P1 and P1' positions was screened for functional activity against tPA and thrombin. Several PAI-1 variants that were inactive against uPA in a previous study (Sherman, P. M., Lawrence, D. A., Yang, A. Y., Vandenberg, E. T., Paielli, D., Olson, S. T., Shore, J. D., and Ginsburg, D. (1992) J. Biol. Chem. 267, 7588-7595) had significant inhibitory activity toward tPA. This set of tPA-specific PAI-1 mutants contained a wide range of amino acid substitutions at P1 including Asn, Gln, His, Ser, Thr, Leu, Met, and all the aromatic amino acids. This group of mutants also demonstrated a spectrum of substitutions at P1'. Kinetic analyses of selected variants identified P1Tyr and P1His as the most efficient tPA-specific inhibitors, with second-order rate constants (ki) of 4.0 x 10(5) M-1s-1 and 3.6 x 10(5) M-1s-1, respectively. Additional PA-specific PAI-1 variants containing substitutions at P3 through P1' were constructed. P3Tyr-P2Ser-P1Lys-P1'Trp and P3Tyr-P2Ser-P1Tyr-P1'Met had ki values of 1.7 x 10(6) M-1s-1 and 2.5 x 10(6) M-1s-1 against tPA, respectively, but both were inactive against uPA. In contrast, P2Arg-P1Lys-P1'Ala inhibited uPA 74-fold more rapidly than tPA. The mutant PAI-1 library was also screened for inhibitory activity toward thrombin in the presence and absence of the cofactor heparin. While wild-type PAI-1 and several P1Arg variants inhibited thrombin in the absence of heparin, a number of variants were thrombin inhibitors only in the presence of heparin. These results demonstrate the importance of the reactive center residues in determining PAI-1 target specificity and suggest that second sites of interaction between inhibitors and proteases can also contribute to target specificity. Finally, the PA-specific mutants described here should provide novel reagents for dissecting the physiological role of PAI-1 both in vitro and in vivo.
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PMID:Identification of tissue-type plasminogen activator-specific plasminogen activator inhibitor-1 mutants. Evidence that second sites of interaction contribute to target specificity. 772 51

The specific, reversible interaction between plasminogen activator inhibitor 1 (PAI-1) and intact fibrin polymers was studied using both purified components and isolated activated platelets as a source of PAI-1. A key reagent in these experiments is a PAI-1 mutant, having its P1 reactive center residue arginine replaced by methionine (PAI-1 R346M). The second-order association rate of PAI-1 R346M with tissue-type plasminogen activator is over 10,000-fold lower than that of wild-type PAI-1, whereas the ability of the variant to bind to fibrin is unaltered. Competition experiments demonstrated that PAI-1 R346M is equally effective as wild-type PAI-1 in displacing 125I-labeled PAI-1 from fibrin. Fibrinolysis, mediated by tissue-type plasminogen activator, is inhibited in a dose-dependent manner by purified PAI-1. The inhibition can be relieved in a dose-dependent manner by PAI-1 R346M, presumably due to displacement of wild-type PAI-1 by PAI-1 R346M. Perfusion studies, using platelet-rich clots, revealed that the incorporation of PAI-1 R346M dose dependently decreased the 50% clot lysis time. These data indicate that PAI-1 R346M displaces fibrin-bound, endogenous PAI-1 released from activated platelets. Implications to manipulate PAI-1 activity for the management of clinical complications, in particular reocclusion after thrombolytic therapy, are discussed.
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PMID:The significance of fibrin binding by plasminogen activator inhibitor 1 for the mechanism of tissue-type plasminogen activator-mediated fibrinolysis. 774 52

Hyperhomocysteinaemia, defined as an abnormally high plasma homocysteine concentration after an oral methionine load, is common in young (< or = 50 years) patients with peripheral arterial occlusive disease. It is thought to predispose to atherosclerosis by injuring the vascular endothelium. Treatment with pyridoxine and/or folic acid may lower plasma homocysteine levels. In mildly hyperhomocysteinaemic patients with peripheral arterial occlusive disease, we studied the effect of daily treatment with pyridoxine (250 mg) plus folic acid (5 mg) on homocysteine metabolism (i.e. plasma concentrations in the fasting state and after methionine loading, in 48 patients) and on endothelial function (in 18 patients). Endothelial function was estimated as the plasma concentrations of the endothelium-derived proteins, von Willebrand factor (vWF), thrombomodulin (TM), and tissue-type plasminogen activator (tPA). At baseline, fasting homocysteine levels were above normal in 24 of the 48 patients (50%); post-load levels, by definition, were above normal in 100% of patients. After 12 weeks of treatment, fasting and post-load levels were normal in 98 and 100% of patients, respectively. Endothelial function was assessed in 18 patients who completed 1 year of treatment. At baseline, median vWF (235%) and TM (57.1 ng mL-1) levels were above normal. At follow-up, vWF levels had decreased to 170% (P = 0.01) and TM levels had decreased to 49 ng mL-1 (P = 0.04). tPA levels were normal at baseline and did not change. Endothelial dysfunction is present in young patients with peripheral arterial occlusive disease and hyperhomocysteinaemia. Pyridoxine plus folic acid treatment normalizes homocysteine metabolism in virtually all patients, and appears to ameliorate endothelial dysfunction.
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PMID:Hyperhomocysteinaemia and endothelial dysfunction in young patients with peripheral arterial occlusive disease. 778 64

One feature that distinguishes all of the inhibitory members of the serpin gene family is the presence of a small uncharged residue at the P14 position of the reactive center loop. In this report we examine the effects of mutations at this position, in the serpin, plasminogen activator inhibitor type 1 (PAI-1). Replacement of the native P14 Thr-333 residue by an Arg (Thr-333-->Arg) resulted in complete loss of inhibitory activity toward tissue-type plasminogen activator and urokinase-type plasminogen activator. Comparison of the binding of the mutant inhibitor and wild type PAI-1 (WTPAI-1) to anhydrotrypsin indicated that the initial interaction of the two inhibitors with proteases was identical. However, whereas WTPAI-1 forms SDS-stable complexes with both plasminogen activators, the mutant PAI-1 was efficiently cleaved as a substrate. Amino-terminal sequence analysis indicated that cleavage of the mutant PAI-1 occurred at its reactive center P1-P1' Arg-Met bond. Thermal denaturation studies of native and cleaved PAIs indicated that native Thr-333-->Arg mutant had a thermal stability identical to active WTPAI-1 and that both proteins became significantly more stable following cleavage by elastase (cleaved at the P4-P3 bond). Finally, the function of recombinant PAI-1 variants containing 15 of the possible 19 amino acid substitutions at P14 were analyzed. While residue size appeared to have little effect on inhibitory activity, the presence of either a positive or a negative charge at P14, converted PAI-1 to a substrate. Taken together, these results suggest that while insertion of the reactive center loop is not essential for protease binding, it is a necessary second step required for inhibitor function. The presence of a charged residue at P14 can retard this insertion, resulting in conversion of the serpin to a substrate.
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PMID:Serpin reactive center loop mobility is required for inhibitor function but not for enzyme recognition. 796 84

When incubated at pH 7.3, 37 degrees C, human recombinant tissue plasminogen activator accumulated 0.77 mol of isoaspartate per mol of plasminogen activator over a 14-day period. Isoaspartate was detected by enzymatic transfer of 3H-labeled methyl groups from S-adenosyl-L-methionine in a reaction catalyzed by protein L-isoaspartyl methyltransferase. Analysis of tryptic peptides derived from aged plasminogen activator revealed that the two major sites of isoaspartate accumulation resulted from deamidation of Asn58 in the sequence -FNGG- and Asn177 in the sequence -GNSD-. Significant levels of isoaspartate also accumulated via deamidation of Asn37 in the sequence -CNSG-. All three sites occur in sequences predicted from studies with synthetic peptide to be unstable. All three sites appear to be on the surface of the protein, and all three occur in regions of the protein predicted to have higher than average chain mobility. These findings add support to the idea that sequence and flexibility play major roles in determining susceptibility to deamidation and peptide bond isomerization at Asn and Asp sites under mild conditions. These studies also illustrate the utility of enzymatic methylation for characterizing sites of deamidation in a large protein that contains numerous disulfide bonds and several sites of glycosylation.
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PMID:Deamidation and isoaspartate formation during in vitro aging of recombinant tissue plasminogen activator. 827 1

Platelet transfusion therapy became to be largely used in the last 20 years. This development was related to the progress of plastic bags and of blood cell separators. In parallel the platelet immunology has moved from serological techniques to molecular biology. The biochemical characterization of platelet antigen and the genetic basis of the polymorphism was discovered in the last years. The platelet RNA PCR amplification and specific oligonucleotide typing are now accessible to several laboratories. Five major human platelet antigen (HPA) systems are completely characterized. HPA-1 (PLA, Zw) localized on platelet glycoprotein GPIIIa correspond to a single amino acid substitution (leu<==> Pro 33). HPA-2 (Ko, Sib) present on GPIb is due to a Thre<==>Met substitution in 145. HPA-3 formerly Bak, Lek correspond to a polymorphism in 843 (Ile<==>ser) on GPIIb. HPA-4 (Pen, Yuk) as HPA1 is on GPIIIa but in a different location (Arg<==>Gln 143). HPA-5 (Br, He, Zav) and HPA-6 (Ca, Tu) are on GPIa and GPIIIa respectively. The major progress made in the field of platelet immunology has not yet been largely applied to the clinical situation of platelet transfusion. We can hope that it could help in the future to a better platelet-transfusion compatibility and consequently an improved clinical efficacy of platelet transfusion.
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PMID:Platelet alloantigens and transfusion. 833 18

The effects of native and acetylated low density lipoproteins (LDLs and acetyl-LDLs, respectively) on the release of plasminogen activator inhibitor type 1 (PAI-1) by cultured human umbilical vein endothelial cells (ECs) were evaluated. LDL and acetyl-LDL incubated with ECs for 16-18 hours increased the PAI-1 antigen levels in conditioned medium. At a concentration of 100 micrograms/mL, LDL and acetyl-LDL increased PAI-1 by 10.8 and 12.0 ng/mL, respectively (p < 0.05 and p < 0.01 versus control). The increases in PAI-1 antigen levels exerted by the lipoproteins paralleled the changes in PAI-1 activity. The effect of LDL and acetyl-LDL was concentration dependent and specific for PAI-1 because tissue-type plasminogen activator and expression of procoagulant activity were not affected by either lipoprotein. In addition, total protein synthesis evaluated in [35S] methionine-labeled ECs was not affected, and studies with cycloheximide showed that the effect of LDL and acetyl-LDL on PAI-1 release was due to de novo protein synthesis. Experiments using the C7 monoclonal antibody against the LDL receptor and binding-defective LDL indicated that the effect of LDL on the synthesis of PAI-1 was not dependent on the interaction of the LDLs with their specific receptors. Finally, extensive oxidation of LDL prevented and even reversed the effect of LDL on PAI-1 release by ECs. It is concluded that LDL specifically increases the synthesis of PAI-1 by ECs with mechanisms that are not receptor mediated.
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PMID:Increased synthesis of plasminogen activator inhibitor-1 by cultured human endothelial cells exposed to native and modified LDLs. An LDL receptor-independent phenomenon. 838 43

Hepatic parenchymal cells play an essential role in the clearance of circulating tissue-type plasminogen activator (t-PA) in vivo as a major pathway in the regulation of plasma fibrinolytic activity. Previous studies have identified plasminogen activator inhibitor type 1 (PAI-1)-dependent t-PA-binding sites in the human hepatoma cell line HepG2. In this study, we demonstrate that receptor-mediated binding and endocytosis of the t-PA-PAI-1 complex are largely mediated by a recently identified low density lipoprotein receptor-related protein (LRP). A 39-kDa LRP receptor-associated protein that modulates ligand binding to LRP was found to bind specifically to HepG2 cells and to inhibit approximately 70-80% of specific 125I-t-PA.PAI-1 binding. This inhibition by the 39-kDa protein was not due to inhibition of complex formation between 125I-t-PA and PAI-1; instead, the 39-kDa protein inhibited 125I-t-PA.PAI-1 binding to LRP. Polyclonal anti-LRP antibody raised against purified human LRP also inhibited 70-80% of specific 125I-t-PA.PAI-1 binding. A similar extent of inhibition by the 39-kDa protein was also observed for 125I-t-PA.PAI-1 endocytosis and degradation. Chemical cross-linking experiments demonstrated the direct interaction between 125I-t-PA.PAI-1 and LRP on HepG2 cells as anti-LRP antibody, in addition to anti-t-PA and anti-PAI-1 antibodies, was able to immunoprecipitate the 125I-t-PA.PAI-1 complex following binding of 125I-t-PA.PAI-1 to HepG2 cells and cross-linking. This interaction of the t-PA.PAI-1 complex with LRP on HepG2 cells was also observed when the unlabeled t-PA.PAI-1 complex was cross-linked to [35S]methionine-labeled HepG2 cells. In addition, the direct binding of the 39-kDa protein to LRP on HepG2 cells was demonstrated by similar cross-linking experiments. Thus, these data clearly show that LRP is the major cell-surface receptor responsible for t-PA.PAI-1 complex binding and endocytosis on human hepatoma HepG2 cells and extend the multifunctional nature of LRP as an endocytosis receptor for several structurally and functionally distinct ligands.
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PMID:Receptor-mediated endocytosis of tissue-type plasminogen activator by low density lipoprotein receptor-related protein on human hepatoma HepG2 cells. 838 67


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