UNIPROT:P00750 - FACTA Search

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)

16 coagulant and 7 fibrinolytic parameters were determined in 121 normal subjects and 456 patients with various types of viral hepatitis. The results showed that plasma concentration of F VIII: c, vWF: Ag and vWF: Ag/VIII: c (P less than 0.01) were much higher than those in the controls. Plasma level of other coagulant factors was progressively reduced when the severity of hepatitis was decreased. The changes of fibrinolytic activity suggest that t-PA, PL and FDP were increased, while PAI, PLG, and alpha-PI were decreased. The results of this study may provide an experimental basis for further study of hemorrhage mechanism and prognosis in patients with viral hepatitis.
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PMID:[Changes in plasma coagulant factors and plasma fibrinolytic activity in patients with viral hepatitis]. 166 71

Endothelial cells play a critical role in thromboregulation by virtue of a surface-connected fibrinolytic system. Cultured endothelial cells synthesize and secrete tissue-type plasminogen activator (t-PA) which can bind to at least two discrete sites on the cell surface. These binding sites preserve the catalytic activity of t-PA and protect it from its physiological inhibitor (PAI-1). N-terminal glutamic acid plasminogen (Glu-PLG), the main circulating fibrinolytic zymogen, also interacts specifically with the endothelial cell surface. Binding is associated with a 12-fold increase in catalytic efficiency of plasmin generation by t-PA which may reflect conversion of Glu-PLG to its plasmin-modified form, N-terminal lysine plasminogen (Lys-PLG). Lipoprotein(a) is an atherogenic lipoprotein particle which contains the plasminogen-like apolipoprotein(a) bound to low density lipoprotein. We report here that lipoprotein(a) interferes with endothelial cell fibrinolysis by inhibiting plasminogen binding and hence plasmin generation. In addition, we demonstrate lipoprotein(a) accumulation in atherosclerotic lesions. These findings may provide a link between impaired cell surface fibrinolysis and progressive atherosclerosis.
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PMID:Lipoprotein(a) modulation of endothelial cell surface fibrinolysis and its potential role in atherosclerosis. 252 66

Positively charged molecules such as protamine, leukocyte cationic protein, and the carboxyl terminus of platelet factor 4 have been shown to increase fibrin fiber thickness. Synthetic homo poly(L-amino acids) were used to explore the role of charge and molecular weight of cationic molecules on fibrin assembly. The effects of poly(L-lysine) (PLL), poly(L-glutamic acid) (PLG), poly(L-aspartic acid) (PLA), poly(L-histidine) (PLH), and poly(L-arginine) (PLArg) on the assembly and structure of fibrin gels were studied by using light-scattering techniques. At a PLG (Mr 60,000) concentration of 80 micrograms/mL and a PLA (Mr 20,000) concentration of 64 microgram/mL, neither of these negatively charged polymers produced a detectable change in either fibrin assembly kinetics or final structure. Positively charged PLArg (16 micrograms/mL) caused a 30% increase in fibrin fiber mass/length ratio without calcium. In contrast, PLH (16 micrograms/mL), also positively charged, had no effect in the absence of CaCl2 but produced a 40% increase in fiber mass/length ratio with 5 mM CaCl2. At concentrations as low as 1 microgram/mL, positively charged PLL increased the initial fibrin assembly kinetics and led to larger fiber mass/length ratio. The impact on fibrin mass/length ratio was equivalent for three different molecular weight preparations of PLL (Mr 25,000, 90,000, and 240,000). The lack of a molecular weight effect on fiber thickness and the low polymer concentrations required to produce the perturbation argue against an excluded volume effect as the mechanism by which lateral fiber growth is augmented. Mechanisms by which poly(L-amino acids) may perturb fibrin assembly are discussed.
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PMID:Effect of homo poly(L-amino acids) on fibrin assembly: role of charge and molecular weight. 271 71

Through assembly of plasminogen and its activators, the endothelial cell surface may provide a favorable environment for constitutive generation of plasmin. This system may be regulated at multiple levels. Abundant expression of a 40-kDa protein with dual ligand-binding capacity may promote cell surface plasmin formation by colocalizing t-PA and plasminogen in a catalytically favorable configuration. Conversion of Glu-PLG to the preactivated form Lys-PLG, in the vicinity of the cell surface, may also precede plasmin formation. Physiologic concentrations of Lp(a), furthermore, may serve to modulate plasminogen activation at the cell surface by competing for binding sites, whereas elevated levels of Lp(a) might suppress this mechanism and lead to a subclinical prothrombotic state. Finally, cell surface binding sites for both plasmin and t-PA appear to protect these molecules from their physiologic antagonists, alpha 2-plasmin inhibitor and plasminogen activator inhibitor, type-1, respectively. Plasmin formation may contribute to the nonthrombogenicity of the blood vessel wall.
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PMID:Plasminogen and plasminogen activator assembly on the human endothelial cell. 843 79

Poly-(lactide-co-glycolide) microspheres with entrapped antigen have shown considerable promise as controlled release vaccines. To enhance the immunomodulatory effect of LW 50020, a bacterial lysate of seven common respiratory pathogens used perorally as an immunomodulator, we prepared poly-(D,L-lactide-co-glycolide) (PLG) and poly-(L-lactic acid) (PLA) microspheres with entrapped immunomodulator by solvent evaporation or solvent extraction double emulsion techniques. Physical properties, such as particle size, LW 50020 entrapment rate, antigen release patterns and morphological characteristics were investigated. All preparations displayed a high degree of antigen loading up to 95%, whereas size, surface morphology and antigen release patterns were significantly influenced by the method of preparation and the polymer components used. Solvent evaporation microspheres are porous particles from 0.8 micron to 2.0 microns in diameter, that show a rapid antigen release for PLG, and a moderate antigen release for PLA microspheres within 33 days. Solvent extraction microspheres have proven to be particles from 1.1 microns to 5.0 microns in diameter showing a smooth surface and a medium antigen release rate over 33 days. SDS-PAGE and immunoblotting of extracted antigen confirmed that the molecular weight and antigenicity of the immunomodulator remained unaltered by the entrapment procedure.
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PMID:Preparation and characterization of poly-(D,L-lactide-co-glycolide) and poly-(L-lactic acid) microspheres with entrapped pneumotropic bacterial antigens. 869 19

Intranasal (i.n.) immunization with ricin toxoid (RT) vaccine encapsulated in poly (lactide-co-glycolide) microspheres (RT-PLG-Ms) and poly (L-lactide) microspheres (RT-PLA-Ms) stimulated systemic and mucosal immune responses and protected mice from aerosolized ricin intoxication. High titers of anti-ricin IgG2a were stimulated in the serum of mice with one or two doses of RT-Ms 6 weeks postimmunization. However, in the lungs, no IgG2a or total IgG was elicited either with RT-Ms or with aqueous RT. At 6 weeks postimmunization, a single dose of the RT-Ms stimulated secretory IgA (sIgA) in the lungs of four of six mice, but a second immunizing dose did not enhance the stimulation. A single dose of aqueous RT vaccine failed to stimulate sIgA in the lungs, while, a second dose induced sIgA in 50% of the mice. One or two i.n. doses of RT-Ms protected most of the mice against lethal aerosol-delivered ricin toxin 6 weeks postimmunization. In contrast, protection was absent or marginal after one or two doses of aqueous RT vaccine. In both studies, the protection against lethal aerosol challenge was significantly better with one dose of RT-Ms than with two doses of aqueous vaccine, which may be attributed to the induction of sIgA in the lungs and the serum. Duration of the IgG2a and IgA in the serum, particularly that of IgG2a was much longer after the administration of RT-Ms than after the aqueous vaccine. The geometric mean IgG2a titers stimulated with two doses of RT-Ms remained high during 40 weeks postimmunization and were up to 25 times higher than the titers induced with aqueous RT vaccine. After 6 weeks, the IgG2a induced by two doses of aqueous vaccine was no longer detectable. Persistence of antibody response was predictive of efficacy. At 1 year postimmunization with two doses of RT-Ms, 100% of mice were protected against lethal ricin challenge. However, at the same time no protection was afforded by two doses of aqueous RT. The results of the present study consistently demonstrated the advantages of microencapsulated RT vaccine to stimulate effective and long-lasting protection by i.n. administration.
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PMID:Intranasal stimulation of long-lasting immunity against aerosol ricin challenge with ricin toxoid vaccine encapsulated in polymeric microspheres. 887 98

This paper describes the production and characterization of biodegradable microparticles containing tetracycline, designed for periodontal disease therapy. The influence of production parameters on microparticle characteristics and antibiotic release modality was studied. Microparticles were made by using different preparation procedures and different polyesters, namely poly(L-lactide), [L-PLA] poly(DL-lactide), [DL-PLA] and poly(DL-lactide-co-glycolide) 50:50, [DL-PLG]. A double emulsion preparation method together with a concentrated salt solution as external phase gave the best results in terms of tetracycline incorporation efficacy. In vitro release experiments demonstrated that tetracycline is slowly and appropriately released from microparticles. Release kinetics were found to be influenced by the type of polymer utilized for microparticle production. In vitro experiments, simulating in vivo conditions were carried out for up to 30 days. Only DL-PLG microparticles showed significant changes in their morphology, whereas L-PLA and DL-PLA were found almost intact after the same period of time.
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PMID:Biodegradable microparticles for sustained delivery of tetracycline to the periodontal pocket: formulatory and drug release studies. 913 69

Encouraged by recent findings showing the usefulness of nonreplicating antigen delivery systems in the induction ofmucosal immune responses, we investigated microspheres as a means to deliver LW 50020, an immunomodulator consisting of lysates of seven common respiratory pathogens. BALB/c mice were orally immunized with LW 50020 encapsulated into poly-(D,L-lactide-co-glycolide) (PLG) and poly-(L-lactic acid) (PLA) microspheres prepared by either a solvent-evaporation or a solvent-extraction double-emulsion technique. Particle uptake into intestinal Peyer's patches, induction of antibodies in sera and secretion of immunoglobulins by isolated Peyer's patches, lungs and spleen lymphocytes were investigated. Our results revealed size and surface characteristic-dependent uptake of microspheres into Peyer's patches. Microsphere translocation into Peyer's patches was efficient for 0.8-microm microspheres, but poor for 2.0-microm and surface-modified microspheres. We showed an enhanced immune response in the lungs and sera following oral immunization with 0.8-microm PLG solvent-evaporation microspheres. The immunomodulation was statistically significant as compared to free LW 50020. In contrast, oral immunization with other preparations caused reduced or absent modulation of the immune response compared to 0.8-microm microspheres and free antigen. These findings indicate that microspheres displaying small particle sizes, rapid antigen release and high antigen content provide optimal tools to deliver orally applied antigens.
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PMID:Oral immunization with poly-(D,L-lactide-co-glycolide) and poly-(L-lactic acid) microspheres containing pneumotropic bacterial antigens. 925 May 88

An investigation was made for the significance of changes of coagulation and fibronolytic system in intensive infection with multiple system organ failure (MSOF). In 68 cases with various degrees of infection, hematological examinations, including estimation of PT, APTT, Fg, Fn and D-Dimer, activation of coagulation factor II, VII, X, XII (F II, F VII, F X, F XII), AT-III, PLG, alpha(2)-AP, t-PA and count of platelets were carried out. The results were as follows: In intensive infection with MSOF, PT and APTT increased significantly; activity of F II, F VII, F X and F XII decreased significantly platelet count and Fn decreased markedly; concentration of Fg and D-Dimer increased significantly; activity of PAI increased markedly; activity of t-PA and alpha(2)-AP decreased slightly. The incidence of MSOF not combined with DIC was 38.5%, but that combined with DIC was 79.7% (P < 0.01). It is suggested that DIC is the most important factor in the disorder of coagulation and fibrinolytic system. It play an important role in the pathogenesis and development of MSOF.
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PMID:[An investigation on the changes of coagulation and fibrinolytic system in intensive infection with multiple organs failure]. 959 27

Lamellar particles and microspheres were produced by precipitation from solutions of resorbable, biocompatible, semi-crystalline poly(L-lactide)[PLA] and amorphous poly(DL lactide co-glycolide)[PLG] copolymer, respectively, to investigate their adjuvanticity towards adsorbed influenza virus. Both types of substrate were capable of adsorbing large quantities of virus (> 15% w/w) and retaining virus (> 60% of the initial load) over an 8 week time scale in-vitro. Potent immune responses were obtained in mice after the intra-muscular injection of adsorbed vaccine systems. The response to virus adsorbed on PLA lamellar particles was almost five times that obtained using PLG microspheres and fourteen times that using aqueous vaccine. The lamellar forms of PLA may function as an immunomodulator enhancing phagocytic activity due to their irregular shape and may be useful in improving the immune response to a variety of protein and viral antigens.
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PMID:Resorbable lamellar particles of polylactide as adjuvants for influenza virus vaccines. 969 6

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