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)

A hitherto unknown synergism exerted by retinol (vitamin A) and L-ascorbic acid (vitamin C) was discovered using endothelial cells. Retinol stimulated the extracellular and intracellular activities of plasminogen activator up to approximately 8- and 4-fold from the control values, respectively. L-Ascorbic acid enhanced the extracellular and intracellular activities up to approximately 1.5-fold. Above all it was demonstrated that their effects on extracellular activity were synergistic; simultaneous administration of these two vitamins enhanced the extracellular activity up to a 20- to 50-fold. Synthesis of plasminogen activator induced with vitamins A and C was inhibited by a protein synthesis inhibitor, cycloheximide.
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PMID:Synergism of vitamins A and C on fibrinolysis. 404 Jul 50

The objective was to study the effects of gamma irradiation, in the presence of sodium ascorbate, on coagulation/fibrinolytic activity of fresh frozen plasma to be applied to inactivate the transfusion-transmitted viruses in plasma-derived products. Plasma was irradiated (50 kGy total dose, on dry ice) using a 60Co source. The plasma proteins were analysed by sodium dodecyl sulphate-polyacrylamide gel electrophoresis and western blot and the following parameters estimated: prothrombin time, functional fibrinogen concentration, thrombin-induced fibrinogen polymerization, plasminogen activity, and tissue-type plasminogen activator-induced conversion of plasminogen to plasmin. In irradiated plasma a moderate fragmentation of the most labile plasma proteins was found. The prothrombin time was prolonged (1.5-fold), functional fibrinogen was significantly reduced (60%), fibrinogen polymerization was impaired, plasminogen was predominantly maintained (90%) and tissue-type plasminogen activator-induced conversion of plasminogen to plasmin was unchanged. Ascorbate (25 mmol/l) raised the level of functional fibrinogen in irradiated plasma (to 50%; P=0.0245) and slightly accelerated its polymerization. The small protective effect of ascorbate might be due to inhibition of the radiation-induced fibrinogen oxidation and/or fragmentation but addition of other antioxidants/stabilizers would be crucial when a high irradiation dose, an effective treatment for inactivation of the most resistant viruses, is applied.
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PMID:Haemostatic properties of human plasma subjected to a sterilizing dose of gamma irradiation in the presence of ascorbate. 1741 65

We have earlier reported that the redox-active antioxidant, vitamin C (ascorbic acid), activates the lipid signaling enzyme, phospholipase D (PLD), at pharmacological doses (mM) in the bovine lung microvascular endothelial cells (BLMVECs). However, the activation of phospholipase A(2) (PLA(2)), another signaling phospholipase, and the modulation of PLD activation by PLA(2) in the ECs treated with vitamin C at pharmacological doses have not been reported to date. Therefore, this study aimed at the regulation of PLD activation by PLA(2) in the cultured BLMVECs exposed to vitamin C at pharmacological concentrations. The results revealed that vitamin C (3-10 mM) significantly activated PLA(2) starting at 30 min; however, the activation of PLD resulted only at 120 min of treatment of cells under identical conditions. Further studies were conducted utilizing specific pharmacological agents to understand the mechanism(s) of activation of PLA(2) and PLD in BLMVECs treated with vitamin C (5 mM) for 120 min. Antioxidants, calcium chelators, iron chelators, and PLA(2) inhibitors offered attenuation of the vitamin C-induced activation of both PLA(2) and PLD in the cells. Vitamin C was also observed to significantly induce the formation and release of the cyclooxygenase (COX)- and lipoxygenase (LOX)-catalyzed arachidonic acid (AA) metabolites and to activate the AA LOX in BLMVECs. The inhibitors of PLA(2), COX, and LOX were observed to effectively and significantly attenuate the vitamin C-induced PLD activation in BLMVECs. For the first time, the results of the present study revealed that the vitamin C-induced activation of PLD in vascular ECs was regulated by the upstream activation of PLA(2), COX, and LOX through the formation of AA metabolites involving oxidative stress, calcium, and iron.
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PMID:Redox-active antioxidant modulation of lipid signaling in vascular endothelial cells: vitamin C induces activation of phospholipase D through phospholipase A2, lipoxygenase, and cyclooxygenase. 1849 33

Porosity and semipermeability, allowing life-sustaining small molecules to penetrate, but hemoglobin (Hb) and other enzymes to cut off, predominantly affect the functionalities of the Hb-loaded polymeric nanoparticles (HbPNPs) as blood substitutes. In this article, HbPNPs formulated in the size range of 110-122 nm were prepared by a modified double-emulsion method with poly(lactic acid) (PLA)-based polymers. The influences of the main preparation conditions, including solvent composition, stirring speed, Hb concentration and polymer matrix, on the porosity were investigated in details. To evaluate the porosity of HbPNPs, a novel nondestructive testing method based on molecular weight cut-off (MWCO) was developed, and an effusion approach was applied to investigate the pore size in the particle shells with poly(ethylene glycol)s (PEGs) of different molecular weights (PEG200, PEG400, PEG600) as probes. Moreover, in vitro diffusion behaviors of ascorbic acid and reduced glutathione from HbPNPs fabricated with various polymer matrices were studied. The MWCO of HbPNPs by changing solvent composition, stirring speed, Hb concentration, and polymer composition varied from 200 to 600, especially the PEGylation of the polymer, which exhibited obvious influence on the MWCO of HbPNPs. Ascorbic acid with molecular weight 176.1 could diffuse into PEGylated nanoparticles with mPEG content of 5-30 wt % freely, while reduced glutathione with molecular weight 307.3 could not penetrate when mPEG content reached 30 wt %. These results suggest that the HbPNPs optimized with MWCO between 400 and 600 can facilitate the transport of all those life-sustaining small molecules.
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PMID:Porosity and semipermeability of hemoglobin-loaded polymeric nanoparticles as potential blood substitutes. 1958 59