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 presence and localization of the plasmin system components urokinase (UPA), tissue type plasminogen activator (TPA), plasminogen (PG), a neoantigen expressed by the plasmin-alpha 2-antiplasmin complex, and plasmin inhibitors alpha 2-antiplasmin (AP) and alpha 2-macroglobulin (MG) have been tested by immunofluorescence on sections of 11 benign and 40 malignant lesions of the breast in an attempt to apply a morphological approach to the problem of tumor invasion in vivo. In benign lesions, TPA was seen in secretions of mammary glands and MG was seen in edematous zones. In one involuting lactating adenoma, UPA, TPA, PG, PAP, and AP were associated with glandular cells. UPA was detected in 11 carcinomas, TPA in 22, PG in 31, PAP in 12, AP in 23, and MG in all 40. All these components were essentially present in invasive territories, with a cellular labeling for UPA and TPA and a fluorescent staining frequently at the periphery of tumoral foci for PG and PAP. AP was more closely associated with cancer cells than MG, which was present in the stroma. Intraductal proliferations were rarely positive and there was no correlation between the localization of PG and the distribution of a basement membrane glycoprotein laminin. These data argue strongly for the involvement of the plasmin system in the infiltrating process of the stroma. This system seems to play a limited role in the breakdown of basement membrane in breast carcinomas in vivo.
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PMID:Detection of the plasmin system in human mammary pathology using immunofluorescence. 242 83

The secretory glycoproteins synthesized by hepatoma tissue culture (HTC) cells were resolved by two-dimensional polyacrylamide gel electrophoresis of media from cells that were grown in the presence of [(3)H]fucose. These cells synthesize and secrete a complex set of fucose-containing glycoproteins. These secretory glycoproteins are distinct from those glycoproteins present in the plasma membrane of HTC cells. Incubation of HTC cells with dexamethasone has a pronounced effect on the quality and quantity (denoted here as the program) of secretory protein synthesis, as assayed by the short-term incorporation of labeled mannose, fucose, or methionine. The synthesis of two mannose- and fucose- containing glycoprotein series, one of 50,000 mol wt and a more heterogeneous series with mol wt of 35,000-50,000, is increased to a high level by the hormone; conversely, the synthesis of other secretory proteins, particularly one with mol wt of 70,000, is decreased or stopped completely. The synthesis of some major secretory proteins is not affected by the hormone. Dexamethasone has less of an effect on the composition of either total cell membrane glycoprotein or plasma membrane glycoprotein. But there is a decrease in the synthesis of a major membrane glycoprotein series with mol wt of 140,000. These effects of dexamethasone are relatively specific to HTC cells. Neither Reuber H-35 cells nor primary cultures of rat hepatocytes show the same response to the steroid. Two variant HTC cell lines, which were selected for their resistance to dexamethasone inhibition of extracellular plasminogen activator activity, respond only partially to the steroid-induced regulation of the secretory and membrane glycoproteins.
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PMID:Dexamethasone regulates the program of secretory glycoprotein synthesis in hepatoma tissue culture cells. 624 97

Post-transfusion purpura (PTP) and neonatal alloimmune thrombocytopenia (NAT) result from formation of alloantibodies to platelet membrane glycoprotein-associated antigens. The detection and identification of platelet-specific alloantibodies in patient sera is often complicated by the presence of co-existing HLA antibodies and/or more than one platelet specificity in the same serum. We describe a solid phase assay that specifically detects antibodies to platelet membrane associated alloantigens by measuring the ability of patient antisera to inhibit the binding of glycoprotein GPIIb or GPIIIa monoclonal antibodies to intact platelets. When tested in the GPIIIa assay against a panel of random platelet donors, the reactivities of two known PLAI antisera that also contained different HLA antibodies were highly correlated (r = 0.99) and allowed PLA phenotyping of the population. A standard direct binding platelet ELISA, on the other hand, was unable to accurately PLA phenotype the same population. The reactivities of two known Baka antisera (one containing additional anti-PLA2 and the other anti-Brb specificities) were highly correlated (r = 0.95) in the GPIIb assay, and Bak phenotype determination was similarly accomplished for a random platelet panel. Furthermore, a comparison of platelet phenotype results (using the monoclonal inhibition assay) and genotype results (using DNA analysis) for the PLA and Bak systems showed a concordance of 98% for 146 alleles tested. In conclusion, the platelet monoclonal antibody inhibition assay: (1) allows determination of platelet-specific alloantibodies in the presence of contaminating HLA antibodies and/or in sera containing multiple platelet alloantibodies; (2) allows accurate platelet phenotyping for the GPIIIa-associated PLA and GPIIb-associated Bak antigen systems; and (3) may be applicable to the detection of other known or even novel platelet glycoprotein-associated antigens.
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PMID:A platelet monoclonal antibody inhibition assay for detection of glycoprotein IIb/IIIa-related platelet alloantibodies. 765 19

The inhibitory effect of a novel orally active platelet membrane glycoprotein receptor complex IIb/IIIa (GP IIb/IIIa) inhibitor, SC-54684A is studied on intimal thickening in the guinea pig femoral artery. A segment of the femoral artery was occluded by a platelet-rich thrombus induced by photochemical reaction between systemically administered Rose Bengal and transluminal green light which causes endothelial injury followed by platelet adhesion and aggregation at the site of photochemical reaction. Three weeks after successful thrombolysis by tissue-type plasminogen activator, intimal thickening occurred at the irradiated site. SC-54684A (30 mg/kg), administered 2 h before photochemical reaction, significantly (P < 0.05) prolonged the time to occlusion of the femoral artery; in this respect aspirin (100 mg/kg) was ineffective. A combination of SC-54684A and recombinant tissue-type plasminogen activator (rt-PA) increased the frequency of reopening and significantly (P < 0.05) prolonged the duration of reflow compared with rt-PA alone. Further, SC-54684A administered orally twice a day for 3 weeks significantly (P < 0.05) inhibited intimal thickening but aspirin, administered orally once a day for 3 weeks, was ineffective. Scanning electron microscopy revealed extensive platelet adhesion and aggregation on the denuded vessel walls in the untreated group 24 h after successful thrombolysis. In separate experiments, SC-54684A markedly inhibited platelet aggregation ex-vivo. Inhibition of platelet adhesion and aggregation at the site of endothelial injury by SC-54684A (via GPIIb/IIIa inhibition) may account for its inhibitory effect on intimal thickening.
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PMID:Inhibitory effect of a novel orally active GP IIb/IIIa inhibitor, SC-54684A on intimal thickening in the guinea pig femoral artery. 895 Jul 93

Blood loss during and after open-heart surgery with cardiopulmonary bypass (CPB) is largely caused by platelet dysfunction. Previous studies indicate that plasmin can induce platelet dysfunction and affect primary hemostasis by proteolytic degradation and/or redistribution of essential platelet membrane glycoprotein complexes such as the glycoprotein Ib/IX complex. In this study, we present a model for plasmin generation localized on the platelet surface. Platelets treated with soluble fibrin or platelets in a mixture with soluble fibrin, t-PA, and plasminogen caused a significantly increased plasmin generation (p<0.01), dependent on t-PA, soluble fibrin, and platelet concentration. The plasmin generation resulted in a downregulation of platelet membrane glycoprotein Ib/IX glycoprotein complexes. Finally, we demonstrated that inhibitors of fibrinolysis, such as %2-antiplasmin, tranexamic acid, and aprotinin, can inhibit plasmin activity in the fluid phase. The downregulation of platelet glycoprotein Ib/IX complexes, however, was only prevented by aprotinin and not by alpha2-antiplasmin and tranexamic acid. These in vitro observations suggest a platelet localized activation of plasminogen, dependent on t-PA, enhanced by the presence of soluble fibrin. Since high concentrations of soluble fibrin and elevated levels of t-PA during CPB are observed, plasmin activity on the platelet surface during this period is anticipated. This plasmin activity reduces platelet metabolic functions and can be directed towards membrane glycoproteins such as glycoprotein Ib/IX complexes, thereby affecting hemostasis during and after CPB.
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PMID:Platelets and soluble fibrin promote plasminogen activation causing downregulation of platelet glycoprotein Ib/IX complexes: protection by aprotinin. 984 26

Thrombomodulin, an endothelial membrane glycoprotein, is an essential part of the protein C anti-coagulant pathway. It may also have a role in the regulation of fibrinolysis. We carried out a cross-sectional study to assess the association of soluble thrombomodulin (sTM) with peripheral artery disease (PAD) in a stratified random sample (n=863) of otherwise healthy black and white participants of the Atherosclerosis Risk in Communities (ARIC) Study. PAD was more common in black than in white participants and associated with classical risk factors in an expected manner; positively with age, smoking, hypertension, diabetes (P=0.05), and LDL-cholesterol, and inversely with HDL-cholesterol. Significant positive associations were observed also with fibrinogen and white blood cell count. Overall, the sTM concentration was not a significant predictor of PAD. The association was, however, modified by the level of factor VIII:C in whites (P=0.002 for the interaction), but not in blacks. Protein C was inversely associated with PAD prevalence (odds ratio 0.33, 95% CI 0.18--0.61, P=0.0004). sTM was inversely associated with plasminogen, but no associations with t-PA, PAI-1, or D-dimer were seen. In conclusion, the present results provide some additional evidence on the role of thrombomodulin-protein C pathway in atherosclerotic disease and support our earlier observation on interaction between sTM and factor VIII:C.
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PMID:Cross-sectional association of soluble thrombomodulin with mild peripheral artery disease; the ARIC study. Atherosclerosis Risk in Communities. 1147 30

The placenta is a highly vascularized organ functioning as the interface between fetal blood, which is confined within the villous blood vessels, and maternal blood, which flows in decidual arteries and washes the intervillous spaces in contact with syncytiotrophoblast (STB) cells. The STB adopts vascular characteristics such as the presence of von Willebrand factor (vWF), CD31 markers, adhesion molecules, and coagulation components. The special structure of the placenta requires efficient mechanisms for fast activation and localized regulation of coagulation. The presence of procoagulant and anticoagulant components on placental vascular endothelial cells (EC) and STB is essential for hemostasis. Activation of coagulation may be a favored process, as suggested by elevated fibrin depositions documented in some pathologic states. Increased localized procoagulant components such as tissue factor (TF) and plasminogen activator inhibitors (PAI-1, PAI-2), are associated with some pregnancy complications. Several anticoagulants regulate placental coagulation: tissue factor pathway inhibitor (TFPI) is primarily produced in EC; TFPI-2, a variant of TFPI, has been purified from the placenta and was identified in the STB lining the villi; thrombomodulin, a membrane glycoprotein that activates protein C, is localized in EC and apical membranes of STB; annexin V, an anticoagulant that binds to negative membrane phospholipids, is abundant on normal placental STB, whereas reduced STB annexin V was associated with the presence of antiphospholipid antibodies. The placenta is a putative source of coagulation components. However, the interplay between local procoagulant and anticoagulant mechanisms and their association with pregnancy complications need to be assessed.
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PMID:Procoagulant and anticoagulant mechanisms in human placenta. 1270 21

A novel fish protein having anticoagulant and antiplatelet properties was enzymatically extracted from the marine fish, yellowfin sole (Limanda aspera) and purified to homogeneity producing an overall purification fold of 206.6. MALDI-TOF mass spectroscopic and SDS-PAGE analysis identified the purified protein as 12.01 kDa single-chain monomeric protein. It inhibited the activated coagulation factor XII (FXIIa) by forming an inactive complex regardless of Zn2+ mediation, and was named, yellowfin sole anticoagulant protein (YAP). In addition, YAP act to antagonize platelet membrane glycoprotein integrin, to arrest platelet aggregation. However, YAP was not able to block the adhesion of platelets to collagen, which mediate via major collagen receptors, GPIa/IIa on platelet membrane. Furthermore, YAP did not possess plasminogen activator-like activity to activate fibrinolysis. In fact, our findings indicate that YAP binds with FXIIa and platelet membrane integrins to inhibit thrombosis in vitro.
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PMID:A novel anticoagulant purified from fish protein hydrolysate inhibits factor XIIa and platelet aggregation. 1576 84

Membrane lipid fluidity (MLF) is thought to play a crucial role in signal transduction and is believed to affect the responsiveness of blood platelets. In a recent study it was demonstrated that EDTA, used as the blood anticoagulant, brought about a significant increase in expression of GMP-140 antigen, and this effect was accompanied by a significant increase in platelet MLF. Moreover, this spontaneous EDTA-driven platelet activation was vastly attenuated in the presence of tissue-type plasminogen activator, which is also known to affect platelet MLF. The hypothesis was raised that the modulation of platelet membrane fluidity by EDTA might underlie platelet spontaneous activation in the presence of EDTA. To further explore the possible molecular mechanism(s) of the EDTA-dependent triggering of signal transduction pathway(s) in human blood platelets, we monitored the extent of spontaneous platelet activation in the presence of EDTA and selected platelet membrane 'fluidizers' and 'rigidizers'. A reduction in the EDTA-dependent platelet release and activation was noted, not only in the presence of rt-PA (by over 50%, P < 0.001), which acted as a rigidizer of platelet membrane fluidity (ESR h+1/h0 ratios of 5-DOXYL-Ste and 12-DOXYL-Ste decreased by 6.2%, P<< 0.0001, and 3.8%, P < 0.02, respectively), but also in the presence of other modulators of MLF, regardless of their fluidizing or rigidizing effects. Both rigidizers (procaine and lidocaine, 5-DOXYL-Ste h+1/h0 reduced by up to 6.5%, 12-DOXYL-Ste h+1/h0- by up to 4.5%, P < 0.02 or less) and fluidizers (benzyl alcohol, ethanol, 12-DOXYL-Ste h+1/h0 increased by 17.8% and 6.1%, respectively, P <<0.0001) of platelet membranes significantly depressed platelet activation (respectively, down to 1.1%, 7.7%, 6.7% and 8.5% vs control EDTA 22.9% of CD62-positive platelets). We suggest that EDTA induces alterations in membrane glycoprotein structure and affect MLF by altering lipid-protein interactions, and thus triggers signal transduction in the course of platelet activation. The resulting displacements in platelet membrane proteins, dislocation of membrane components and/or distortion of lipid-protein interactions could generate an 'outside-in' signalling that is mediated by the altered platelet MLF. Overall, it is likely that interference with the structure and conformation of selected domains of platelet membrane proteins might be the crucial mechanism by which EDTA leads to exaggerated activation of platelets in whole blood.
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PMID:Membrane lipid fluidity of blood platelets: a common denominator that underlies the opposing actions of various agents that affect platelet activation in whole blood. 1679 56