Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The importance of cell-associated plasminogen activation in the extracellular matrix degradation processes is becoming increasingly evident. To elucidate the modulators of net plasminogen activation on the cell surface, we have recently established an assay system. Using this system, we examined the effects of several candidate modulators on cell surface plasminogen activator in the human fibrosarcoma cell line HT-1080 and the SV40-transformed human lung fibroblast cell line WI-38 VA 13 2RA. Although the majority of the candidates had no effect or a selective effect on either cell line, only retinoic acid markedly enhanced cell surface plasminogen activator activity in both HT-1080 and WI-38 VA13 2RA cells in a time-dependent manner. The effect of retinoic acid was neutralized by actinomycin D. The enhanced activity was inhibited by anti-uPA IgG and by pretreatment with phosphatidylinositol-specific phospholipase C. These findings suggest that retinoic acid increases the amount of receptor-bound uPA via de novo synthesis, and that it plays an important role in modulating cell-associated plasminogen activation.
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PMID:Retinoic acid enhances plasminogen activation on the cell surface. 857 37

We previously found that the binding of pemphigus IgG to desmogleins caused marked activation of phospholipase C, a transient increase in inositol 1,4,5-trisphosphate production, and a concomitant increase in the intracellular calcium concentration in DJM-1 cells, a squamous cell carcinoma line. The binding of pemphigus IgG to cell membranes increased the activity of urokinase plasminogen activator in culture medium and induced subsequent cell-cell detachment in DJM-1 cells. Because urokinase plasminogen activator activates the conversion of plasminogen to plasmin by binding to urokinase plasminogen activator receptor evading inhibitors in serum, it is likely that plasmin is generated only in microenvironments adjacent to urokinase plasminogen activator receptor on the cell surface. It is not known whether pemphigus IgG causes acantholysis by inducing urokinase plasminogen activator receptor expression on the cell surface and secreting urokinase plasminogen activator in inhibitor-rich environments. We examined the effects of pemphigus IgG on urokinase plasminogen activator receptor expression in DJM-1 cells and normal keratinocytes by immunoblot analysis and immunofluorescence microscopy using antibodies to urokinase plasminogen activator receptor. IgG were obtained from serum samples from eight patients with bullous pemphigoid, five patients with pemphigus vulgaris, seven patients with pemphigus foliaceus, and eight normal subjects. Pemphigus vulgaris and pemphigus foliaceus IgG significantly increased the urokinase plasminogen activator receptor expression on the surface of DJM-1 cells and normal keratinocytes after 3- and 7-d incubation compared with normal IgG. These results suggest that enhanced urokinase plasminogen activator activity and urokinase plasminogen activator receptor expression activates plasmin in the limited cell surface of pemphigus IgG-bound keratinocytes and may contribute to the pathogenesis of differential acantholysis in pemphigus vulgaris and pemphigus foliaceus.
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PMID:Pemphigus IgG induces expression of urokinase plasminogen activator receptor on the cell surface of cultured keratinocytes. 934 94

Thrombin formation is increased at the sites of vascular injury. Previous studies by our group and other groups indicated that the generation of plasminogen activator inhibitor-1 (PAI-1), the major physiological inhibitor for plasminogen activators, from cultured vascular smooth muscle cells (SMC) is elicited by thrombin. The present study demonstrates that the thrombin receptor, pertussis toxin-sensitive G protein, genistein-sensitive tyrosine kinase, phospholipase C, and protein kinase C may be involved in thrombin-induced PAI-1 production in cultured baboon aortic SMC. Forskolin and 8-bromo-cyclic AMP inhibited thrombin-induced PAI-1 production in cultured SMC. Treatment with hirulog-1, a synthetic thrombin receptor inhibitor, suppressed thrombin-induced PAI-1 generation at mRNA and protein levels in SMC. The results of the present study suggest that transmembrane receptor and multiple signal transduction systems are involved in thrombin-induced increase in PAI-1 transcription in vascular SMC. The production of PAI-1 stimulated by thrombin in vascular SMC may be pharmacologically modulated by thrombin receptor inhibitor.
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PMID:Transcellular signaling and pharmacological modulation of thrombin-induced production of plasminogen activator inhibitor-1 in vascular smooth muscle cells. 957 36

The plasminogen activation (PA) system plays an important role in tumor invasion by initiating pericellular proteolysis of the extracellular matrix (ECM) and inducing cell migration. Malignant brain tumors overexpress PA members and characteristically invade by migrating on ECM-producing white matter tracts and blood vessel walls. To determine whether urokinase-type plasminogen activator (uPA) and its receptor (uPAR) directly modulate the migration of brain tumor cells, we examined six human brain tumor cell lines, 2 astrocytomas (SW1088, SW1783), 2 medullobastomas (Daoy, D341Med), and 2 glioblastomas (U87MG, U118MG), for their surface uPAR expression, endogenous PA activity, and functional proteolytic activity by an ECM-degradation assay. Migration on Transwell membranes and invasion of Matrigel was then tested by pre-incubating the cells with increasing concentrations of either uPA, the proteolytically inactive amino-terminal fragment (ATF) of uPA, or the uPAR cleaving enzyme, phosphatidylinositol-specific phospholipase C (PI-PLC). All of the cell lines, except D341Med, express surface uPAR protein and uPA activity. High levels of uPAR and uPA activity correlated with cellular degradation of ECM, cell migration, and Matrigel invasion. Cell migration and invasion were enhanced by uPA or ATF in a dose dependent manner, while PI-PLC treatment abolished the uPA effect and inhibited migration and invasion. We conclude that ligation of uPAR by uPA directly induces brain tumor cell migration, independent of uPA-mediated proteolysis; and in concert with ECM degradation, markedly enhances invasion. Conversely, removing membrane bound uPAR from the surface of the cells studied inhibited their ability to migrate and invade even in the presence of proteolytically active uPA.
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PMID:Urokinase induces receptor mediated brain tumor cell migration and invasion. 1006 93

We previously showed that thrombospondin 1 (TSP-1) upregulates the plasminogen/plasmin system and promotes breast tumor cell invasion. Preliminary data from our laboratory using neutralizing antibodies suggested that the upregulation in breast tumor cell invasion seen in response to TSP-1 involved the urokinase plasminogen activator receptor (uPAR). To confirm these findings in MDA-MB-231 breast cancer cells, we developed three other strategies to study the role of uPAR in tumor cell adhesion and TSP-1-mediated tumor cell invasion: (a) enzymatic cleavage of uPAR with glycosylphosphatidylinositol-specific phospholipase C; (b) inhibition at the mRNA level with a uPAR antisense construct (cells named LKAS-MDA); (c) inhibition of plasminogen binding with the lysine analogue epsilon-aminocaproic acid. Adhesion to laminin and type I and type IV collagen with and without the addition of epsilon-aminocaproic acid was studied. Tumor cell invasion was studied in a modified Boyden chamber collagen invasion assay. Antisense uPAR inhibition decreased uPAR expression by 48-66% and cell-associated urokinase plasminogen activator (uPA) by 30-68%. Additionally, antisense uPAR inhibition induced a 68-70% reduction in uPA and plasmin activities. Antisense uPAR transfection increased tumor cell adhesion by 46-53%. A similar effect was observed in epsilon-aminocaproic acid-treated MDA-MB-231 cells. TSP-1-mediated tumor cell invasion was almost completely inhibited by either antisense uPAR inhibition or treatment with phospholipase C or epsilon-aminocaproic acid. We conclude that uPAR plays a crucial role in the regulation of tumor cell adhesion and TSP-1-mediated tumor cell invasion.
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PMID:Role of urokinase plasminogen activator receptor in thrombospondin 1-mediated tumor cell invasion. 1009 Aug 48

Evidence suggests that aggregated low density lipoprotein (AgLDL) accumulates in atherosclerotic lesions. Previously, we showed that AgLDL induces and enters surface-connected compartments (SCC) in human monocyte-derived macrophages by a process we have named patocytosis. Most AgLDL taken up by these macrophages in the absence of serum is stored in SCC and remains undegraded. We now show that macrophages released AgLDL (prepared by vortexing or treatment with phospholipase C or sphingomyelinase) from their SCC when exposed to 10% human lipoprotein-deficient serum (LPDS). Macrophages also took up AgLDL in the presence of LPDS, but subsequently released it. In both cases, the released AgLDL was disaggregated. Although the AgLDL that macrophages took up could not pass through a 0.45-micrometer filter, >60% of AgLDL could pass this filter after release from the macrophages. Disaggregation of AgLDL was verified by gel-filtration chromatography and electron microscopy that also showed particles larger than LDL, reflecting fusion of LDL that aggregates. The factor in serum that mediated AgLDL release and disaggregation was plasmin generated from plasminogen by macrophage urokinase plasminogen activator. AgLDL release was decreased >90% by inhibitors of plasmin (epsilon-amino caproic acid and anti-plasminogen mAb), and also by inhibitors of urokinase plasminogen activator (plasminogen activator inhibitor-1 and anti-urokinase plasminogen activator mAb). Moreover, plasminogen could substitute for LPDS and produce similar macrophage release and disaggregation of AgLDL. Because only plasmin bound to the macrophage surface is protected from serum plasmin inhibitors, interaction of AgLDL with macrophages was necessary for reversal of its aggregation by LPDS. The released disaggregated LDL particles were competent to stimulate LDL receptor-mediated endocytosis in cultured fibroblasts. Macrophage-mediated disaggregation of aggregated and fused LDL is a mechanism for transforming LDL into lipoprotein structures size-consistent with lipid particles found in atherosclerotic lesions.
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PMID:Plasmin-mediated macrophage reversal of low density lipoprotein aggregation. 1094 82

Binding of plasminogen type II (Pg 2) to dipeptidyl peptidase IV (DPP IV) on the surface of the highly invasive 1-LN human prostate tumor cell line induces an intracellular Ca2+ ([Ca2+]i) signaling cascade accompanied by a rise in intracellular pH (pHi). In endothelial cells, Pg 2 regulates intracellular pH via Na+/H+ exchange (NHE) antiporters; however, this mechanism has not been demonstrated in any other cell type including prostate cancer cells. Because the Pg 2 receptor DPP IV is associated with NHE3 in kidney cell plasma membranes, we investigated a similar association in 1-LN human prostate cancer cells and a mechanistic explanation for changes in [Ca2+]i or pHi induced by Pg 2 in these cells. Our results suggest that the signaling cascade initiated by Pg 2 and its receptor proceeds via activation of phospholipase C, which promotes formation of inositol 3,4,5-trisphosphate, an inducer of Ca2+ release from endoplasmic reticulum stores. Furthermore, our results suggest that Pg 2 may regulate pHi via an association with NHE3 linked to DPP IV in these cells. These associations suggest that Pg has the potential to simultaneously regulate calcium signaling pathways and Na+/H+ exchanges necessary for tumor cell proliferation and invasiveness.
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PMID:Association of plasminogen with dipeptidyl peptidase IV and Na+/H+ exchanger isoform NHE3 regulates invasion of human 1-LN prostate tumor cells. 1591 29

Infections caused by Streptococcus suis, a major swine pathogen, include meningitis, arthritis, pneumonia and septicaemia. In this study, we investigated interactions that may occur between human brain microvascular endothelial cells (HBMEC), the main constituent of the blood-brain barrier, and S. suis. We show that S. suis acquires plasmin activity in a time-dependent manner when in contact with cultured HBMEC. Cell-associated plasmin activity reached a plateau following a 48h co-incubation period. Zymography analysis revealed that HBMEC produce urokinase, which is probably involved in activation of plasminogen bound to S. suis. We also show that a S. suis culture supernatant which possesses both phospholipase C and haemolysin (suilysin) activities was able to induce the release of arachidonic acid from the membrane of HBMEC. Evidence suggests that the action of suilysin on HBMEC may be a prerequisite for the action of additional molecules such as phospholipase C. These new biological effects associated with S. suis may play an important role in the migration of S. suis through the blood-brain barrier and in the modulation of local inflammation.
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PMID:Acquisition of plasmin activity and induction of arachidonic acid release by Streptococcus suis in contact with human brain microvascular endothelial cells. 1618 70

Streptokinase (SK) is one of the plasminogen activators currently used in therapeutics. SK antibodies may appear in the blood after thrombolytic therapy with SK or after-hemolytic streptococci infection. Such antibodies may both activate platelets and neutralize the ability of SK to convert plasminogen into plasmin. We previously demonstrated that platelet activation induced by the combination of IgG anti-SK and anisoylated plasminogen-SK activator complex (APSAC) is mediated by Fc gamma RIIa1 receptor. However, the mechanism by which IgG anti-SK and APSAC (or SK) transduce an activating signal across the platelet plasma membrane remains unknown. We have demonstrated in the present study that the platelet aggregation induced by the combination of IgG anti-SK and APSAC is accompanied by an increase in inositol phosphate, Ca2+ mobilization and thromboxane (Tx) A2 generation. Neomycin, erbstatin and GF 109203X, which inhibit phospholipase C (PLC), protein tyrosine kinase (PTK) and protein kinase C (PKC) activities, respectively, abolished platelet aggregation induced by IgG anti-SK plus APSAC, indicating the pivotal roles of the PLC, PTK and PKC pathways in this immunological activation. In addition, TxA2 generation is also important since aspirin, a cyclooxygenase inhibitor and SQ 29548, a TxA2 receptor antagonist, showed significant inhibition of the platelet response. The contribution of released ADP was confirmed using apyrase, which significantly inhibited IgG anti-SK plus APSAC-induced platelet aggregation. Finally, WEB 2086, a platelet-activating factor (PAF) receptor antagonist, was not effective, indicating that PAF is not involved in this process. APSAC- or SKinduced platelet activation may limit the therapeutic effectiveness of the drug and may contribute to the pathogenesis of early reocclusion. The study of the mechanism leading to APSAC-induced platelet activation could be relevant for a better understanding of the physiopathology of immune complex disorder diseases and thrombolytic treatment failure.
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PMID:Signal transduction in the platelet activation induced by IgG anti-streptokinase and anisoylated plasminogen-streptokinase activator complex. 1679 41

Streptokinase (SK) is one of the plasminogen activators currently used in therapeutics. SK antibodies may appear in the blood after thrombolytic therapy with SK or after ss-hemolytic streptococci infection. Such antibodies may both activate platelets and neutralize the ability of SK to convert plasminogen into plasmin. We previously demonstrated that platelet activation induced by the combination of IgG anti-SK and anisoylated plasminogen-SK activator complex (APSAC) is mediated by Fgamma7RIIal receptor. However, the mechanism by which IgG anti-SK and APSAC (or SK) transduce an activating signal across the platelet plasma membrane remains unknown. We have demonstrated in the present study that the platelet aggregation induced by the combination of IgG anti-SK and APSAC is accompanied by an increase in inositol phosphate, Ca(2+) mobilization and thromboxane (Tx) A2 generation. Neomycin, erbstatin and GF 109203X, which inhibit phospholipase C (PLC), protein tyrosine kinase (PTK) and protein kinase C (PKC) activities, respectively, abolished platelet aggregation induced by IgG anti-SK plus APSAC, indicating the pivotal roles of the PLC, PTK and PKC pathways in this immunological activation. In addition, TxA2 generation is also important since aspirin, a cyclo-oxygenase inhibitor and SQ 29548, a TxA2 receptor antagonist, showed significant inhibition of the platelet response. The contribution of released ADP was confirmed using apyrase, which significantly inhibited IgG anti-SK plus APSAC-induced platelet aggregation. Finally, WEB 2086, a platelet-activating factor (PAF) receptor antagonist, was not effective, indicating that PAF is not involved in this process. APSAC- or SK-induced platelet activation may limit the therapeutic effectiveness of the drug and may contribute to the pathogenesis of early reocclusion. The study of the mechanism leading to APSAC-induced platelet activation could be relevant for a better understanding of the physiopathology of immune complex disorder diseases and thrombolytic treatment failure.
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PMID:Signal transduction in the platelet activation induced by IgG anti-streptokinase and anisoylated plasminogen-streptokinase activator complex. 2029 34


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