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Query: UNIPROT:P00750 (PLA)
 16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The gene encoding human tissue-type plasminogen activator (t-PA) is regulated in a cell-type-specific manner. Previous studies in non-endothelial cells have indicated that basal and phorbol ester mediated induction is controlled by a cAMP response element (CRE) referred to as the tPACRE, and an activating protein 2 (AP-2)-like site. The classification of the AP-2-like site was assigned on the basis of its sequence homology, but has been shown in some cell systems to be recognised by promoter-specific transcription factor-1 (Sp-1). Here, we have investigated the transcriptional regulation of the t-PA gene in endothelial cells and addressed the functional roles of the tPACRE and the Sp-1/AP-2-like sites. 5'-RACE experiments indicate that the t-PA gene uses two transcription initiation sites in these cells with the downstream site being preferred. Functional analyses of the t-PA promoter using reporter-gene constructs transfected into C11STH endothelial cells demonstrate that the first 410 bp of the t-PA promoter confers an increase in reporter-gene activity on treatment with 4beta-phorbol 12-myristate 13-acetate (PMA). Mutagenesis of either the tPACRE or the Sp-1/AP-2 site weakens both basal and inducible expression, while disruption of both sites renders the promoter completely unresponsive. Using supershift assays, we identify the predominant tPACRE-binding proteins in nuclear extracts prepared from both C11STH cells and primary umbilical vein endothelial cells (HUVECs) as activating transcription factor 2, CREB (cAMP-responsive-element-binding protein), CREM (cAMP response element modulator) and c-jun. Treatment of cells with PMA results in a selective recruitment of jun-D to the tPACRE, while Sp-1 was identified as the major transcription factor that recognises the AP-2-like site. Based on this data and previous reports, we have reassigned this as a Sp-1-binding site. Finally, the identification of specific endothelial-derived t-PACRE-binding proteins suggests an integral role for these factors in the regulation of t-PA gene expression in human endothelial cells.
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PMID:Transcriptional regulation of the tissue-type plasminogen-activator gene in human endothelial cells: identification of nuclear factors that recognise functional elements in the tissue-type plasminogen-activator gene promoter. 985

Incubation of HTC rat hepatoma cells with the cyclic nucleotide analogue 8-bromo-cAMP results in a 3-fold increase in the rate of degradation of type-1 plasminogen activator-inhibitor (PAI-1) mRNA. Previous studies utilizing HTC cells stably transfected with beta-globin:PAI-1 chimeric constructs demonstrated that at least two regions within the PAI-1 3'-untranslated region mediate the cyclic nucleotide-induced destabilization of PAI-1 mRNA; one of these regions is the 3'-most 134 nucleotides (nt) of the PAI-1 mRNA (Heaton, J. H., Tillmann-Bogush, M., Leff, N. S., and Gelehrter, T. D. (1998) J. Biol. Chem. 273, 14261-14268). In the present study, ultraviolet cross-linking analyses of this region demonstrate HTC cell cytosolic mRNA-binding proteins ranging from 38 to 76 kDa, with a major complex migrating at approximately 50 kDa. RNA electrophoretic mobility shift analyses demonstrate high molecular weight multiprotein complexes that specifically interact with the 134-nt cyclic nucleotide-responsive sequence. The 50, 61, and 76 kDa and multiprotein complexes form with an A-rich sequence at the 3' end of the cyclic nucleotide-responsive region; a 38-kDa complex forms with a U-rich region at the 5' end of the 134 nt sequence. Mutation of the A-rich region prevents both the binding of the 50-, 61-, and 76-kDa proteins and formation of the multiprotein complexes, as well as cyclic nucleotide-regulated degradation of chimeric globin:PAI-1 transcripts in HTC cells. These data suggest that the proteins identified in this report play an important role in the cyclic nucleotide regulation of PAI-1 mRNA stability.
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PMID:Cyclic nucleotide regulation of PAI-1 mRNA stability. Identification of cytosolic proteins that interact with an a-rich sequence. 987 66

Parathyroid hormone (PTH) activates PTH/PTH-related peptide-related receptors (PTHRs) to stimulate both adenylyl cyclase (AC) and phospholipase C (PLC). How these parallel signals mediate specific cellular and tissue responses to PTH, such as the complex anabolic versus catabolic actions of PTH on bone, remains unsettled. Previous studies of PTHR signaling and function employed mainly rodent or other cell lines that express endogenous PTHRs and, possibly, alternate species of PTH receptors. To preclude confounding effects of such receptors, we stably expressed recombinant human PTHRs (hPTHRs) at different levels of surface density in LLC-PK1 porcine renal epithelial cells that lack endogenous PTH responsiveness. hPTH(1-34) induced concentration-dependent activation of both AC and PLC via transfected hPTHRs. Maximal intensity of each signal increased with receptor density, but more hPTHRs were required for PLC than for AC activation. Coupling to AC was saturated at receptor densities too low to detect sustained PLC activation. hPTH(3-34), found by others to be a PLC/protein kinase C (PKC)-selective peptide in rat cells, did not activate PLC via human (or rat) PTHRs under conditions (1 microM peptide, 106 hPTHRs/cell) where hPTH(1-34) stimulated PLC severalfold. Other cellular responses that require PKC activation in these cells, such as sodium-dependent phosphate transport and cAMP-independent secretion of plasminogen activator, were induced by PTH(1-34) but not by hPTH(3-34) or hPTH(7-34). We conclude that amino-truncated PTH analogs reported to activate PKC cannot directly activate phosphatidylinositol-specific PLC via the human or rat PTHR and therefore that PTH receptors may access alternate, PLC-independent pathways of PKC activation in some target cells. The relative intensity of AC and PLC signaling via the hPTHR may be strongly regulated by changes in its surface expression.
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PMID:Dual signaling and ligand selectivity of the human PTH/PTHrP receptor. 989 61

The plasminogen activator (PA) system is thought to play a major role in the proteolytic events associated with spermatogenesis. The mechanisms controlling the expression of PA and of its major physiological inhibitor, plasminogen activator inhibitor type-1 (PAI-1), in the seminiferous epithelium are still unknown. In the present study we analyzed the expression of PA and PAI-1 in a murine Sertoli cell line (42GPA9) in response to stimulation by lipopolysaccharides (LPS) used to activate the phagocytic activity of these cells. Immortalized Sertoli cells cultured under basal conditions secreted predominantly tissue-type PA (tPA) as demonstrated by zymographic analysis and the presence of tPA transcripts. In zymographic experiments a larger molecular weight proteolytic band corresponding to the formation of PA-PAI-1 complex was also observed. The stimulation of immortalized Sertoli cells by LPS resulted in both alteration of the apparent tPA molecular weight to a higher form and transient increase in PAI-1 biosynthesis. The phorbol ester TPA stimulates similarly PAI-1 synthesis in the Sertoli cell line, while 8-bromo-cAMP has no effect. These results suggest for the first time the existence of a direct linkage between molecular events triggered by phagocytosis and regulation of tPA and PAI-1 in Sertoli cells.
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PMID:Regulation of tissue-type plasminogen activator and its inhibitor (PAI-1) by lipopolysaccharide-induced phagocytosis in a Sertoli cell line. 1006 64

The effects of endothelin-1 (ET-1) on the production of plasminogen activator inhibitor 1 (PAI-1) and tissue plasminogen activator (t-PA) by human brain-derived endothelial cells in culture were studied. At 100 nmol/L, ET-1 increased PAI-1 production by 88+/-6% within 72 hours, and increased PAI-1 mRNA expression within 1 hour of stimulation; there was no significant effect on t-PA production. PAI-1 activity was also examined and found to increase with ET-1 treatment. Suboptimal concentrations of ET-1 and tumor necrosis factor-alpha (TNF-alpha) acted synergistically to increase PAI-1 production. ET-1 activated protein kinase C and cAMP-dependent protein kinase pathways within 3 to 5 minutes of treatment, with the peak at 10 minutes. Activation of protein kinase C by phorbol-12-myristate-13-acetate (PMA) resulted in increased PAI-1 production, whereas activation of the cAMP-dependent protein kinase by forskolin or dibutyryl cAMP (dBu-cAMP) significantly decreased PAI-1 production. However, simultaneous activation of protein kinase C by PMA and cAMP-dependent protein kinase by dBu-cAMP only slightly attenuated PMA-induced PAI-1 increase. Inhibition of protein kinase C by GF-109213X abolished the effects of ET-1. These results demonstrate that ET-1 and TNF-alpha function synergistically to induce procoagulant activity of brain endothelial cells in a process that involves a protein kinase C-dependent pathway.
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PMID:Endothelin-1 enhances plasminogen activator inhibitor-1 production by human brain endothelial cells via protein kinase C-dependent pathway. 1039 97

Activation of mitogen-activated protein kinase (MAPK) results in pleiotropic effects such as modulation of the transcription and activation of enzymes involved in signal transduction. One such enzyme is the cytoplasmic phospholipase A(2) (cPLA(2)), which releases arachidonic acid (AA). AA is the precursor of prostaglandins and leukotrienes, two inflammatory mediators, which regulate gene expression and protein kinase (PK) activity. Fumonisin B(1) (FB(1)) was shown to increase PKC translocation and stimulate MAPK. We have investigated the effect of FB(1) on the AA cascade in a human epithelial cell line and the signal transduction pathway regulating PLA(2) activation. We observed that FB(1) stimulated cPLA(2) activity and increased AA release by a mechanism independent of PKC activation and that the activation of cPLA(2) is a two-step process: the first is phosphorylation of cPLA(2) by MAPK; the second is a consequence of the increase in sphingosine inside and outside the cells after 2 h, which is known to induce a rise in intracellular free calcium. Overall, this suggests that the effect of FB(1) on cells is partially dependent on the action of FB(1) on the enzymes involved in the cell cycle, such as MAPK and PKA, and on bioactive fatty acids, such as the prostaglandins and leukotrienes, and also on disruption of sphingolipid metabolism. In addition, we have observed down-regulation of cPLA(2) activity and AA metabolism by a mechanism involving prostaglandin production, cAMP synthesis and PKA activation.
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PMID:Activation of mitogen-activated protein kinase by fumonisin B(1) stimulates cPLA(2) phosphorylation, the arachidonic acid cascade and cAMP production. 1046 11

The differential activation of different members of the phospholipase A(2) (PLA(2)) superfamily and their regulation are important as one or more of them regulates the production of eicosanoids and others may contribute to the formation of other lipid mediators. We previously reported the existence of two forms of secretory or sPLA(2) in mouse keratinocytes, namely type I and type II sPLA(2). We show here that mouse keratinocyte sPLA(2)s were potently activated by protease treatment and inhibited by protease inhibitors. We also observed that G protein effectors induced substantial release of oleic acid (OA) from prelabeled mouse keratinocytes. A G(i)/G(0) protein activator significantly enhanced the hydrolysis of OA and this increase was not responsive to either pertussis toxin or cholera toxin treatment. Although there was a significant negative correlation between intracellular cAMP levels and OA hydrolysis, experimentally increasing cAMP with forskolin treatment had no effect on sPLA(2) activity. Arachidonic acid but not its metabolites was also shown to marginally activate keratinocyte sPLA(2) by 1.5-fold. These results lead to the conclusion that mouse keratinocyte sPLA(2)s can be regulated primarily by proteolytic activation and a G protein pathway.
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PMID:Mechanism(s) of activation of secretory phospholipase A(2)s in mouse keratinocytes. 1048 18

Substantial evidence documents the potential importance of P2Y receptor subtypes in the regulation of cellular responses, but few selective antagonists exist for these receptors. In the current study, we assessed the use of pyridoxal-phosphate-6-azophenyl-2', 4'-disulfonate (PPADS) as a putative P2Y(1) receptor-selective blocker in Madin-Darby canine kidney (MDCK-D(1)) cells. We found that the key action of PPADS in MDCK-D(1) cells was blockade of signaling at a postreceptor site. PPADS blocked UTP (P2Y(2))-stimulated accumulation of cAMP [which is dependent on arachidonic acid (AA) metabolism by cyclooxygenase] but not that by 2-methyl thio-adenosine triphosphate (2MeSATP; which is independent of cyclooxygenase and has been attributed to P2Y(1) and P2Y(11) receptors). By contrast, PPADS inhibited AA release mediated by both 2MeSATP and UTP. PPADS displayed uncompetitive antagonism in blockade of AA release in response to 2MeSATP. PPADS also inhibited AA release stimulated by various nucleotides, phenylephrine, and bradykinin, implying that the effect does not involve the inhibition of a specific receptor. Because PPADS also inhibited ionomycin-, thapsigargin-, and phorbol-12-myristate-13-acetate-promoted AA release, it appears to act at a site distal to an increase in intracellular Ca(2+) transients or PKC activation. Inhibition of melittin-stimulated AA release by PPADS suggested that the target of PPADS action may either be a phospholipase A(2) (PLA(2)) or a site distal to PLA(2), but PPADS did not inhibit Ca(2+)-dependent PLA(2) activity in MDCK-D(1) cell homogenate. The data indicate that PPADS blocks AA release in response to multiple compounds and suggest caution in the use of this compound for distinguishing P2Y receptor subtypes.
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PMID:Pyridoxal-phosphate-6-azophenyl-2',4'-disulfonate (PPADS), a putative P2Y(1) receptor antagonist, blocks signaling at a site distal to the receptor in Madin-Darby canine kidney-D(1) cells. 1060 69

We investigated the mechanism of phospholipase A(2) (PLA(2)) activation in response to the P2 receptor agonist ATP in rat thyroid FRTL-5 cells. The PLA(2) activity was determined by measuring the release of [(3)H]-arachidonic acid (AA) from prelabeled cells. ATP evoked a dose- and time-dependent AA release. This release was totally inhibited by pertussis toxin (PTX) treatment, indicating the involvement of a G(i)/G(o) protein. The AA release was also diminished by chelating extracellular Ca(2+) with EGTA or by inhibiting influx of Ca(2+) using Ni(2+). Although the activation of protein kinase C (PKC) by 12-phorbol 13-myristate acetate (PMA) alone did not induce any AA release, the ATP-evoked AA release was significantly reduced when PKC was inhibited by GF109203X or by a long incubation with PMA to downregulate PKC. Both the ATP-evoked AA release and the mitogen-activated protein kinase (MAP kinase) phosphorylation were decreased by the MAP kinase kinase (MEK) inhibitor PD98059. Furthermore, the ATP-evoked MAP kinase phosphorylation was also inhibited by GF109203X and by downregulation of PKC, suggesting a PKC-mediated activation of MAP kinase. Inhibiting Src-like kinases by PP1 attenuated both the MAP kinase phosphorylation and the AA release. These results suggest that these kinases are involved in the regulation of MAP kinase and PLA(2) activation. Elevation of intracellular cAMP by TSH or by dBucAMP did not induce a phosphorylation of MAP kinase. Furthermore, neither the ATP-evoked AA release nor the MAP kinase phosphorylation were attenuated by TSH or dBucAMP. Taken together, our results suggest that ATP regulates the activation of PLA(2) by a G(i)/G(o) protein-dependent mechanism. Moreover, Ca(2+), PKC, MAP kinase, and Src-like kinases are also involved in this regulatory process.
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PMID:Extracellular ATP-mediated phospholipase A(2) activation in rat thyroid FRTL-5 cells: regulation by a G(i)/G(o) protein, Ca(2+), and mitogen-activated protein kinase. 1073 91

FSH is synthesized and secreted by the anterior pituitary gland in multiple molecular forms; the release of these isoforms depends on the endocrine status of the donor at the time of sample collection. In the present study, we analysed the possibility that the FSH charge isoforms may exert differential effects at the target cell. Seven FSH isoform mixes were isolated from pooled anterior pituitary glycoprotein extracts by high resolution chromatofocusing, followed by affinity chromatography, which removed nearly 90% of the LH that co-eluted with the FSH isoforms during chromatofocusing. The isoforms (isoform I, pH >7.10; II, pH range 6.60-6.20; III, pH 5. 47-5.10; IV, pH 5.03-4.60; V, pH 4.76-4.12; VI, pH 4.05-3.82 and VII, pH <3.80) were then tested for their capacity to stimulate cAMP release, androgen aromatization and tissue-type plasminogen activator (tPA) enzyme activity and cytochrome P450 aromatase, tPA and inhibin alpha-subunit mRNA production by rat granulosa cells in culture. cAMP and oestradiol production were determined by RIA, tPA enzyme activity by SDS-PAGE and zymography and all mRNAs by northern blot hybridization analysis and semiquantitative RT-PCR. All isoforms, with the exception of isoform I, stimulated synthesis and release of cAMP, oestrogen and tPA enzyme activity in a dose-dependent manner; the potency of the less acidic isoforms (pH 6. 60-4.60) was greater than that exhibited by the more acidic/sialylated analogs (pH 4.76 to <3.80; potencies II>III>IV>V>VII>VI). A similar trend was observed in terms of cytochrome P450 aromatase and tPA mRNA production. In contrast, when FSH-stimulated production of alpha-inhibin mRNA was analysed, isoforms V-VII were significantly more potent (two- to threefold) than the less acidic/sialylated counterparts (II-IV). In contrast to isoforms II-VII (which behaved as FSH agonists), isoform I (elution pH >7.10) completely blocked P450 aromatase and tPA mRNA expression, without altering that of a constitutively expressed gene (glyceraldehyde-3-phosphate dehydrogenase). These results show for the first time that the naturally occurring human FSH isoforms may exhibit differential or even unique effects at the target cell level.
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PMID:Differential effects of the charge variants of human follicle-stimulating hormone. 1081 Feb 83


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