Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Secretory phospholipase A2 (sPLA2) is the major effector involved in arachidonic acid (AA) mobilization and prostaglandin E2 (PGE2) production during stimulation of P388D1 macrophages with the inflammatory stimuli bacterial lipopolysaccharide and platelet-activating factor. We herein demonstrate that PGE2 in stimulated P388D1 cells is accounted for by the inducible cyclooxygenase (COX)-2. COX-1, though present, appears not to participate significantly in stimulus-induced PGE2 production in P388D1 macrophages. Reconstitution experiments utilizing exogenous recombinant sPLA2 demonstrate that activation of the sPLA2 at the plasma membrane is highly dependent on previous activation of the cytosolic phospholipase A2 (cPLA2). Collectively these results demonstrate (i) that functional coupling exists between sPLA2 and COX-2 in activated cells, (ii) the critical role that cPLA2 plays in lipid mediator production, and (iii) that there is crosstalk between cPLA2 and sPLA2 in the cell.
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PMID:Functional coupling between secretory phospholipase A2 and cyclooxygenase-2 and its regulation by cytosolic group IV phospholipase A2. 965 21

The expression and activity of phospholipase A2 (PLA2) isoforms were investigated in primary cultures of striatal astrocytes. The calcium ionophore A23187 together with the protein kinase C activator phorbol ester was the most potent stimulus in eliciting [3H]arachidonic acid release in the extracellular medium. Reverse transcription coupled to polymerase chain reaction (RT-PCR) showed the presence of the 85 kDa cytosolic PLA2 mRNA and the 14 kDa secretory PLA2 mRNA in untreated astrocytes. Immunoblot experiments with isoform-specific antibodies showed the presence of the cytosolic PLA2 in untreated astrocytes, while the secretory PLA2 was detected only in lipopolysaccharide-treated astrocytes. These data suggest that the two PLA2 isoforms expressed in striatal astrocytes might play different roles in cellular processes mediated by astrocytes.
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PMID:Coexpression of phospholipase A2 isoforms in rat striatal astrocytes. 965 98

1. Neutrophil priming by agents such as tumour necrosis factor-alpha, granulocyte/macrophage colony-stimulating factor and lipopolysaccharide causes a dramatic increase in the response of these cells to an activating agent; this process has been shown to be critical for neutrophil-mediated tissue injury both in vitro and in vivo. 2. The principle consequence of priming, aside from a direct effect on cell polarization, deformability and integrin/selectin expression, is to permit secretagogue-induced superoxide anion generation, degranulation and lipid mediator (e.g. leukotriene B4 and arachidonic acid) release. It is now recognized that most priming agents also serve an additional function of delaying apoptosis and hence increasing the functional longevity of these cells at the inflamed site. 3. The potential mechanisms underlying priming are discussed; current data suggest a dissociation between priming and changes in receptor number and/or affinity, G-protein expression, phospholipase C and phospholipase A2 activation and changes in intracellular Ca2+ concentration. However, more recent studies support a key role for protein tyrosine phosphorylation and enhanced phospholipase D and phosphoinositide 3-kinase activity in neutrophil priming. 4. Recent work has also revealed the potential for neutrophils to spontaneously and fully 'de-prime' after an initial challenge with platelet-activating factor. This ability of neutrophils to undergo a complete cycle of priming-de-priming (and re-priming) reveals a previously unrecognized flexibility in the control of neutrophil behaviour at an inflamed site.
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PMID:Neutrophil priming: pathophysiological consequences and underlying mechanisms. 968 67

Annexin 1 (An 1), a phospholipid and calcium binding protein, is strongly expressed in differentiated U 937 cells. In attempting to correlate the expression of An 1 with phospholipase A2 (PLA2) activity, U 937 cells were stably transfected both with a Sense and Antisense cDNA for An 1. PLA2 activity was measured by Flow cytometry analysis utilizing the bis-Bodipy-C11-PC fluorescent probe. U 937 cells stably transfected with the sense or antisense vectors were differentiated for 24 h with phorbol 12-myristate 13-acetate (PMA, 6 ng ml(-1)). Both in undifferentiated and differentiated cells, the Antisense clone (36.4 AS) showed consistently higher PLA2 activity than the control Sense clone (15 S). Since the fluorescent probe measures the total PLA2 activity, we used two different stimuli, PMA: (100 ng ml(-1)) or lipopolysaccharide (LPS, 10 ng ml(-1)), and two different inhibitors, to discriminate the PLA2 involved (namely arachidonyl trifluoromethyl ketone or AACOCF3, which is specific for the cytosolic PLA2, and SB 203347 specific for the secretory PLA2). In the Antisense clone the inhibitory effect of AACOCF was stronger [68%, P<0.025] than in the Sense, which may reflect the lower endogenous level of An 1 present in the cells. On the contrary, the inhibitory effect of SB 203347 [60% of inhibition] was identical in both clones. Since cPLA2 activity is correlated with its phosphorylation, Western and shift blot analysis were performed. They did not show any significative difference between the phosphorylated and non phosphorylated form of the enzyme in both the differentiated or not, Sense and Antisense clones. Furthermore the tyrosine phosphorylation analysis of An 1 showed that less than 10% of An 1 was phosphorylated irrespective of PMA presence or absence. From the pattern of inhibition observed, we propose that the endogenous unphosphorylated form of An 1 may act intracellularly to block the activity of a cytosolic PLA2.
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PMID:U937 cells deprived of endogenous annexin 1 demonstrate an increased PLA2 activity. 975 83

Using an immortalized astrocyte cell line (DITNC), we showed that lipopolysaccharide (LPS), tumor necrosis factor-alpha (TNF-alpha), and interleukin-1beta (IL-1beta) but not interferon-alpha (IFN-alpha) could individually induce secretory phospholipase A2 (sPLA2) mRNA and enzymatic activity. However, induction of inducible nitric oxide synthase (iNOS) mRNA and NO production by cytokines required the presence of IFN-gamma. Using a three-cytokine mixture (TNF-alpha, IL-1beta, and IFN-gamma) that could maximally induce both iNOS and sPLA2, the increase in these mRNA species reached a maximum by 4-8 h, followed by a decline up to 48 h. L-N6-(1-Iminoethyl)lysine acetate (L-NIL) inhibited cytokine-induced NO production with IC50 of 25 microM, but this compound did not affect iNOS mRNA. Furthermore, L-NIL exerted no effect on sPLA2 mRNA or sPLA2 activity. Pyrrolidine dithiocarbamate (PDTC), an inhibitor for NF-kappaB, was more effective in inhibiting iNOS mRNA and NO production than for sPLA2. Surprisingly, genistein inhibited both NO production and sPLA2 activity with IC50 of 72 microM and 88 microM, respectively. On the other hand, daidzein, a genistein analog lacking tyrosine kinase inhibitor activity, was not effective in inhibition of NO production at 250 microM. These results demonstrate distinct pathways for induction of iNOS and sPLA2 in DITNC cells by cytokines and shed new insight on transcriptional regulation for these two mRNA species.
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PMID:Cytokine induction of iNOS and sPLA2 in immortalized astrocytes (DITNC): response to genistein and pyrrolidine dithiocarbamate. 1009 Mar 97

Group V secretory phospholipase A2 (sPLA2) rather than Group IIA sPLA2 is involved in short term, immediate arachidonic acid mobilization and prostaglandin E2 (PGE2) production in the macrophage-like cell line P388D1. When a new clone of these cells, P388D1/MAB, selected on the basis of high responsivity to lipopolysaccharide plus platelet-activating factor, was studied, delayed PGE2 production (6-24 h) in response to lipopolysaccharide alone occurred in parallel with the induction of Group V sPLA2 and cyclooxygenase-2 (COX-2). No changes in the level of cytosolic phospholipase A2 (cPLA2) or COX-1 were observed, and Group IIA sPLA2 was not detectable. Use of a potent and selective sPLA2 inhibitor, 3-(3-acetamide 1-benzyl-2-ethylindolyl-5-oxy)propanesulfonic acid (LY311727), and an antisense oligonucleotide specific for Group V sPLA2 revealed that delayed PGE2 was largely dependent on the induction of Group V sPLA2. Also, COX-2, not COX-1, was found to mediate delayed PGE2 production because the response was completely blocked by the specific COX-2 inhibitor NS-398. Delayed PGE2 production and Group V sPLA2 expression were also found to be blunted by the inhibitor methylarachidonyl fluorophosphonate. Because inhibition of Ca2+-independent PLA2 by an antisense technique did not have any effect on the arachidonic acid release, the data using methylarachidonyl fluorophosphonate suggest a key role for the cPLA2 in the response as well. Collectively, the results suggest a model whereby cPLA2 activation regulates Group V sPLA2 expression, which in turn is responsible for delayed PGE2 production via COX-2.
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PMID:Regulation of delayed prostaglandin production in activated P388D1 macrophages by group IV cytosolic and group V secretory phospholipase A2s. 1021 94

Secretory nonpancreatic group IIA phospholipase A2 (sPLA2), a lipolytic enzyme found in plasma, is thought to play an important role in inflammation. In patients with sepsis, a strong positive correlation is observed between the plasma level of sPLA2 and poor clinical outcome in sepsis. We have thus asked whether sPLA2 could play a role in enabling responses of cells to bacterial lipopolysaccharide (LPS), a key contributor to sepsis. In the presence of sPLA2, cellular responses to LPS were significantly increased. This was demonstrated in assays of LPS-stimulated interleukin-6 (IL-6) production in whole blood and binding of freshly isolated human polymorphonuclear neutrophils (PMN) to fibrinogen-coated surfaces. We further found that sPLA2 enhanced binding of labeled LPS to PMN, and that the sPLA2-mediated cell responses to LPS were all blocked by monoclonal antibodies directed against membrane CD14. Two properties ofsPLA2 may contribute to its activity to mediate responses to LPS. sPLA2 appears to bind LPS because pre-exposure of sPLA2 to LPS led to a dose-dependent increase in its ability to hydrolyze phospholid substrate, and incubation of sPLA2 with BODIPY-LPS micelles resulted in enhanced fluorescence, presumably from the disaggregation of the LPS aggregates. Additional studies demonstrated that the esterolytic function of sPLA2 is also needed both for the disaggregation of LPS and CD14-dependent cell stimulation. The precise mechanisms by which LPS-binding and esterolytic activity contribute to sPLA2 activity are not clear but our data strongly suggest that these activities result in interaction of LPS with CD14 and subsequent cell activation.
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PMID:Enhancement of leukocyte response to lipopolysaccharide by secretory group IIA phospholipase A2. 1038 Aug 95

Types IIA and V secretory phospholipase A2 (sPLA2) are structurally related to each other and their genes are tightly linked to the same chromosome locus. An emerging body of evidence suggests that sPLA2-IIA plays an augmentative role in long-term prostaglandin (PG) generation in cells activated by proinflammatory stimuli; however, the mechanism underlying the functional regulation of sPLA2-V remains largely unknown. Here we show that sPLA2-V is more widely expressed than sPLA2-IIA in the mouse, in which its expression is elevated by proinflammatory stimuli such as lipopolysaccharide. In contrast, proinflammatory stimuli induced sPLA2-IIA in marked preference to sPLA2-V in the rat. Cotransfection of sPLA2-V with cyclooxygenase (COX)-2, but not with COX-1, into human embryonic kidney 293 cells dramatically increased the interleukin-1-dependent PGE2 generation occurring over a 24 h of culture period. Rat mastocytoma RBL-2H3 cells overexpressing sPLA2-V exhibited increased IgE-dependent PGD2 generation and accelerated beta-hexosaminidase exocytosis. These results suggest that sPLA2-V acts as a regulator of inflammation-associated cellular responses. This possible compensation of sPLA2-V for sPLA2-IIA in many, if not all, tissues may also explain why some mouse strains with natural disruption of the sPLA2-IIA gene exhibit few abnormalities during their life-spans.
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PMID:Regulation of type V phospholipase A2 expression and function by proinflammatory stimuli. 1046 47

We have found that chitosan, a polysaccharide present in fungal cell walls, is able to activate macrophages for enhanced mobilization of arachidonic acid in a dose- and time-dependent manner. Studies aimed at identifying the intracellular effector(s) implicated in chitosan-induced arachidonate release revealed the involvement of the cytosolic Group IV phospholipase A2 (PLA2), as judged by the inhibitory effect of methyl arachidonoyl fluorophosphonate but not of bromoenol lactone. Interestingly, priming of the macrophages with lipopolysaccharide renders the cells more sensitive to a subsequent stimulation with chitosan, and this enhancement is totally blocked by the secretory PLA2 inhibitor 3-(3-acetamide)-1-benzyl-2-ethylindolyl-5-oxy-propanesulfonic acid (LY311727). Collectively, the results of this work establish chitosan as a novel macrophage-activating factor that elicits AA mobilization in P388D1 macrophages by a mechanism involving the participation of two distinct phospholipases A2.
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PMID:Chitosan-induced phospholipase A2 activation and arachidonic acid mobilization in P388D1 macrophages. 1068 46

Group IIA phospholipase A2 (PLA2) is a newly recognized acute phase protein with marked antibacterial properties. We have shown previously that transgenic C57BL/6 J mice expressing human group IIA PLA2 (PLA2+ mice) are more resistant to bacterial infections than nontransgenic C57BL/6 J mice that, among mice, are unusual in that they lack the mouse analogue of group IIA PLA2 (PLA2- mice). To elucidate the possible mechanisms involved in the host response of these mice in bacterial infection, peripheral inflammatory cell responses of PLA2+ and PLA2- mice were studied after i.p. administration of Escherichia coli, E. coli lipopolysaccharide or Staphylococcus aureus. Uninfected PLA2+ mice had higher numbers of lymphocytes and polymorphonuclear neutrophil leukocytes (PMNs) in their blood than PLA2- mice. In PLA2+ mice, the number of PMNs increased in peripheral blood in parallel with the concentration of group IIA PLA2 after the administration of bacteria, whereas these responses were not seen in PLA2- mice. High concentrations of group IIA PLA2 in PLA2+ mice may increase the synthesis of bioactive molecules, such as prostaglandins, which in turn may mobilize PMNs into circulation. Our results support the hypothesis that group IIA PLA2 is an important inflammatory mediator in bacterial infections.
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PMID:Neutrophil response of transgenic mice expressing human group IIA phospholipase A2 in bacterial infections. 1101 7


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