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)

We demonstrate that adrenomedullin (AM) is produced and secreted from cultured murine monocyte/macrophage cell line (RAW 264.7) as well as mouse peritoneal macrophage. Immunoreactive (IR) AM secreted from RAW 264.7 cells was chromatographically identified to be native AM. To elucidate the regulation mechanism of AM production in macrophage, we examined the effects of various substances inducing differentiation or activation of monocyte/macrophage. Phorbol ester (TPA), retinoic acid (RA), lipopolysaccharide (LPS), and interferon-gamma (IFN-gamma) increased AM production 1.5-7-fold in RAW 264.7 cells in a dose- as well as time-dependent manner. By LPS stimulation, the AM mRNA level in RAW 264.7 cells was augmented up to 7-fold after 14 h incubation. RA exerted a synergistic effect when administered with TPA, LPS, or IFN-gamma, whereas IFN-gamma completely suppressed AM production in RAW 264.7 cells stimulated with LPS. Dexamethasone, hydrocortisone, estradiol, and transforming growth factor-beta dose-dependently suppressed AM production in RAW 264.7 cells. AM production was also investigated in mouse peritoneal macrophage. Primary mouse macrophage secreted IR-AM at a rate similar to that of RAW 264.7 cells, and its production was enhanced 9-fold by LPS stimulation. AM was found to increase basal secretion of tumor necrosis factor alpha (TNF-alpha) from RAW 264.7 cells, whereas AM suppressed the secretion of TNF-alpha and interleukin-6 from that stimulated with LPS. Thus, macrophage should be recognized as one of the major sources of AM circulating in the blood. Especially in cases of sepsis and inflammation, AM production in macrophage is augmented, and the secreted AM is deduced to function as a modulator of cytokine production.
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PMID:Production of adrenomedullin in macrophage cell line and peritoneal macrophage. 964 28

Sidestream smoke evolves from the smoldering end of a cigarette while the smoker is not puffing, and contributes substantially to environmental tobacco smoke (ETS). In contrast, main stream smoke emerges from the butt end of the cigarette and is mainly inhaled by the smoker. This study was performed to compare the effects of short-term exposure to cigarette smoke condensates prepared from sidestream (CSC-SS) and mainstream cigarette smoke (CSC-MS) on macrophage basal metabolism and responsiveness to two different stimuli, bacterial lipopolysaccharide (LPS) and interferon gamma (IFNgamma). Despite their generation at different temperatures and their different chemical composition, CSC - SS and CSC - MS had similar effects on macrophages. Both enhanced macrophage basal metabolism and responsiveness to LPS. Macrophage responsiveness to IFNgamma, assessed by their expression of four functional capacities, was suppressed by both CSC-SS and CSC-MS. The four assessed IFNgamma-inducible functional capacities were: enhanced phagocytosis of immuoglobulin-opsonized sheep red blood cells, TPA-induced peroxide production, class II major histocompatibility complex expression, and nitric oxide synthesis with LPS co-stimulation. The effects of CSC - SS and CSC - MS were similar qualitatively; they differ quantitatively in some cases, with CSC-MS generally effective at lower concentrations (expressed as cigarette-equivalents) than CSC-SS. Considering dilution of sidestream smoke in room air and loss during passage through the respiratory system, we expect to deliver the maximal dose to lung macrophages in situ only in rooms dense with smokers. However, only a fraction of the maximal dose can partially suppress induction of some functions, such as nitric oxide production and MHC expression. Macrophages play critical roles in tissue modeling during development. Of particular concern are neonates, whose organs are still undergoing growth and development, and are therefore susceptible to impaired development. If involuntary exposure to ETS hinders induction of macrophage functional capacities by cytokines, then development of the lungs and perhaps other organs would be impaired. In general, since macrophages are potent effectors and regulators of immunity, impairment of their responsiveness to cytokine must disrupt the proper functioning of the immune system.
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PMID:Mainstream and sidestream cigarette smoke condensates suppress macrophage responsiveness to interferon gamma. 1033 8

Bone marrow-derived macrophages proliferate in response to specific growth factors, including macrophage colony-stimulating factor (M-CSF). When stimulated with activating factors, such as lipopolysaccharide (LPS), macrophages stop proliferating and produce proinflammatory cytokines. Although triggering opposed responses, both M-CSF and LPS induce the activation of extracellular-regulated kinases (ERKs) 1 and 2. However, the time-course of ERK activation is different; maximal activation by M-CSF and LPS occurred after 5 and 15 min of stimulation, respectively. Granulocyte/macrophage colony-stimulating factor, interleukin 3, and TPA, all of which induced macrophage proliferation, also induced ERK activity, which was maximal at 5 min poststimulation. The use of PD98059, which specifically blocks ERK 1 and 2 activation, demonstrated that ERK activity was necessary for macrophage proliferation in response to these factors. The treatment with phosphatidylcholine-specific phospholipase C (PC-PLC) inhibited macrophage proliferation, induced the expression of cytokines, and triggered a pattern of ERK activation equivalent to that induced by LPS. Moreover, PD98059 inhibited the expression of cytokines induced by LPS or PC-PLC, thus suggesting that ERK activity is also required for macrophage activation by these two agents. Activation of the JNK pathway did not discriminate between proliferative and activating stimuli. In conclusion, our results allow to correlate the differences in the time-course of ERK activity with the macrophagic response toward proliferation or activation.
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PMID:The differential time-course of extracellular-regulated kinase activity correlates with the macrophage response toward proliferation or activation. 1070 14

Effects of auranofin, an orally active chrysotherapeutic agent, were examined on the production of prostaglandin E2 (PGE2) and nitric oxide (NO) in rat peritoneal macrophages and in RAW 264.7 cells, a murine macrophage-like cell line. Auranofin (1-10 microM) inhibited PGE2 production in rat peritoneal macrophages stimulated with 12-O-tetra-decanoylphorbol 13-acetate (TPA, 16.2 nM) at 8-20 h, but did not affect PGE2 production at 4 h. However, in non-stimulated rat peritoneal macrophages, auranofin increased PGE2 production at 4 h and had no effect on PGE2 production at 8-20 h. It was proved that auranofin (1-10 microM) increased COX (cyclooxygenase)-1-dependent PGE2 production and inhibited COX-2-dependent PGE2 production in rat peritoneal macrophages. Auranofin showed no effect on the enzyme activities of the purified COX-1 and COX-2 proteins. Furthermore, auranofin did not affect the COX-1 protein level, but inhibited the TPA-induced expression of COX-2 protein. Therefore, it was suggested that auranofin inhibited PGE2 production by inhibiting the COX-2 protein induction in TPA-stimulated macrophages. In RAW 264.7 cells, auranofin (0.3-3 microM) inhibited lipopolysaccharide-induced NO synthesis by inhibiting the induction of NO synthase (NOS) protein expression. Auranofin did not affect the enzyme activity of iNOS (inducible NOS). Finally, using rat peritoneal macrophages, the effects of auranofin on PGE2 production and NO production were determined. Auranofin (10 microM) strongly inhibited the production of PGE2 and NO, and the induction of COX-2 protein and NOS protein by TPA. Indomethacin, a COX inhibitor, partially inhibited NO production at the concentration at which PGE2 production was completely inhibited. On the other hand, L-NG-monomethyl-L-arginine acetate (L-NMMA), a NOS inhibitor, partially inhibited PGE2 production. NO production was completely inhibited at the same concentration as shown above. These findings suggest that PGE2 production and NO production partially affect each other. Therefore, the inhibition of PGE2 production by auranofin might be partly due to the inhibition of NO production, and the inhibition of NO production by auranofin be partly due to the inhibition of PGE2 production. In conclusion, auranofin inhibits both PGE2 production and NO production by inhibiting the upregulation of mRNA levels of COX-2 and NOS.
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PMID:[Analysis of the mechanism for the anti-inflammatory effect of the anti-rheumatic drug auranofin]. 1072 68

The purpose of this study was to evaluate the mechanism by which Escherichia coli lipopolysaccharide stimulates the secretion of phosphatidylcholine in primary cultures of rat type II pneumocytes. The stimulatory effect of lipopolysaccharide on phosphatidylcholine secretion was additive to those of terbutaline and TPA (protein kinase A and C activators respectively) and this effect was not suppressed by inhibitors of both protein kinases. On the other hand, lipopolysaccharide did not modify the increase on phosphatidylcholine secretion induced by the endoplasmic reticulum Ca2+-ATPase inhibitor thapsigargin, and enhanced slightly the calcium-ionophore A23187 stimulated phosphatidylcholine secretion. In addition, the stimulatory effect of lipopolysaccharide was suppressed by BAPTA, an intracellular Ca2+ chelator, and KN-62, a specific inhibitor of Ca2+-calmodulin-dependent protein kinase. These results, together with the lipopolysaccharide-mediated increase in the cytosolic [Ca2+], suggest that stimulation of phosphatidylcholine secretion by lipopolysaccharide in type II pneumocytes occurs by a calcium-dependent transduction mechanism via Ca2+-calmodulin-dependent protein kinase activation.
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PMID:Involvement of calcium in the stimulation of phosphatidylcholine secretion in primary cultures of rat type II pneumocytes by Escherichia coli lipopolysaccharide. 1082 20

A number of studies have demonstrated that prostacyclin and nitric oxide (NO) regulate blood pressure, blood flow and platelet aggregation. In this paper, we have examined the possible relationship between NO and prostaglandin endoperoxide H synthase (PGHS)-1 and -2 activities in cultured bovine aortic endothelial cells. In the non-activated condition endothelial cells expressed PGHS-1 activity alone. When these cells were pretreated with aspirin to inactivate their PGHS-1 and then activated by serum and phorbol ester (TPA) for 6 h, the cells expressed PGHS-2 activity alone. The PGHS activity was assessed by the generation of 6-ketoprostaglandin F1alpha (6-ketoPGF1alpha), a stable metabolite of prostacyclin, after the treatment of these cells with arachidonic acid. The simultaneous addition of NOC-7, a NO donor, with arachidonic acid did not affect the production of 6-ketoPGF1alpha in PGHS-1 expressed cells, but attenuated it in PGHS-2-expressed cells. The inhibitory effect of NOC-7 on PGHS-2 activity was dose dependent, and the different effects of NOC-7 on the activities of PGHS isozymes were also observed in other NO donors. To confirm the different effect of NO on PGHS isozymes demonstrated in the cultured endothelial cells, we carried out an ex vivo perfusion assay in aorta isolated from normal and lipopolysaccharide (LPS)-treated rats. In the aortae isolated from normal rats, where dominant expression of PGHS-1 was expected, the NO donor did not affect the PGHS activity, while in aortae isolated from LPS-treated rats, where PGHS-2 was dominantly expressed, the NO donor dramatically inhibited the PGHS activity, suggesting that NO suppressed PGHS-2 activity alone. The inhibitory effect of NO on PGHS-2 activity was not mediated by cyclic GMP (cGMP), since (a) methylene blue, an inhibitor of soluble guanylate cyclase did not abolish the inhibitory effect of the NO donor on PGHS-2 activity, and (b) 8-Br-cGMP, a permeable cGMP analogue, failed to mimic the effect of NO donors. These data suggest that the effect of NO on prostacyclin production in endothelial cells was dependent on the expression rate of PGHS-1 and PGHS-2 in the cells.
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PMID:Differential effects of nitric oxide on the activity of prostaglandin endoperoxide H synthase-1 and -2 in vascular endothelial cells. 1084 Oct 38

We investigated the suppressive effects of an avocado constituent, persenone A, on lipopolysaccharide- and interferon-y-induced inducible nitric oxide synthase (iNOS) and cyclooxygenase (COX-2) in a mouse macrophage cell line RAW 264.7. Persenone A at concentration of 20 microM almost completely suppressed both iNOS and COX-2 protein expression. In mouse skin, double treatments with persenone A (810 nmol) significantly suppressed double 12-O-tetradecanoylphorbol-13-acetate (TPA, 8.1 nmol) application-induced hydrogen peroxide (H2O2) generation. Treatment with persenone A before the second TPA treatment was sufficient to inhibit H2O2 generation, while the first treatment was not. This study thus suggests that persenone A is a possible agent to prevent inflammation-associated diseases including cancer.
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PMID:An avocado constituent, persenone A, suppresses expression of inducible forms of nitric oxide synthase and cyclooxygenase in macrophages, and hydrogen peroxide generation in mouse skin. 1119 28

Immunosenescence is an age-associated dysregulation of the immune function, which contributes to increased susceptibility to disease in the elderly. Alveolar macrophages (AM) are known phagocytes that generate reactive oxygen species (ROS) and nitric oxide (NO), essential mediators for host defence. We studied phagocytosis, ROS and NO production in AM obtained from young, adult and senescent rats (1-2, 9-12 and 18-24 months old, respectively) after exposure to lipopolysaccharide (LPS, 0.1-10 microg mL(-1)), 12-O-tetradecanoylphorbol 13-acetate (TPA, 0.1 microg mL(-1)) or LPS + TPA in culture. Phagocytosis was significantly lower in control AM from adult rats than in AM from young animals. Nevertheless, AM from adult animals pretreated with LPS exhibited higher phagocytic capacity than AM from younger animals. ROS was identified by the NBT test at single cell level and quantified by automated image analysis. When TPA was added to all three populations, AM from adult and senescent animals responded more than AM from young animals. All LPS-stimulated AM produce more NO than controls. However, NO production increased three-, four- and two-fold in young, adult and senescent animals, respectively. Our results demonstrate that AM from young, adult and senescent animals display differential responsiveness to inflammatory mediators. Therefore, aging processes markedly affect AM metabolic functions and may further compromise the lung immune defence response, increasing adverse long-term health effects.
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PMID:Age-dependent change in reactive oxygen species and nitric oxide generation by rat alveolar macrophages. 1288 8

It has been widely shown that many plant-derived compounds present significant anti-inflammatory effects. For this reason, they represent potential molecules for the development of new drugs, especially designed for the treatment and/or control of chronic inflammatory states such as rheumatism, asthma, inflammatory bowel diseases, atherosclerosis, etc. This review focuses on the naturally-occurring compounds with anti-inflammatory properties and attempts to correlate their actions with the modulation of cytokines and associated intracellular signalling pathways; it continues the review published in the November, 2003 issue of Planta Medica. Abbreviations. AP-1:activator protein-1 CCR1:chemokine receptor 1 CINC-1:cytokine-induced neutrophil chemoattractant 1 COX:cyclooxygenase EGCG:(-)-epigallocatechin gallate ELAM-1:endothelial-leukocyte adhesion molecule-1 ERK:extracellular signal-regulated kinase GRO:growth-related oncogene HUVEC:human umbilical vein endothelial cells ICAM-1:intercellular adhesion molecule-1 IFN:interferon IL:interleukin iNOS:inducible nitric oxide synthase IRA:the natural interleukin receptor activation JAK:janus kinase JNK:c-Jun NH2-terminal kinase LPS:lipopolysaccharide MAPK:mitogen-activated protein kinases MCP:monocyte chemotactic protein MHC:major histocompatibility complex MIP:macrophage inflammatory protein MMP:matrix metalloproteinases MPO:myeloperoxidase NF-kappaBnuclear factor kappa B NO:nitric oxide PAF:platelet aggregation factor PGEE:prostaglandin PK:protein kinase PMA/TPA:phorbol myristate acetate RANTES:regulated upon activation normal T-cell expressed and secreted TGF-beta:transforming growth factor-beta TNFalpha:tumour necrosis factor VCAM-1:vascular cell adhesion molecule-1
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PMID:Anti-inflammatory compounds of plant origin. Part II. modulation of pro-inflammatory cytokines, chemokines and adhesion molecules. 1499 84

A new system has been developed for RNA-based drug screening, and the feasibility of this approach has been demonstrated by the identification of new immunomodulating compounds. Peripheral blood mononuclear cells were chosen as the cellular assay system. Cells were either stimulated by TPA/ionomycin to produce T cell cytokines as asthma targets or stimulated by lipopolysaccharide to produce proinflammatory cytokines as targets for chronic obstructive pulmonary disease (COPD). The authors developed a new fully automated system for RNA purification from cells grown in 96-well plates. Gene expression was determined in 384-well plates using real-time quantitative one-tube RT-PCR. Small interdonor variation could be demonstrated. The assay system was validated with known immunosuppressants cyclosporine and dexamethasone. Screening of 800 compounds resulted in 9.5% compounds inhibiting the induction of at least 1 T cell derived cytokine and 6.8% compounds inhibiting at least 1 cytokine relevant for COPD. All these compounds were retested by analyzing remaining RNA from the 1st round of screening. The reproducibility of hits was between 56% and 74% for different cytokines. One compound selectively inhibited TNF, which was confirmed by IC(50) determination. Analyzing its effect on cells from different donors revealed little interdonor variation. In conclusion, the authors established fully automated RNA isolation and precise gene expression profiling using real-time RT-PCR for drug screening.
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PMID:RNA-based drug screening using automated RNA purification and real-time RT-PCR1. 1500 32


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