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)

The present study characterizes mechanisms involved with the induction of nitric oxide (NO) production, nitric oxide synthase (NOS) enzymatic activity and mRNA expression in human articular chondrocytes. Activation of chondrocytes with lipopolysaccharide (LPS) or IL-1 resulted in time- and dose-dependent increases in iNOS mRNA followed by increased NOS enzymatic activity and NO release. The protein tyrosine kinase (PTK) inhibitors herbimycin A or genistein reduced IL-1 or LPS-induced NO release and NOS enzymatic activity. This was associated with inhibition of iNOS mRNA expression as determined by reverse transcription-polymerase chain reaction (RT-PCR) and in situ hybridization. In contrast, inhibitors of protein kinase C (PKC) or protein kinase A (PKA) did not affect these responses. These results were confirmed in experiments with second messenger agonists where neither activation of PKC, nor increases in cyclic adenosine monophosphate (cAMP) or increased intracellular calcium levels were associated with the induction of iNOS mRNA or NO release. These results suggest that PKC, PKA and calcium-dependent signals are not required or sufficient for the stimulation of NO production. However, NO production is dependent on tyrosine kinases due to their role in the expression of iNOS mRNA.
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PMID:Tyrosine kinases are involved with the expression of inducible nitric oxide synthase in human articular chondrocytes. 753 12

Tissue factor (TF) is a transmembrane glycoprotein which assembles with factor VIIa on cell surfaces to form a proteolytically active cofactor-enzyme complex; the TF/VIIa complex initiates the coagulation protease cascade. In response to bacterial lipopolysaccharide (LPS) and phorbol-12 myristate 13-acetate (PMA), monocytes synthesize and express TF on their surface. However, the mechanisms by which LPS and PMA activate TF synthesis by human blood monocytes are not fully understood. As it has been established that LPS and PMA activate protein tyrosine kinase (PTK) in monocytes, we studied the role of PTK in LPS and PMA induction of TF by human blood monocytes. Both LPS- and PMA-induced TF activity was inhibited in a concentration-dependent manner by the protein tyrosine kinase-specific inhibitors herbimycin A and genistein. TF antigen determination confirmed that LPS- and PMA-induced cell surface TF protein levels decreased in parallel to TF functional activity under herbimycin A and genistein treatment. Northern blot analysis of total RNA from LPS- and PMA-stimulated monocytes showed a concentration-dependent decrease in TF mRNA levels in response to herbimycin A and genistein. The rate of decay of LPS-induced TF mRNA, evaluated after the arrest of transcription by actinomycin D was not affected by genistein and herbimycin A, suggesting that the inhibitory effects occur at least partly at the transcriptional level. We conclude that LPS- and PMA-induced TF production by human monocytes is dependent on tyrosine kinase activation.
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PMID:Protein tyrosine kinase activation is required for LPS and PMA induction of tissue factor mRNA in human blood monocytes. 754 19

Transport of L-arginine and generation of nitrite in microglia-free astroglial cultures derived from neonatal mouse brain were stimulated by bacterial lipopolysaccharide (LPS) in a time- and dose-dependent manner. LPS stimulated arginine transport between 1.3- and 2.5-fold; half-maximal stimulation was obtained with 0.3 micrograms/ml LPS. Acceleration of transport was detectable within 6 h of incubation with LPS. Cycloheximide or actinomycin D neutralized the effect of LPS. Stimulation of generation of nitrite was reduced when the cells were incubated simultaneously with LPS and either genistein or diethyldithiocarbamate, inhibitors of protein tyrosine kinase and nuclear transcription factor kappa, respectively. However, stimulation of arginine transport was not reduced in the presence of these compounds. Dexamethasone inhibited stimulation of nitric oxide (NO) production but not of arginine transport. Protein kinase C inhibitor staurosporine had no effect on either process. The results suggest that LPS-stimulated acceleration of arginine transport in astrocytes requires protein as well as RNA synthesis. Induction of synthesis of an astroglial cationic amino acid transport system appears to be mechanistically independent from stimulation of intracellular NO production.
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PMID:Stimulation of arginine transport and nitric oxide production by lipopolysaccharide is mediated by different signaling pathways in astrocytes. 761 13

Ninety minutes after i.v. injection of Escherichia coli lipopolysaccharide (LPS) (1 mg/kg) into rats, phorbol 12-myristate 13-acetate (PMA)-stimulated superoxide anion (O2-) secretion was enhanced in suspensions of in vivo LPS-treated alveolar macrophages (AM phi) when compared with saline (SAL)-treated AM phi. The purpose of this investigation was to dissect the in vitro mechanism of PMA-stimulated O2- generation in both LPS and SAL-treated rat AM phi, with a panel of inhibitors of protein kinase C (PKC), protein serine-threonine phosphatase(s) (PSP), protein tyrosine kinase(s) (PTK) and phosphatase(s) (PTP), phospholipase A2 (PLA2), cyclooxygenase (CO) and 5-lipoxygenase (5-LO). The following agents blocked PMA-stimulated O2- generation in both LPS- and SAL-treated AM phi (expressed as percentage of control): 1) PKC inhibitors: staurosporine: 100 nM, 7.0% (LPS) and 5.6% (SAL); sphingosine: 10 microM, 21% (LPS) and 10.5% (SAL); 2) PTK inhibitor: genistein: 100 microM, 44% (LPS) and 31% (SAL); 3) PTP inhibitors: phenylarsine oxide, 10 microM, 12.1% (LPS) and 18% (SAL); diamide, 1000 microM, 10.1% (LPS) and 10.5% (SAL); and 4) PLA2 inhibitors: manoalide: 1 microM, 29.3% (LPS) and 5.2% (SAL); scalaradial: 1 microM, 7.7% (LPS) and 7.1% (SAL); and WAY 125,984: 10 microM, 17.1% (LPS) and 14.5% (SAL). In addition, it was observed that exogenously added arachidonic acid (AA)-stimulated O2- generation in a time- and dose-dependent manner in both LPS and SAL-treated AM phi. The following inhibitors enhanced or did not affect PMA-stimulated O2- generation in LPS- and SAL-treated AM phi (expressed as percentage of of control): 1) PSP inhibitors: okadaic acid: 0.5 microM, 117% (LPS) and 153% (SAL); calyculin A: 1 microM, 112% (LPS) and 101% (SAL); 2) CO and 5-LO inhibitors: indomethacin: 10 microM, 107% (LPS) and 90% (SAL); WY 50, 295: 1 microM, 99% (LPS) and 103% (SAL); and 3) the PTP inhibitor orthovanadate upon prolonged preincubation. In both in vivo LPS- or SAL-primed AM phi, PMA-stimulated O2- generation appears to be modulated by PKC, PLA2, AA, PTK, PTP and PSP. No modulatory role was evident for either CO or 5-LO metabolites. These findings might bear on the design of therapeutic approaches for the modulation of O2- release by AM phi in the early stages of sepsis and adult respiratory distress syndrome.
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PMID:Modulation of superoxide generation in in vivo lipopolysaccharide-primed rat alveolar macrophages by arachidonic acid and inhibitors of protein kinase C, phospholipase A2, protein serine-threonine phosphatase(s), protein tyrosine kinase(s) and phosphatase(s). 761 27

Bacterial lipopolysaccharide (LPS) induces a pleiotropic activation of the immune system which might subsequently result in septic shock. One of the cell surface receptors for LPS is the glycophosphatidylinositol-anchored protein CD14. Binding of LPS to CD14 induces production of lymphokines such as tumor necrosis factor-alpha (TNF-alpha), interleukin-1 (IL-1), IL-6, and IL-8, and CD14 is subsequently released from the cell surface. However, the mechanism of signaling via CD14 is still not known. We report here that protein tyrosine kinase (PTK) p56lyn is coupled to the LPS receptor CD14 in human monocytes. LPS rapidly activates CD14-associated p56lyn simultaneously with PTKs p58hck and p59c-fgr. Inhibition of PTKs by herbimycin A completely blocks LPS-induced down-modulation of CD14 and production of TNF-alpha and IL-1. These data suggest a critical role of PTKs in the LPS/CD14-mediated signal transduction pathway in human monocytes.
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PMID:Lipopolysaccharide induces activation of CD14-associated protein tyrosine kinase p53/56lyn. 769 2

We investigated the effects of lipopolysaccharide (LPS) on the subcellular location of the integrin receptor CD11b/CD18 (Mac-1). Cytoplast and subcellular fractionation experiments were performed to distinguish between receptor shedding and intracellular receptor transport as mechanisms involved for the effects of LPS on CD11b/CD18 expression. Cytoplast preparations demonstrated the same percentage of cell-associated receptors +/- LPS. Subcellular fractionation experiments demonstrated a shift from primarily plasma membrane fractions to azurophilic granules. Protein tyrosine kinase inhibition with genistein (50 microM) inhibited the LPS-induced translocation of CD11b/CD18 receptors to azurophilic granules. The effects of LPS (10 ng/mL) alone were reproduced with LPS (.1 ng/mL) plus heat-inactivated pooled normal human serum. Preincubation of PMN with anti-CD14 monoclonal antibodies prevented the effects of LPS+serum on the translocation of CD11b/CD18 receptors. These results demonstrate that LPS regulates CD11b/CD18 expression by inducing intracytoplasmic translocation of this receptor to azurophilic granules. This process involves activation of protein tyrosine kinase, and endosomal acidification contributes to the degradation of these receptors within azurophilic granules.
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PMID:Lipopolysaccharide induces intracytoplasmic migration of the polymorphonuclear leukocyte CD11b/CD18 receptor. 777 99

Two isoforms of cyclooxygenase (COX) have been identified in eukaryotic cells: a constitutively expressed COX-1 and mitogen-inducible COX-2, which is selectively expressed in response to various inflammatory stimuli. Thus, COX-2 instead of COX-1 is implicated to produce prostanoids mediating inflammatory responses. Major efforts have been focused on identifying nonsteroidal anti-inflammatory drugs (NSAIDS) which can selectively inhibit the enzyme activity of COX-2. Such NSAIDS would be more desirable anti-inflammatory agents in comparison to NSAIDS which inhibit both COX-1 and COX-2. Other than glucocorticoids, pharmacological agents which can selectively suppress the expression of COX-2 without affecting that of COX-1 have not been identified. We report here that radicicol, a fungal antibiotic, is a potent protein tyrosine kinase inhibitor, and that it inhibits the expression of COX-2 without affecting COX-1 expression in lipopolysaccharide (LPS)-stimulated macrophages with the IC50 value of 27 nM. Radicicol inhibited tyrosine phosphorylation of p53/56lyn, a Src family tyrosine kinase and one of the major tyrosine-phosphorylated proteins in LPS-stimulated macrophages. Radicicol also inhibited COX-2 expression in vivo in glomeruli of rats with experimental glomerulonephritis induced by the anti-glomerular basement membrane antibodies, in which COX-2 expression is known to be enhanced. The enzyme activity of COX-1 or COX-2 was not affected by radicicol in macrophages. Radiciciol also suppressed the COX-2 expression induced by IL-1 beta in rat smooth muscle cells. Other protein tyrosine kinase inhibitors suppressed the LPS-induced COX-2 expression in macrophages but at much higher concentrations than needed for radicicol. Radicicol did not inhibit the COX-2 expression induced by phorbol 12-myristate 13-acetate in macrophages. These results suggest that the activation of tyrosine-specific protein kinases is the proximal obligatory step in the LPS-induced signal transduction pathway leading to the induction of COX-2 expression in macrophages. The magnitude of the inhibition of COX-2 protein synthesis by radicicol was much greater than that of the steady state levels of COX-2 mRNA. These results suggest that radicicol inhibits COX-2 expression mainly at post-transcriptional steps.
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PMID:Radicicol, a protein tyrosine kinase inhibitor, suppresses the expression of mitogen-inducible cyclooxygenase in macrophages stimulated with lipopolysaccharide and in experimental glomerulonephritis. 789 Jun 56

Increased procoagulant activity of vascular endothelial cells may be an important component in the pathogenesis of intravascular coagulation associated with gram-negative bacterial diseases. Two bovine endothelial cell (BEC) lines isolated from pulmonary arteries (ENS-2 and ENT-18) were used in this study to investigate procoagulant signal transduction pathways of endotoxin (lipopolysaccharide, LPS)--stimulated BECs. The endothelial cell line ENS-2 was sensitive to LPS as demonstrated by tissue factor (TF) expression, but in contrast, the ENT-18 endothelial cell line was unusually resistant to the effects of LPS. No remarkable quantitative difference in binding of radiolabeled LPS was detected between the two endothelial cell lines. A protein kinase C (PKC) activator (phorbol 12-myristate 13-acetate, PMA) failed to induce TF expression in either cell line at concentrations ranging from 0.05 to 1.00 microM when used as a sole stimulus for the endothelial cells. However, when PMA was used in combination with LPS, PMA enhanced the stimulatory effect of LPS on the endothelial cells. In parallel experiments, PKC inhibitors (H-7 and GF 109203X) interfered with the stimulatory effect of LPS on the cells by decreasing tissue factor expression. We also found that an activator of adenylate cyclase, forskolin, similarly inhibited LPS-induced tissue factor activity. In contrast, protein tyrosine kinase inhibitors (genistein, lavendustin A) had no inhibitory effect on LPS-induced endothelial cell tissue factor expression. Our results collectively suggest that activation of PKC is an important step in stimulation of endothelial cells by LPS, and that LPS and phorbol esters may synergize to produce an enhanced stimulatory effect. Our results also suggest participation of cAMP in controlling LPS-mediated stimulation of endothelial cells, but fail to demonstrate a role for protein tyrosine kinase activity.
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PMID:Signal transduction pathways of bacterial lipopolysaccharide-stimulated bovine vascular endothelial cells. 807 Sep 6

Activation of monocytes by bacterial lipopolysaccharides (LPSs) is a central component in the pathogenesis of septic shock syndrome. Interleukin 10 (IL-10) is a potent monocyte-deactivating factor and transcriptionally inhibits LPS-induced expression of proinflammatory mediators. The intracellular signaling pathways of LPS have been only partially characterized and mechanisms of IL-10 signaling remain unknown. We show that LPS activates the protein tyrosine kinase (PTK) p56lyn and that this is associated with tyrosine phosphorylation of the protooncogene product Vav. These events are completely blocked by the tyrosine kinase inhibitor herbimycin A. LPS also increases Ras activation in monocytes. LPS-triggered phosphorylation of mitogen-activated protein kinase is a downstream activation event that is also reduced by herbimycin A. Analysis of the IL-10 effects shows that it completely inhibits the p56lyn tyrosine kinase activation and all other subsequent events in this pathway including Ras activation. The IL-10 effects are selective since it reduced PTK-dependent cytokine mRNA expression but not the PTK independent induction of c-jun and c-fos mRNA in LPS-activated monocytes. These results identify the Ras signaling pathway as a component of intracellular signaling in LPS-stimulated monocytes and define early events in this response as targets of monocyte deactivation by IL-10.
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PMID:Monocyte deactivation by interleukin 10 via inhibition of tyrosine kinase activity and the Ras signaling pathway. 807 29

Continuous infusion of a nonlethal dose of Escherichia coli lipopolysaccharide (LPS) into rats induced extravasation of mononuclear phagocytes into the liver and the priming of Kupffer cells for in vitro phorbol myristate acetate (PMA)-stimulated superoxide anion (O2-) release. The purpose of this investigation was to determine the role of protein kinase C (PKC), protein serine-threonine phosphatase(s) 1 and 2a, protein tyrosine kinase(s) and phosphatase(s), phospholipase A2 (PLA2), arachidonic acid (AA) and its cyclooxygenase (CO) and 5-lipoxygenase (5-LO) metabolites in the modulation of PMA-stimulated O2-generation in in vivo LPS-primed rat Kupffer cells. The following inhibitors blocked PMA-stimulated O2- generation in the absence (-AA) or presence of AA (+AA) (50 microM): 1) staurosporine, a putative PKC inhibitor (150 nM, 95% inhibition without AA, 88% inhibition with AA); 2) okadaic acid, a protein serine-threonine phosphatase inhibitor (2 microM, 65% inhibition with or without AA); 3) the marine PLA2 inhibitor manoalide (1 microM, 97.5% inhibition without AA, 75% with AA). In addition, it was observed that exogenously added AA enhanced PMA-stimulated O2- generation in a time- and dose-dependent manner (5-50 microM) and partially reversed the inhibitory effect of manoalide. The following inhibitors did not block PMA-stimulated O2- generation in the absence or presence of AA: 1) indomethacin, a CO inhibitor (1-100 microM) and WY-50,295M tromethamine, a novel 5-LO inhibitor (1-100 microM); 2) genistein, a protein tyrosine kinase inhibitor (1-100 microM); and 3) sodium orthovanadate (1-300 microM), a protein tyrosine phosphatase inhibitor. It was concluded that, in in vivo LPS-primed Kupffer cells, PMA-stimulated O2- generation is modulated by PKC, protein serine-threonine phosphatase(s), PLA2 and AA but not by protein tyrosine kinase(s) and phosphatase(s) and CO and 5-LO products. These findings could have implications on the design of novel therapeutic approaches for the modulation of enhanced O2- release by Kupffer cells in endotoxemia.
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PMID:Modulation of superoxide generation in in vivo lipopolysaccharide-primed Kupffer cells by staurosporine, okadaic acid, manoalide, arachidonic acid, genistein and sodium orthovanadate. 830 64


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