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)

The essential role of the CD11/CD18 family of leukocyte adhesion molecules (LeuCams) in neutrophil-substrate adhesion is well documented. We have found that a monoclonal antibody designated 60.3 (MoAb 60.3) that recognizes the common beta-subunit (CD18) on human neutrophils (PMN) also recognizes a surface antigen on equine PMN. Antigen expression as assessed by immunofluorescence flow cytometry was enhanced by zymosan-activated serum (ZAS) or phorbol 12-myristate 13-acetate (PMA) stimulation. Pretreatment of equine PMN with MoAb 60.3 inhibited ZAS-stimulated aggregation, indicating that the monoclonal recognized a functional epitope on equine PMN involved in adhesion-related functions. Cells pretreated only with bacterial lipopolysaccharide (LPS; 1 microgram/ml) exhibited moderate increased binding of MoAb 60.3 as determined by fluorescence intensity. Preincubation of PMN with LPS resulted in a slight increase in MoAb 60.3 binding after subsequent ZAS stimulation, greater than that with either LPS or ZAS as sole stimulus. Similarly, enhanced binding of MoAb 60.3 was observed with LPS preincubation when PMA was used as a stimulus, but this effect was dose dependent and was observed at only one of three PMA concentrations tested (1 ng/ml). In other experiments, preincubation of PMN with antiinflammatory drugs inhibited 41.5-45.1% of ZAS-stimulated PMN adhesion to monolayers of equine endothelial cells. To determine whether modulation of expression of the adhesion-related antigen recognized by MoAb 60.3 correlated with these observed adhesive responses of PMN, we used immunofluorescence flow cytometry to assess expression of the antigen on drug-treated PMN. Using 10% ZAS as a stimulus, phenylbutazone (PBZ; 100 micrograms/ml) pretreatment of PMN reduced subsequent MoAb 60.3 binding by only 12.3%, and dexamethasone (DEX; 10(-5) M) reduced binding by only 1.0%; reductions of 16.4% with PBZ and 9.3% with DEX occurred when PMA (10 ng/ml) was used as the PMN stimulant. These data suggest that equine PMN express a functional adhesion molecule similar to those found on human PMN and that LPS may enhance the expression of this surface antigen. Expression of this adhesion-related surface antigen on equine PMN does not correlate well with levels of drug-induced diminished adhesion of PMN to endothelium in vitro.
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PMID:Modulation of an adhesion-related surface antigen on equine neutrophils by bacterial lipopolysaccharide and antiinflammatory drugs. 239 44

The effect of a new, centrally acting analgesic, 2-n-pentyloxy-2-phenyl-4- methyl-morpholine (PM) on the humoral antibody isotype responses, mitogenic responses, and interleukin production and assay was studied. Treatment with this opioid agonist exerted a suppressive effect on the antibody responses to TD [sheep red blood cells (SRBC), fluoresceinated human gamma globulin (HGG-FITC)] and TI [fluoresceinated dextran (DEX-FITC), lipopolysaccharide (LPS)]antigens in mice. The suppression was found to be dose- and time-dependent for all antigens tested, suggesting that PM affected both T and B cells. PM impaired lymphocyte functions, as the in vitro T and B mitogen reactions were inhibited in a dose- and time-dependent manner in mice and rats. PM, even at the highest concentration used, could not completely inhibit the production of interleukin 1 (IL-1)-like activity, but it caused complete inhibition, in a dose-dependent manner, of the production of IL-2-like activity. In addition, PM inhibited the assays of both IL-1 and IL-2. Naloxone counteracted all immunosuppressive effects of PM in vivo and in vitro. From this it was concluded that PM operates on the immune system directly, via opioid receptor mechanisms. Our data suggest that immunosuppression by PM, an opioid agonist, may be exerted by an inhibition of interleukin action on lymphocytes, and they confirm the important role of opiate receptors in lymphocyte function.
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PMID:Immunosuppression by a novel analgesic-opioid agonist. 249 11

The effect of intravenously injected dexamethasone on the febrile response of rabbits to Polyinosinic: Polycytidylic acid (Poly I:C), lipopolysaccharide (LPS) and interleukin 1/endogenous pyrogen (IL1/E.P.) was studied. Dexamethasone (1 mg/kg) attenuated the febrile response to Poly I:C (5 micrograms/kg) but only if administered between 0.5 to 2 h before Poly I:C. If it was given after Poly I:C this resulted in a potentiation of the fever. Antagonism of the febrile response to Poly I:C by dexamethasone pre-treatment was dose-dependent and a maximal effect was observed with 3 mg/kg, a higher dose (6 mg/kg) resulted in a lesser effect on the Poly I:C fever. DEX injected alone (0.5-6 mg/kg) did not have any effect on body temperature. Fevers in response to LPS (50 ng/kg) and IL1/E.P. were also attenuated by dexamethasone. It is concluded that Poly I:C, LPS and IL1/E.P. induce fever by a common mechanism which is either directly or indirectly inhibited by dexamethasone.
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PMID:Dexamethasone pre-treatment is antipyretic toward polyinosinic: polycytidylic acid, lipopolysaccharide and interleukin 1/endogenous pyrogen. 349 38

The murine plasmacytomas MOPC-104E and J558 secrete IgM-lambda and IgA-lambda, respectively, which are antibodies to alpha, 1-3 dextran, a constituent of dextran-S (DEX-S) extracted from Leuconostoc mesenteroides. A single i.p. injection of 10 microgram DEX-S into BALB/c mice from 7 days before and up to 3 days after the implantation of 5 x 10(3) plasmacytoma cells protected the BALB/c mice from developing the tumors. Immunization with other antigens, such as Escherichia coli lipopolysaccharide, inulin (alpha, 1-6 linkage), and dextran T-10 (no known alpha, 1-3 linkages) did not protect the mice from developing the tumors. Growth of LPC-1 was not affected by DEX-S. The mechanism of this growth inhibition is unknown. It does not appear to depend solely on binding of antigen to tumor cells, and the limits of the effective time intervals between antigen and tumor injection suggest dependence on the presence of antibody to alpha-1,3 dextran.
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PMID:Effect of dextran-S (alpha, 1-3 dextran) on the growth of plasmacytomas MOPC-104E and J558. 615 34

We have previously shown that chlorpromazine (CPZ) inhibits tumour necrosis factor (TNF) production and protects against endotoxic shock in mice. In this paper we investigated the effect of pretreatment with CPZ, 4 mg/kg i.p. 30 min before, compared with dexamethasone (DEX; 3 mg/kg) on the induction of other endotoxin (lipopolysaccharide; LPS)-induced cytokines in the serum of mice, i.e. interleukin-1 alpha (IL-1 alpha), IL-6 and IL-10, and TNF. We also studied the effect of CPZ on serum and spleen-associated TNF. Both DEX and CPZ inhibited TNF production, whereas induction of IL-1 and IL-6 was inhibited by DEX but not by CPZ. DEX did not affect IL-10, while CPZ potentiated its induction. CPZ also inhibited spleen-associated TNF induction in LPS-treated mice, suggesting an effect on the synthesis of TNF. CPZ inhibited TNF induction by Gram-positive bacteria (heat-killed Staphylococcus epidermidis) and by anti-CD3 monoclonal antibodies. Intraperitoneal administration of CPZ also inhibited the induction of brain-associated TNF induced by intra-cerebroventricular injection of LPS. Therefore, CPZ is a more specific inhibitor of TNF production than DEX; in particular, CPZ increased the induction of IL-10, which is a 'protective' cytokine known to inhibit LPS toxicity and TNF production. CPZ inhibited TNF production in vivo, irrespective of the TNF stimulus used to induce TNF. Finally, CPZ did not induce the 'rebound' effect of DEX that, when given 24 hr before LPS, potentiates TNF production, but it did inhibit TNF production after 24 hr.
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PMID:Chlorpromazine specifically inhibits peripheral and brain TNF production, and up-regulates IL-10 production, in mice. 792 90

To understand the basis for the refractory nature of acute respiratory distress syndrome (ARDS) to glucocorticoids, the effects of dexamethasone pretreatment (DEX, 2 mg/kg, intraperitoneally) on the kinetics of airway tumor necrosis factor-alpha (TNF alpha) and macrophage inflammatory protein 2 (MIP-2) production, and polymorphonuclear leukocyte (PMN) influx after intratracheal lipopolysaccharide (LPS) (1 mg/kg) in rats were investigated. In the absence of exogenous glucocorticoids, TNF alpha and MIP-2 levels in bronchoalveolar lavage (BAL) fluid peaked at 21 and 300 ng, respectively, by 3 h. DEX pretreatment resulted in a 74% reduction in BAL TNF alpha, yet MIP-2 accumulation was unchanged. In addition, DEX reduced PMN influx at 5 h by 58.4% to 4.1 +/- 0.7 x 10(6) PMN (n = 5). DEX, however, did not mitigate the 3-fold increase in total BAL protein observed at 5 h, attributable to albumin influx. The effects of subacute DEX treatment (3.8 mg/kg per day, for 3 days) on cell-surface expression of the adhesion molecules CD11a, CD11b, and L-selectin were determined by flow cytometric analysis of peripheral blood and autologous BAL PMN. Compared with peripheral blood PMN, exudative PMN had 4-fold greater CD11b expression, no change in CD11a, and loss of L-selectin immunoreactivity 5 h after LPS challenge. The upregulation of CD11b on exudative PMN was insensitive to DEX pretreatment, which, together with a failure to suppress MIP-2 levels, provides a possible explanation for the lack of efficacy of steroids in the management of ARDS.
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PMID:Glucocorticoid effects in an endotoxin-induced rat pulmonary inflammation model: differential effects on neutrophil influx, integrin expression, and inflammatory mediators. 867 28

We tested the relative efficacy of free dexamethasone, dexamethasone containing liposomes and free liposomes in preventing superoxide anion, O-2 generation by neutrophils. O-2 production by 5 x 10(5) neutrophils, whether primed or not with lipopolysaccharide, was stimulated by phorbol 12-myristate 13-acetate (PMA) to 13.4 +/- 1.3 nmoles after 15 minutes compared to 1.2 +/- 0.3 nmoles with nonstimulated cells. Free liposomes but not dexamethasone (dexa) decreased non-stimulated as well as PMA-induced O-2 generation. Dexa-containing phosphatidylcholine from egg yolk: phosphatidylserine from bovine brain (PC:PS 7:3) liposomes, unlike free dexa, diminished PMA-stimulated O-2 production in a dose-dependent manner with a maximal effect at 37.5 micrograms/ml phospholipid (6.6 +/- 1.6 nmoles). The kinetics of cytochrome-c reduction revealed that decreased O-2 production resulted from an extended lag-time of release to almost 8 minutes with PMA induction and consequently led to the conclusion that liposomes modified the activity of NADPH oxidase as well as that of protein kinase C. Liposomes prepared with PC and PS of natural origin had a greater inhibitory effect on O-2 generation by neutrophils than dipalmitoylphosphatidylcholine (DPPC) and phosphatidylethanolamine from egg yolk (PE):PC (3:1) liposomes. When 100 microM of Ca2+ was added to the medium, the inhibitory action of liposomes prepared with egg yolK PC and DPPC was increased by 30 and 60% respectively, while that of PS and PE:PC was prevented. We also verified that liposomes by themselves, even if phagocytized, did not induce O-2 generation or its concentration was too low to be detected by this technique. From the clinical point of view, some formulations delayed non-induced and PMA-induced O-2 generation, thus adding to the anti-inflammatory effect of the glucocorticoid they transported.
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PMID:Modulation of noninduced and phorbol ester-induced generation of superoxide anion by free liposomes and liposomes containing dexamethasone. 904 63

The effects of a combination of dexamethasone (DEX, an inhibitor of inducible nitric oxide synthase (iNOS) synthesis) and aminoguanidine (AG, an inhibitor of iNOS activity) on the anesthetized rat treated with endotoxin (lipopolysaccharide, LPS) were examined. In addition, we investigated whether a complete inhibition of nitric oxide (NO) formation caused by LPS prevents the hypotension, restores the vascular hyporeactivity to normal and improves the survival rate. The combination of DEX (3 mg/kg at 30 min prior to LPS) plus AG (15 mg/kg at 2 h after LPS) inhibited the overproduction of nitrate (an indicator of NO) and prevented the development of delayed hypotension, but further enhanced tachycardia in rats treated with LPS for 6 h. In addition, the vascular hyporeactivity to norepinephrine (NE) was, however, only partially restored in endotoxemic rats treated with DEX plus AG. During the experimental period, the survival rate of LPS-rats treated with DEX plus AG was also improved when compared to that of rats treated with LPS only. The beneficial effects of the combined therapy with DEX plus AG on rats with endotoxemia, suggesting that (i) combined treatment of animals with DEX plus AG may reduce some of the detrimental effects of LPS and (ii) NO only partially contributes to the vascular hyporeactivity in endotoxic shock.
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PMID:Combined effects of dexamethasone and aminoguanidine on rats with endotoxemia. 953 19

A single intraperitoneal injection of lipopolysaccharide (LPS) causes a biphasic suppression of testicular steroidogenesis in adult rats, with inhibition at 6 h and 18-24 h after injection. The inhibition of steroidogenesis is independent of the reduction in circulating LH that also occurs after LPS treatment, indicating a direct effect of inflammation at the Leydig cell level. The relative contributions to this inhibition by intratesticular versus systemic responses to inflammation, including the adrenal glucocorticoids, was investigated in this study. Adult male Wistar rats (eight/group) received injections of LPS (0.1 mg/kg i.p.), dexamethasone (DEX; 50 microg/kg i.p.), LPS and DEX, or saline only (controls), and were killed 6 h, 18 h and 72 h later. Treatment with LPS stimulated body temperature and serum corticosterone levels measured 6 h later. Administration of DEX had no effect on body temperature, but suppressed serum corticosterone levels. At the dose used in this study, DEX alone had no effect on serum LH or testosterone at any time-point. Expression of mRNA for interleukin-1beta (IL-1beta), the principal inflammatory cytokine, was increased in both testis and liver of LPS-treated rats. Serum LH and testosterone levels were considerably reduced at 6 h and 18 h after LPS treatment, and had not completely recovered by 72 h. At 6 h after injection, DEX inhibited basal IL-1beta expression and the LPS-induced increase of IL-1beta mRNA levels in the liver, but had no effect on IL-1beta in the testis. The effects of DEX on IL-1beta levels in the liver were no longer evident by 18 h. In LPS-treated rats, DEX caused a significant reversal of the inhibition of serum LH and testosterone at 18 h, although not at 6 h or 72 h. Accordingly, DEX inhibited the systemic inflammatory response, but had no direct effect on either testicular steroidogenesis or intra-testicular inflammation, at the dose employed. These data suggest that the inhibition of Leydig cell steroidogenesis at 6 h after LPS injection, which was not prevented by co-administration of DEX, is most likely due to direct actions of LPS at the testicular level. In contrast, the later Leydig cell inhibition (at 18 h) may be attributable to extra-testicular effects of LPS, such as increased circulating inflammatory mediators or the release of endogenous glucocorticoids, that were inhibited by DEX treatment. These data indicate that the early and late phases of Leydig cell inhibition following LPS administration are due to separate mechanisms.
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PMID:Differential effects of dexamethasone treatment on lipopolysaccharide-induced testicular inflammation and reproductive hormone inhibition in adult rats. 1113 83

(1) Septic shock represents an important risk factor for patients critically ill. This pathology has been largely demonstrated to be a result of a myriad of events. Glucocorticoids represent the main pharmacological therapy used in this pathology. (2) Previously we showed that ATP-sensitive potassium (KATP) channels are involved in delayed vascular hyporeactivity in rats (24 h after Escherichia coli lipopolysaccharide (LPS) injection). In LPS-treated rats, we observed a significant hyporeactivity to phenylephrine (PE) that was reverted by glybenclamide (GLB), and a significant increase in cromakalim (CRK)-induced hypotension. (3) We evaluated the effect of dexamethasone (DEX 8 mg kg-1 i.p.) whether on hyporeactivity to PE or on hyperreactivity to CRK administration, in vivo, in a model of LPS (8 x 106 U kg-1 i.p.)-induced endotoxemia in urethane-anaesthetised rats. (4) DEX treatment significantly reduced, in a time-dependent manner, the increased hypotensive effect induced by CRK in LPS-treated rats. This effect was significantly (P<0.05) reverted by the glucocorticoid receptor antagonist RU38486 (6.6 mg kg-1 i.p.). (5) GLB-induced hypertension (40 mg kg-1 i.p.), in LPS-treated rats, was significantly inhibited by DEX if administered at the same time of LPS. (6) Simultaneous administration of DEX and LPS to rats completely abolished the hyporeactivity to PE observed after 24 h from LPS injection. (7) In conclusion, our results suggest that the beneficial effect of DEX in endotoxemia could be ascribed, at least in part, to its ability to interfere with KATP channel activation induced by LPS. This interaction may explain the improvement of vascular reactivity to PE, mediated by DEX, in LPS-treated rats, highlighting a new pharmacological activity to the well-known anti-inflammatory properties of glucocorticoids.
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PMID:Dexamethasone improves vascular hyporeactivity induced by LPS in vivo by modulating ATP-sensitive potassium channels activity. 1296 38


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