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 have evaluated the quantitative relationship between lipopolysaccharide (LPS, endotoxin), fibrinopeptide A (FPA), antithrombin (AT), protein C (PC) and extrinsic pathway inhibitor (EPI) in plasma from 39 consecutively admitted patients with systemic meningococcal disease (SMD). The most severely ill patients with fulminant meningococcal septicemia (n = 13, 6 dead) had significantly (p less than 0.01) higher plasma levels of LPS and FPA and lower levels of PC and AT on admission as compared with the less severe clinical presentations (n = 26, 1 dead). The levels of EPI on admission were significantly (p less than 0.05) higher in nonsurvivors vs survivors with fulminant septicemia. As the disease progressed, the levels of LPS, FPA, AT and PC declined, while the levels of EPI increased. Three of six nonsurviving septicemic patients had levels of EPI greater than 200% within 16 hours of admission vs two of 30 survivors (p = 0.02). The results suggest that increasing levels of LPS in SMD elicit increasing consumption coagulopathy, contributing to the organ pathophysiology. The kinetics of EPI, inhibiting the thromboplastin-FVIIa-FXa complex, differs markedly from the kinetics of AT and PC i.e. increases as opposed to decreases.
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PMID:The quantitative association of plasma endotoxin, antithrombin, protein C, extrinsic pathway inhibitor and fibrinopeptide A in systemic meningococcal disease. 251 Mar 54

Lactoferrin is a prominent component of neutrophil secondary granules, and its blood concentration is increased in certain inflammatory diseases. In contrast to the well-described biochemical characterization of lactoferrin as an iron-binding protein, its physiologic role in the regulation of inflammation and other host defense mechanisms is unclear. In this report, we provide evidence that lactoferrin has a potent heparin-neutralizing activity during thrombin inhibition by the serine proteinase inhibitors (serpins) antithrombin and heparin co-factor II. Activated neutrophil supernatant, which contains lactoferrin and other heparin-binding proteins, could neutralize the heparin-dependent antithrombin-thrombin inhibition reaction. The addition of lactoferrin to plasma corrected the heparin-induced prolongation of blood plasma coagulation as measured by the activated partial thromboplastin time (aPTT). Treatment of whole blood with specific inflammatory mediators, fMLP, lipopolysaccharide (LPS), and tumor necrosis factor-alpha (TNF-alpha) increased the concentration of both plasma lactoferrin and platelet factor 4 while inhibiting the blood anticoagulant activity of heparin as measured by the aPTT. These results suggest that the prothrombotic sequelae of some inflammatory processes may be partly due to various agonists that release neutrophil lactoferrin, which can then neutralize glycosaminoglycan-dependent serpin-thrombin inhibition reactions.
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PMID:Neutralization of heparin activity by neutrophil lactoferrin. 781 95

The effect of inhibitors of cytokine release and plasma coagulation on lipopolysaccharide (LPS)-induced tissue factor and interleukin-6 (IL-6) was investigated. Dexamethasone, an inhibitor of cytokine production, inhibited LPS-induced tissue factor and IL-6 release by mononuclear cells (MNC), but enhanced IL-1beta-evoked tissue factor activity. Clinical antithrombin (AT) concentrates inhibited, in a dose-dependent manner, tissue factor and IL-6 production by MNC and human umbilical vein endothelial cells (HUVEC). The three AT preparations tested, when compared using the same antithrombin unit, had different potencies. Activated protein C (APC) augmented LPS stimulation of HUVEC and further increased the production of tissue factor and IL-6. The same effect was not observed with MNC; LPS-induced tissue factor and IL-6 release were unaffected by APC. Truncated tissue factor pathway inhibitor (TFPI1-161) inhibited LPS-induced MNC tissue factor and IL-6 production, but was unable to prevent LPS stimulatory activity on HUVEC. These data suggest a complex interaction between the coagulation pathway and the cytokine network.
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PMID:Inhibition of tissue factor and cytokine release. 890 80

Interleukin-10 (IL-10) has been found to inhibit lipopolysaccharide (LPS)-induced tissue factor expression by monocytes in vitro. To determine the effects of IL-10 on LPS-induced activation of the hemostatic mechanisms in vivo, we performed a placebo-controlled, cross-over study of human endotoxemia. Two groups of eight volunteers were challenged with LPS (4 ng/kg) on two occasions: once in conjunction with placebo, and once with recombinant human IL-10 (rhIL-10; 25 microg/kg). In group 1, placebo or rhIL-10 was given 2 minutes before LPS challenge, group 2 received placebo or rhIL-10 1 hour after LPS administration. Pretreatment with rhIL-10 reduced both LPS-induced activation of the fibrinolytic system (plasma concentrations of tissue type plasminogen activator, plasmin-alpha2-antiplasmin complexes, and D-dimer), and inhibition of fibrinolysis (plasma levels of plasminogen activator inhibitor 1), whereas posttreatment only inhibited the latter response. Both IL-10 pre- and posttreatment attenuated activation of the coagulation system (plasma levels of prothrombin fragment F1 + 2 and thrombin-antithrombin complexes). These results indicate that rhIL-10, besides its well-described inhibitory effects on cytokine release, potently modulates the fibrinolytic system and inhibits the coagulant responses during endotoxemia.
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PMID:Interleukin-10 inhibits activation of coagulation and fibrinolysis during human endotoxemia. 910 87

Previous work has shown that pre-treatment with the thrombin inhibitor recombinant desulfato-hirudin prevented fibrin formation and respiratory dysfunction in porcine lipopolysaccharide shock. We examined the effects of delayed administration of recombinant desulfato-hirudin in bacterial lipopolysaccharide shock. Miniature pigs were studied under anaesthesia and ventilation, and received a bacterial lipopolysaccharide infusion (2 microg/kg/h) for 7 h; recombinant desulfato-hirudin was started 1 h after bacterial lipopolysaccharide in 10 animals (bolus 12.9 nmol/kg; continuous infusion 6.5 nmol/ kg/h); 10 randomised control animals received saline instead of recombinant desulfato-hirudin. Fibrin and thrombin-antithrombin complex levels in plasma were significantly lower in bacterial lipopolysaccharide+recombinant desulfato-hirudin animals than in controls. Both groups displayed a similar rise in pulmonary vascular resistance and other parameters of lung dysfunction; only lung tissue wet/dry ratio was lower in recombinant desulfato-hirudin-treated than in control animals. Both groups had similar circulatory alterations. Recombinant desulfato-hirudin interrupted coagulation activation during ongoing bacterial lipopolysaccharide-induced shock in pigs even when administered with a delay of one hour after start of the bacterial lipopolysaccharide infusion. A protective effect of delayed recombinant desulfato-hirudin administration on bacterial lipopolysaccharide-induced acute lung injury and alterations in the systemic circulation could not be demonstrated in this experiment.
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PMID:Delayed treatment with desulfato-hirudin prevents fibrin formation in lipopolysaccharide-induced shock. 961 Sep 58

The standard enzyme-linked immunosorbent assay (ELISA) for anticardiolipin antibodies (ACA) detects a heterogenous group of antibodies against cardiolipin on its own, beta2-glycoprotein I (beta2GPI), and, potentially, other phospholipid-binding plasma proteins from bovine or human origin. In an attempt to identify new proteic targets of ACA, we selected 6 patients who possessed cofactor-dependent ACA but no antibody to human or bovine beta2GPI detectable in the beta2GPI-ELISA. Three of these samples proved to recognize beta2GPI in combination with cardiolipin, but not beta2GPI directly immobilized on gamma-irradiated polystyrene or agarose beads. In the other cases, the component required for ACA binding was purified from adult bovine serum or plasma by means of ammonium sulfate precipitation and chromatography on Phenyl-Sepharose, diethyl aminoethyl (DEAE)-cellulose, heparin-Ultrogel, and Sephacryl S-300 columns. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) analysis coupled to N-terminal amino acid microsequencing identified the cofactors of patients no. 4, 5, and 6 ACA as lipopolysaccharide binding protein (LBP), complement C4b-binding protein (C4BP), and the thrombin-antithrombin (AT) complex, respectively. Adsorption of each of these cofactor preparations with cardiolipin liposomes led to suppression of ACA reactivity, concomitant with the loss of bands from SDS gels corresponding to sequenced material. Bacterial lipopolysaccharide (which forms high-affinity complexes with LBP) specifically neutralized the cofactor activity of the LBP preparation in a concentration-dependent manner. Bovine serum and plasma, as well as the C4BP preparation, optimally supported the binding of a rabbit anti-C4BP antiserum to immobilized cardiolipin. The binding of a rabbit anti-AT antiserum to solid-phase cardiolipin was sustained by the thrombin-AT preparation and bovine serum, but neither by bovine plasma nor by native AT, thus reproducing the behavior of patient no. 6 ACA. Taking advantage of the restricted recognition by the latter ACA of a cofactor from bovine origin appearing upon clotting, we studied the generation of such activity in human plasma supplemented with bovine AT or bovine prothrombin before clotting. In these conditions, patient no. 6 antibody binding to cardiolipin required the addition of bovine AT, whereas addition of bovine prothrombin alone was ineffective. We therefore concluded that those ACA targeted bovine AT once it has been modified/cleaved by thrombin. These findings underline the wide heterogeneity of ACA and the links that may exist between various coagulation pathways, inflammation and the complement system.
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PMID:Some anticardiolipin antibodies recognize a combination of phospholipids with thrombin-modified antithrombin, complement C4b-binding protein, and lipopolysaccharide binding protein. 1036 Nov 22

During sepsis, lipopolysaccharide (LPS) triggers the development of disseminated intravascular coagulation (DIC) via the tissue factor-dependent pathway of coagulation resulting in massive thrombin generation and fibrin polymerization. Recently, animal studies demonstrated that hirudin reduced fibrin deposition in liver and kidney and decreased mortality in LPS-induced DIC. Accordingly, the effects of recombinant hirudin (lepirudin) was compared with those caused by placebo on LPS-induced coagulation in humans. Twenty-four healthy male subjects participated in this randomized, double-blind, placebo-controlled, parallel group study. Volunteers received 2 ng/kg LPS intravenously, followed by a bolus-primed continuous infusion of placebo or lepirudin (Refludan, bolus: 0.1 mg/kg, infusion: 0.1 mg/kg/h for 5 hours) to achieve a 2-fold prolongation of the activated partial thromboplastin time (aPTT). LPS infusion enhanced thrombin activity as evidenced by a 20-fold increase of thrombin-antithrombin complexes (TAT), a 6-fold increase of polymerized soluble fibrin, termed thrombus precursor protein (TpP), and a 4-fold increase in D-dimer. In the lepirudin group, TAT increased only 5-fold, TpP increased by only 50%, and D-dimer only slightly exceeded baseline values (P <.01 versus placebo). Concomitantly, lepirudin also blunted thrombin generation evidenced by an attenuated rise in prothrombin fragment levels (F(1 + 2), P <. 01 versus placebo) and blunted the expression of tissue factor on circulating monocytes. This experimental model proved the anticoagulatory potency of lepirudin in LPS-induced coagulation activation. Results from this trial provide a rationale for a randomized clinical trial on the efficacy of lepirudin in DIC. (Blood. 2000;95:1729-1734)
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PMID:Lepirudin blunts endotoxin-induced coagulation activation. 1068 31

Triggering of the tissue factor (TF)-dependent coagulation pathway is considered to underlie the generation of a procoagulant state during endotoxemia. To determine the in vivo pattern of monocytic TF messenger RNA (mRNA) expression during endotoxemia, 10 healthy volunteers were injected with lipopolysaccharide (LPS, 4 ng/kg) and blood was collected before and 0.5, 1, 2, 3, 4, 6, 8, and 24 hours after LPS administration. Total blood RNA was isolated and amplified by NASBA (nucleic acid sequence-based amplification), followed by quantitation of TF mRNA by an electrochemiluminescence (ECL) assay. To compare the pattern of coagulation activation with the kinetics of monocytic TF mRNA expression, we measured plasma levels of markers of thrombin generation, thrombin-antithrombin (TAT) complexes, and prothrombin fragment 1 + 2 (F1 + 2). Baseline value (mean +/- SEM) of the number of TF mRNA molecules per monocytic cell was 0.08 +/- 0.02. A progressive and significant (P <.0001) increase in TF expression was observed after LPS injection (+0.5 hour: 0.3 +/- 0.1, +1 hour: 1.3 +/- 0.9, +2 hours: 4.1 +/- 0.9), peaking at +3 hours (10 +/- 1.9 TF mRNA molecules per monocyte). As TF mRNA levels increased, thrombin generation was augmented. Peak levels of TAT and F1 + 2 were reached later (at t +4 hours) than those of TF mRNA. TF mRNA, TAT, and F1 + 2 levels returned to baseline after 24 hours. In conclusion, we used a NASBA/ECL-based technique to quantify TF mRNA in whole blood during human endotoxemia and observed a 125-fold increase in TF mRNA levels. Our data demonstrate a pivotal role for enhanced TF gene activity in the activation of coagulation after LPS challenge. (Blood. 2000;96:554-559)
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PMID:The in vivo kinetics of tissue factor messenger RNA expression during human endotoxemia: relationship with activation of coagulation. 1088 18

Besides its central role in coagulatory pathways, thrombin is known to be a key mediator of macrophage and granulocyte activation in vitro. During recent years the concept of thrombin inhibition by the specific thrombin inhibitor, hirudin, has been established to treat septic disorders. Since basic mechanisms of sepsis include leukocyte/endothelial cell interaction and deterioration of capillary perfusion, we hypothesized that hirudin modulates leukocyte activation and microvascular injury. Severe endotoxemia was induced in Syrian hamsters by intravenous administration of endotoxin (lipopolysaccharide [LPS], E. coli, 2mg/kg) at 0 h. Hirudin (0.25 mg/kg/h) was substituted intravenously during the 4 h after the induction of endotoxemia (n = 7, hirudin). In control animals (n = 6, control) LPS was given without hirudin substitution. In skinfold chamber preparations leukocyte/endothelial cell interaction and functional capillary density (FCD, measure of capillary perfusion) were analyzed during a 24-h period after LPS injection using intravital fluorescence microscopy. Hirudin effectively normalized thromboplastin time and antithrombin activity when compared to controls (P < 0.05, ANOVA). However, hirudin did not attenuate LPS-induced arteriolar and venular leukocyte adherence, and even tended to increase leukocyte adherence after 24 h (P > 0.05, MANOVA). In parallel, addition of hirudin led to a significant deterioration of FCD over time when compared to controls (hirudin: baseline = 171 +/- 19 cm(-1) versus 16 +/- 9 at 24 h; control: baseline = 150 +/- 20 cm(-1) versus 62 +/- 18 at 24 h; P < 0.05). The fall in FCD in hirudin animals was associated with a significant increase of wet-to-dry weight ratios in lung, kidney, muscle, and small intestine (P < 0.05 versus control, ANOVA). Thus our study does not indicate a protective effect of hirudin on microcirculation during endotoxemia, despite an improvement of coagulatory parameters. This result may at least in part explain the lack of efficacy of hirudin on lethality during endotoxemia and sepsis.
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PMID:The thrombin antagonist hirudin fails to inhibit endotoxin-induced leukocyte/endothelial cell interaction and microvascular perfusion failure. 1109 85

Proinflammatory cytokines such as tumor necrosis factor-alpha (TNF-alpha) are critically involved in activation of the coagulation system in sepsis, leading to disseminated intravascular coagulation (DIC). Natural anticoagulants such as antithrombin (AT) and activated protein C (APC) regulate the coagulation system by inhibiting thrombin generation. In addition to these anticoagulant effects, both AT and APC have been shown to attenuate inflammatory responses induced by various noxious stimuli in rats such as lipopolysaccharide (LPS) challenge. AT promotes the endothelial release of prostacyclin, a potent anti-inflammatory prostaglandin that inhibits the monocytic production of TNF-alpha, by interacting with cell-surface heparin-like substances. APC directly inhibits the production of TNF-alpha by inhibiting the activation of both nudear factor kappaB (NFkappaB) and activator protein-1 in monocytes stimulated with LPS. Thrombomodulin, an endothelial membranous integral protein that binds thrombin, exerts anti-inflammatory effects by generating APC. Furthermore, tissue factor pathway inhibitor, a natural anticoagulant for the extrinsic pathway of the coagulation system, also attenuates LPS-induced inflammatory responses in rats by inhibiting TNF-alpha production by monocytes. These findings strongly suggest that natural anticoagulants could regulate inflammatory responses as well as the coagulation system in rats by inhibiting the monocytic production of TNF-alpha. Such anti-inflammatory properties of natural anticoagulants are potentially important for their replacement in patients with sepsis who frequently develop DIC and organ failure as inflammatory responses.
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PMID:Regulation of inflammatory responses by natural anticoagulants. 1191 84


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