UMLS:C0243026 - FACTA Search

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Query: UMLS:C0243026 (sepsis)
52,417 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Administration of purified hemoglobin (Hb) as a cell-free resuscitation fluid is associated with multiple organ toxicities. Many of these toxicities are characteristic of the pathophysiological effects of bacterial endotoxins (lipopolysaccharide, LPS). To better understand the potential role of LPS in the observed in vivo toxicities of Hb, we examined mixtures of Hb and LPS for evidence of LPS-Hb complex formation. LPS-Hb complexes were demonstrated by three techniques: ultrafiltration through 300 kDa cut-off membranes, which distinguished LPS in complexes (87-89% < 300 kDa) from LPS alone (90% > 300 kDa); density centrifugation through sucrose, which distinguished denser LPS alone from LPS-Hb complexes; and precipitation by 67% ethanol, which demonstrated 2-3 fold increased precipitability of Hb in complexes compared to Hb alone. Interaction of LPS with Hb was also associated with markedly increased biological activity of LPS, as manifested by enhancement of LPS activation of Limulus amebocyte lysate (LAL), increased release of human mononuclear cell tissue factor, and enhanced production of human endothelial cell tissue factor. These results demonstrated that hemoglobin can serve as an endotoxin binding protein, and that this interaction results in the alteration of several of the physical characteristics of LPS and enhancement of the biological activities of LPS. These findings suggest that a mechanism for the toxicity of infused Hb in vivo may involve potentiation of the biological effects of LPS. In addition, these observations suggest a mechanism by which LPS-related morbidity during sepsis could be enhanced by erythrocyte hemolysis.
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PMID:Hemoglobin: a newly recognized binding protein for bacterial endotoxins (LPS). 783 56

The baboon model of E. coli sepsis illustrates three concepts with respect to the host response and vascular endothelium. First, the endothelium is the primary target. E. coli sepsis is an acute inflammatory disease of the vascular endothelium. Second, the endothelium is not a passive target. Initially it regulates both the inflammatory and coagulopathic aspects of E. coli sepsis through membrane associated regulatory receptor/plasma protein assemblies including protein C/thrombomodulin, activated protein C/protein S, C4bBP/protein S, tissue factor pathway inhibitor/Xa, antithrombin III/glycosaminoglycans. Third, when overridden by inflammatory events, the endothelium can change its anticoagulant phenotype and mount a massive procoagulant fibrinolytic counter-attack on its luminal side through the expression of tissue factor and release of tissue plasminogen activator. Fourth, again when overridden by inflammatory events, the endothelium can change its antioxidant phenotype and produce a "distal" tissue hypoxia on its abluminal side through induction of free radical generation and peroxidation of mitochondrial lipid membranes of those tissues with high metabolic rates. It has become increasingly clear that the so-called anticoagulant systems which act on the proximal factors of the clotting cascade (protein C, TFPI, AT-III, PGI2) also attenuate the amplification of the inflammatory response. Aspects of the mechanism by which this occurs are coming to light. This includes the attenuation of Il-6 response by TFPI and the attenuation of the complement effects by C4bBP/PS. The specifics of these observations in the E. coli sepsis model will be reviewed.
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PMID:Studies on the inflammatory-coagulant axis in the baboon response to E. coli: regulatory roles of proteins C, S, C4bBP and of inhibitors of tissue factor. 783 58

Blood-borne lipopolysaccharide (LPS) is thought to be a major inducer of sepsis; however, it remains controversial whether an ongoing exposure to LPS is required to maintain the underlying systemic inflammatory response. To address this question, we have studied the expression of tumor necrosis factor alpha (TNF-alpha), interleukin 1-beta (IL-1 beta), and the procoagulant protein tissue factor induced by LPS ex vivo in whole human blood. The addition of a 1-ng/ml bolus of LPS to blood rapidly induced mRNA expression of all three genes. The mRNA levels peaked after 1 to 2 h, depending on the gene, and then declined to baseline after approximately 5 h. The decline in mRNA expression was not caused by a loss of responsiveness of the blood cells to LPS but rather correlated with the neutralization of LPS inflammatory activity by plasma components. Furthermore, administering a 1-ng/ml dose of LPS in six hourly aliquots of 167 pg/ml greatly prolonged the expression of mRNAs and induced a much greater release of TNF-alpha and IL-1 beta protein than did a single bolus. Dosing by repeated additions was more effective than a single bolus in inducing secretion of TNF-alpha and IL-1 beta at LPS levels of < or = 10 ng/ml, which corresponded to the LPS neutralization capacity of plasma. Finally, both mRNA expression and protein secretion induced by repeated administration of LPS were rapidly reversed by the addition of the LPS-neutralizing protein, bactericidal/permeability-increasing protein, even after several hours of stimulation. These results indicate that continuous or repeated exposure to LPS is required to maintain the expression of inflammatory genes and that the activated state is rapidly reversed with LPS neutralization.
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PMID:Prolonged expression of lipopolysaccharide (LPS)-induced inflammatory genes in whole blood requires continual exposure to LPS. 789 Mar 95

Sepsis is the most important cause of mortality in the Intensive Care Units. At present, sepsis is understood to be the inflammatory response of the host to infection, rather than a direct effect of microbial aggression. From the clinical standpoint, this inflammatory response is known as systemic inflammatory response syndrome (SIRS). Pathophysiologically, SIRS is characterized by the activation of several groups of cell (monocytes/macrophages, PMNs, and endothelial cells) and by the release of inflammatory mediators (cytokines and others). Tumor necrosis factor (TNF) is the first cytokine released by endotoxin action over monocyte/macrophage. TNF secretion, modulated by interferon gamma (IFN gamma) and interleukin 10 (IL-10), is followed by release of other cytokines such as interleukins (IL) (IL-1, IL-6 and IL-8). These mediators are able to act over hemostasis activating the extrinsic pathway through tissue factor expression. The action of the mediators over endothelial cells induces an increase in plasminogen activator inhibitor type 1 (PAI-1) levels with inhibition of fibrinolysis. Both coagulation activation and fibrinolysis blockade result in fibrin deposit in the microvascular system. The complexity of the mechanisms implicated in systemic inflammatory response make a general rule so difficult to establish, because patient response is highly individualized and it is not possible to know which moment of this dynamic process is being analyzed.
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PMID:Inflammatory mediators and their influence on haemostasis. 795 61

Tissue factor, the obligate cofactor for coagulation factor VII, plays an essential role in hemostasis by initiating the extrinsic pathway of blood coagulation upon vascular damage, making it a promising target for new anticoagulant therapies in the treatment of thrombosis and sepsis. The three-dimensional structure of the extracellular domain of tissue factor, determined by X-ray crystallography at a resolution of 2.4 A, consists of two domains of approximately equal size, with a topology characteristic of fibronectin type III modules. Comparison of tissue factor with the extracellular domain of the growth hormone receptor, which belongs to the same receptor superfamily, shows that the relative orientation between these domains as well as the domain-domain interface is very different. These differences have dramatic consequences for the residues in tissue factor that are homologous to the binding determinants of the growth hormone receptor. Alanine-scanning mutagenesis has identified tissue factor residues important for factor VIIa binding. The structure shows that the binding site is located in the domain-domain interface region but on the opposite side of the molecule compared to the growth hormone receptor, with the binding determinants residing on beta-strands rather than on loops.
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PMID:Structure of the extracellular domain of human tissue factor: location of the factor VIIa binding site. 808 3

Cationic antibacterial proteins (CAP) were purified from rabbit granulocytes, and the effects of CAP on lipopolysaccharide (LPS)-induced tissue factor generation by murine peritoneal macrophages and human blood monocytes were studied. CAP were purified from rabbit peritoneal leukocytes by using as an assay the agglutination of erythrocytes coated with Re-LPS. Two proteins with CAP activity, CAP18 (18 kDa) and CAP7 (7 kDa), were isolated by acid extraction, ethanol precipitation, affinity chromatography, gel filtration, and reverse-phase high-pressure liquid chromatography. On the basis of protein sequencing, CAP7 was identified as the C-terminal fragment of CAP18, designated CAP18(106-142). Various forms of LPS (S-LPS, Re-LPS, and lipid A) activate murine macrophages and human blood monocytes to generate tissue factor (tissue thromboplastin). Incubation of LPS for 18 h with partially purified CAP (heparin-Sepharose fraction) inhibited the capacity of LPS to induce tissue factor; however, purified CAP18 inhibited about 75% of the activity of S-LPS after 1 h of incubation. CAP more effectively inhibited S-LPS than Re-LPS or lipid A. Synthetic CAP18(106-142) inhibited LPS-induced tissue factor generation by murine macrophages. CAP18(106-142) has greater LPS-binding and LPS-neutralizing activities than CAP18. We hypothesize that CAP18 and the derivative peptide, CAP18(106-142), bind to LPS and alter the capacity of LPS to initiate disseminated intravascular coagulation. In this regard, CAP may have therapeutic potential for sepsis and endotoxin shock.
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PMID:Characterization of a rabbit cationic protein (CAP18) with lipopolysaccharide-inhibitory activity. 813 48

Human endothelial cells respond to bacterial endotoxin (lipopolysaccharide [LPS]) with changes that transform the endothelium into a surface with prominent procoagulant properties. Production of tissue factor (TF) in response to LPS is a major alteration that favors coagulation. Biologic activities of LPS have previously been shown to be enhanced by the presence of hemoglobin. Therefore, the ability of human hemoglobin (Hb) to modulate TF production by cultured human umbilical vein endothelial cells (HUVEC) was investigated. Cell-free Hb (10 mg/mL), either purified native (HbAo) or chemically cross-linked (alpha alpha Hb), was incubated with LPS (0.1 microgram/mL), and the mixtures then were added to HUVEC in culture. TF activity was quantified with a clotting assay and TF protein was measured with an enzyme-linked immunosorbent assay. Hb preparations greatly enhanced the production of TF activity (11- to 25-fold greater than TF produced by HUVEC alone) compared with minimal TF activity generated by LPS alone (only twofold greater than HUVEC alone). The enhancement of LPS-induced TF activity was Hb concentration-dependent over a range of 1 to 100 mg/mL. Cross-linked alpha alpha Hb also greatly enhanced the production of TF protein compared with TF protein generated by LPS alone (12-fold greater v 3.5-fold greater than HUVEC alone, respectively). The enhancement of LPS-induced TF protein was Hb concentration-dependent over a range of 0.1 to 2 mg/mL. Enhancement of TF activity by Hb required new protein synthesis. These results show that human Hb can augment the ability of LPS to induce endothelial cell TF and suggest that hemolysis associated with disseminated intravascular coagulation during sepsis may further stimulate coagulation. In addition, these results suggest a potential mechanism for generalized thrombosis in animals that has been associated with the infusion of cell-free Hb for resuscitation.
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PMID:Hemoglobin enhances the production of tissue factor by endothelial cells in response to bacterial endotoxin. 818 Mar 81

Plasma interleukin-6 (IL-6) was higher in patients with disseminated intravascular coagulation (DIC) than in those without DIC. Levels of IL-1 beta and TNF alpha were also significantly higher in patients with DIC. Plasma IL-6 was highest in patients with underlying sepsis and was also high in those with advanced solid cancer. Levels were high in some patients with acute promyelocytic leukaemia and were significantly higher in patients with organ failure than in those without this complication. Plasma IL-6 was higher in DIC patients showing a poor response to therapy than in those with a good response. Incubation with IL-6 caused significant increases in tissue factor activity in mononuclear cells and release of plasminogen activator-1 antigen from human umbilical vein endothelial cells. As increases in IL-6 might give rise to hypercoagulable and hypofibrinolytic states, this may be a cause of DIC and be related to prognosis and organ failure.
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PMID:Increased plasma level of interleukin-6 in disseminated intravascular coagulation. 821 55

Disseminated intravascular coagulation (DIC) is a common complication in sepsis, and may result from endotoxin-induced exposure of tissue factor on the surface of monocytes and endothelial cells. Tissue factor pathway inhibitor (TFPI) is a factor Xa-dependent feedback inhibitor of the tissue factor-factor VIIa complex. In the present study the effect on DIC of a two-domain TFPI analogue (2D-TFPI), consisting of the first two Kunitz domains of TFPI but lacking the third domain, was tested. DIC was induced in rabbits by two intravenous bolus injections of endotoxin from Escherichia coli (10 and 50 micrograms/kg) 24 h apart. Simultaneously with the last endotoxin injection an infusion of 2D-TFPI (0, 0.3, 1.0 or 3.0 mg/kg/h) was given. Blood samples were obtained at 0 h, 24 h and 31 h. At 31 h the animals were sacrificed and the kidneys were submitted to histological examination. The degree of fibrin deposition in glomeruli was scored blindly using an arbitrary scale from 0 to 3. Between 24 and 31 h the group receiving endotoxin alone showed a significant decrease in platelet count (65%), plasma fibrinogen (41%), antithrombin III (25%), and factor VIII (63%), and a significant prolongation of the aPTT (14%). Furthermore, massive fibrin deposition was detected in the renal glomeruli at 31 h. Infusions of 2D-TFPI inhibited all the endotoxin-induced changes in a dose-dependent manner. In conclusion, the data demonstrate that inhibition of the TF/FVIIa complex by infusion of 2D-TFPI significantly counteracts endotoxin-induced coagulopathy in rabbits, and might thus be an attractive drug for treatment of endotoxin-induced DIC in humans.
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PMID:The effect of two-domain tissue factor pathway inhibitor on endotoxin-induced disseminated intravascular coagulation in rabbits. 829 19

Regulation of tissue factor (TF) gene expression was studied in vivo employing a murine model system. In untreated mice, TF mRNA was detected in brain, lung, kidney, and heart by Northern blot analysis. After administration of lipopolysaccharide, steady-state levels of TF mRNA were unchanged in brain, decreased in heart, and increased in both kidney and lung. In the brain, Bergmann glia within the Purkinje cell layer of the cerebellum and neuroglia within the cerebral cortex expressed TF mRNA by in situ hybridization. Epidermal cells of the skin and tongue also expressed TF mRNA. At present, we have not identified the cell type(s) in the kidney and lung responsible for increased TF gene expression. These results demonstrate tissue- and cell-specific TF gene expression in vivo. Lipopolysaccharide-mediated increases in TF expression in the kidney and lung may promote fibrin deposition in these organs during Gram-negative sepsis.
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PMID:Murine tissue factor gene expression in vivo. Tissue and cell specificity and regulation by lipopolysaccharide. 831 56

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