Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0243026 (sepsis)
 52,417 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neisseria meningitidis, the cause of epidemic meningitis and acute lethal sepsis, synthesizes surplus lipopolysaccharides (LPSs) during growth, which are released as outer membrane vesicles (OMV) or "blebs". Meningococcal disease severity is related to plasma LPS levels. We have compared the biological activities of native outer membrane vesicles (nOMV) to those of purified Nm-LPS (Nm-LPS) and LPS-depleted OMV (dOMV) prepared from N. meningitidis. The LPS content of nOMV was determined spectrophotometrically by quantifying KDO and by silver-stained SDS-PAGE gels. The morphology of the preparations was studied by transmission electron microscopy. The Limulus amoebocyte lysate (LAL) assay was used to quantify LPS in the plasma solutions. The preparations were diluted in endotoxin-free heparin plasma to equal amounts of LPS (w/w) in the range 50-5000 pg/ml. The biological reactivity was tested by: (i) a monocyte target-assay (monocyte purity > or =96%); and (ii) a whole blood model, measuring the secretion of TNF-alpha and IL-6 induction of procoagulant activity in monocytes (PCA). In both models, nOMV induced dose-dependent cell responses (TNF-alpha, IL-6, PCA) similar to purified Nm-LPS, whereas dOMV induced minimal responses. However, LAL activity was significantly higher for nOMV than for purified Nm-LPS and dOMV. The cellular responses of purified Nm-LPS and nOMV were reduced (>95%) by a specific anti-CD14-antibody.
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PMID:Cellular activating properties and morphology of membrane-bound and purified meningococcal lipopolysaccharide. 1152 Oct 68

Septic shock, caused by exaggerated host responses to various microbial products typified by lipopolysaccharide (LPS), remains the leading cause of death in trauma patients. Gaining insight into the nature of host interactions with LPS will certainly facilitate attempts to develop effective anti-sepsis drugs. Tremendous progress has been made during the past few years in understanding the mechanisms of pathogen-induced host responses. Toll-like receptor (TLR) 4 and 2 have been implicated as major receptors for signaling initiated by LPS and many other microbial products following their binding to CD14. In addition, many signaling intermediates involved in LPS-induced cell activation, particularly activation of the transcription factor NF-kappaB, have been identified and characterized. Further investigations with these molecules will certainly reward us with more effective therapeutic drugs to treat septic shock as well as many other inflammatory and infectious disorders.
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PMID:Molecular mechanisms of NF-kappaB activation induced by bacterial lipopolysaccharide through Toll-like receptors. 1152 Oct 70

Innate immunity to Gram-negative bacteria involves regulated mechanisms that allow sensitive but limited responses to LPS. Two important pathways that lead to host cell activation and LPS deactivation involve: (i) LPS interactions with CD14 and Toll-like receptor 4 on cells (activation); and (ii) LPS sequestration by plasma lipoproteins (deactivation). Whereas these pathways were previously thought to be independent and essentially irreversible, we found that they are connected by a third pathway: (iii) the movement of LPS from host cells to plasma lipoproteins. Our data show that, in the presence of human plasma, LPS binds transiently to monocyte surfaces and then moves from the cell surface to plasma lipoproteins. Soluble CD14 enhances LPS release from cells in the presence of lipoproteins, whereas LPS binding protein and phospholipid transfer protein do not. The transfer of cell-bound LPS to lipoproteins is accompanied by reduced cell responses to the LPS, suggesting that the movement of LPS from leukocytes into lipoproteins may attenuate host responses to LPS in vivo. Preliminary data suggest that changes that occur in the plasma after trauma or during sepsis decrease LPS binding to leukocytes while greatly increasing the rate of LPS release from cells.
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PMID:Plasma constituents regulate LPS binding to, and release from, the monocyte cell surface. 1152 Oct 74

Calorie restriction (CR) is known to prolong the life span and maintain an active immune function in aged mice, but it is still not known if rodents under CR can respond optimally to bacterial infection. We report here on the influence of CR on the response of peritoneal macrophages to lipopolysaccharide, splenic NF-kappaB and NF-interleukin-6 (IL-6) activities, and mortality in polymicrobial sepsis induced by cecal ligation and puncture (CLP). Macrophages from 6-month-old C57BL/6 mice on a calorie-restricted diet were less responsive to lipopolysaccharide, as evidenced by lower levels of IL-12 and IL-6 protein and mRNA expression. Furthermore, in vitro lipopolysaccharide-stimulated macrophages from mice under CR also expressed decreased lipopolysaccharide receptor CD14 levels as well as Toll-like receptor 2 (TLR2) and TLR4 mRNA levels. In addition, the phagocytic capacity and class II (I-A(b)) expression of macrophages were also found to be significantly lower in mice under CR. Mice under CR died earlier (P < 0.005) after sepsis induced by CLP, which appeared to be a result of increased levels in serum of the proinflammatory cytokines tumor necrosis factor alpha and IL-6 and splenic NF-kappaB and NF-IL-6 activation 4 h after CLP. However, mice under CR survived significantly (P < 0.005) longer than mice fed ad libitum when injected with paraquat, a free radical-inducing agent. These data suggest that young mice under CR may be protected against oxidative stress but may have delayed maturation of macrophage function and increased susceptibility to bacterial infection.
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PMID:Effects of calorie restriction on polymicrobial peritonitis induced by cecum ligation and puncture in young C57BL/6 mice. 1152 18

The pathophysiological mechanisms involved in mixed bacterial infections caused by gram-positive and gram-negative bacteria are largely unknown. The present study examines the potential interaction between lipopolysaccharide (LPS) and peptidoglycan (PepG) in the induction of the sepsis-associated cytokines tumor necrosis factor-alpha (TNF-alpha), interleukin-6 (IL-6), and IL-10 in whole human blood. Plasma values of these cytokines were measured by enzyme immunoassays and a TNF bioassay. Co-administration of PepG (10 microg/mL) or muramyl dipeptide (MDP, 1 microg/mL) with LPS (10 ng/mL) caused significantly elevated values of TNF-alpha and IL-6 in the blood that could not be obtained by the sum of the values obtained by each stimulant alone, or by 3-fold higher doses of either bacterial component alone. This phenomenon was observed 1 h after stimulation, throughout the experimental period (24 h), and with different doses of LPS and PepG. In contrast, the release of IL-10 was not influenced by the co-administration of PepG or MDP with LPS. The TNF-alpha release induced by co-administration of LPS and PepG was abrogated after pretreatment with a monoclonal antibody against CD14 (18D11). Addition of PepG or MDP to whole blood caused a 2-fold increase in the surface expression of CD14 on monocytes, as measured by flow cytometry. In contrast, LPS caused decreased expression of this receptor. Our data suggest that PepG and MDP primes human whole blood leukocytes for LPS-induced release of proinflammatory cytokines. We speculate that synergy between PepG and LPS may contribute to the pathogenesis in sepsis caused by mixed bacterial infections.
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PMID:Peptidoglycan primes for LPS-induced release of proinflammatory cytokines in whole human blood. 1153 Oct 18

The lipopolysaccharide (LPS)-binding protein (LBP) has a concentration-dependent dual role in the pathogenesis of gram-negative sepsis: low concentrations of LBP enhance the LPS-induced activation of mononuclear cells (MNC), whereas the acute-phase rise in LBP concentrations inhibits LPS-induced cellular stimulation. In stimulation experiments, we have found that LBP mediates the LPS-induced cytokine release from MNC even under serum-free conditions. In biophysical experiments we demonstrated that LBP binds and intercalates into lipid membranes, amplified by negative charges of the latter, and that intercalated LBP can mediate the CD14-independent intercalation of LPS into membranes in a lipid-specific and temperature-dependent manner. In contrast, prior complexation of LBP and LPS inhibited binding of these complexes to membranes due to different binding of LBP to LPS or phospholipids. This results in a neutralization of LPS and, therefore, to a reduced production of tumor necrosis factor by MNC. We propose that LBP is not only present as a soluble protein in the serum but may also be incorporated as a transmembrane protein in the cytoplasmic membrane of MNC and that the interaction of LPS with membrane-associated LBP may be an important step in LBP-mediated activation of MNC, whereas LBP-LPS complexation in the serum leads to a neutralization of LPS.
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PMID:Dual role of lipopolysaccharide (LPS)-binding protein in neutralization of LPS and enhancement of LPS-induced activation of mononuclear cells. 1159 69

Innate immunity not only mediates early host defenses to infection, but also contributes to septic hemodynamic compromise through nitric oxide synthase (NOS2) induction and inhibition of cardiovascular adrenergic responses. Because of increased age-related susceptibility to sepsis, we hypothesized that hearts from old (28-29 months) adult rats would exhibit greater beta-adrenergic hyporesponsiveness than young (6-8 months) following lipopolysaccharide (LPS, 6 mg/kg) with and without interferon gamma (INF-gamma, 5000 units). LPS/INF-gamma depressed baseline +dP/dt and isoproterenol-stimulated inotropy in both old and young hearts. beta-adrenergic inotropic (+dP/dt) and lusitropic responses were more depressed in old v young LPS/INF-gamma hearts. Additionally isoproterenol-stimulated cAMP elaboration was less in old (1950+/-160 fmol/min/g) v young (2440+/-170 fmol/min/g, P=0.05) LPS/INF-gamma hearts. LPS alone also depressed basal +dP/dt and prolonged myocardial relaxation in old and young hearts, but suppressed isoproterenol +dP/dt responses only in old hearts. Depressed beta-adrenergic inotropic responses were augmented with the selective NOS2 inhibitor N-iminoethyl-L-lysine. To establish biochemical mechanisms for this, we tested whether induction of NOS2 and innate immune system receptors (CD14 and Toll-like receptor 4, TLR4) were enhanced in old v young hearts. Induction of myocardial NOS2 and CD14 (not present in control) by LPS/INF-gamma was approximately 2-3-fold greater in old compared to young animals. TLR4 was constitutively expressed in old and young hearts and was unaffected by LPS/INF-gamma. These findings indicate that advanced age is associated with augmented cardiac beta-adrenergic depression and enhanced CD14-NOS2 signaling in response to cytokines. Upregulation of cardiovascular innate immunity may have clinical implications for increased mortality in older individuals with systemic inflammatory response syndromes.
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PMID:Augmented age-associated innate immune responses contribute to negative inotropic and lusitropic effects of lipopolysaccharide and interferon gamma. 1160 26

Sepsis, resistant to therapy, results in the development of septic (endotoxin) shock. The latter is caused by the endotoxins of different Gram-negative bacteria. Endotoxin (bacterial lipopdisacharide--LPS) interacts with cells through specific membrane or plasma soluble endotoxin receptors (sCD14, mlD14, LBP, CD13/CD14, CD16, CD116/CD18, L-selectin, etc.). Endotoxin interaction with the mCD14 receptor of the monocytes, macrophages and the neutrophils results in the production of a number of proinflammatory cytokines--tumor necrosis factor alpha (TNF alpha), interleukines 1 and 6 (IL-1 and IL-6, etc), antiinflammatory cytokines--interleukines 10 and 12 (IL-10 and IL-12), cell adhesion molecules (P-selectin, E-selectin, ICAM-1, VCAM-1, etc.) and inducible enzymes: inducible NO synthase (iNOS), inducible phospholipase A2 (cPL-A2), inducible cyclooxygenase (COX-2). All pathologic processes in the structure and function of human body during endotoxin shock are a result of the disbalance of a number of mediators with a proinflammatory and antiinflammatory effects.
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PMID:[The role of bacterial endotoxins, receptors and cytokines in the pathogenesis of septic (endotoxin) shock]. 1168 28

CD14 is a pattern recognition receptor for the bacterial cell wall components from Gram-positive and Gram-negative bacteria as well as mycobacteria. Binding of lipopolysaccharide (LPS) or other cell wall constituents to CD14 initiates signal transduction through the Toll-like receptors resulting in the release of pro-inflammatory cytokines and the initiation of the systemic inflammatory response. In rabbits and non-human primates, CD14 specific antibodies were shown to attenuate responses to LPS or Escherichia coli challenge including pro-inflammatory cytokine release, acute lung injury, hypotension and changes in lung, liver, spleen and adrenal gland morphology. In healthy human subjects, single doses of a chimeric CD14 antibody (IC14) have been shown to be well tolerated and result in a dose-related degree of saturation of CD14 receptors on monocytes and granulocytes. Pretreatment of healthy subjects with IC14 2 h prior to LPS resulted in an attenuation of the LPS-induced fever, clinical symptoms, and leukocyte activation and degranulation. IC14 inhibited the release of TNF-alpha, IL-6, and IL-10 and delayed the release of sTNFR(I) and IL-1ra. Further studies are in progress to characterize the safety and clinical pharmacology of IC14 in patients with severe sepsis.
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PMID:IC14, a CD14 specific monoclonal antibody, is a potential treatment for patients with severe sepsis. 1171 88

Lipopolysaccharide-binding protein (LBP), an acute-phase protein recognizing lipopolysaccharide (LPS), catalyzes in low concentrations its transfer to the cellular LPS receptor consisting of CD14 and Toll-like receptor-4. It has recently been shown that high concentrations of recombinant LBP can protect mice in a peritonitis model from the lethal effects of LPS. To determine whether in humans the acute-phase rise of LBP concentrations can inhibit LPS binding to monocytes and induction of proinflammatory cytokines, LBP concentrations were analyzed in 63 patients meeting the American College of Chest Physicians/Society of Critical Care Medicine criteria of severe sepsis or septic shock and the ability of these sera to modulate LPS effects in vitro was assessed employing different assays. Transfer of fluorescein isothiocyanate-labeled LPS to human monocytes was assessed by a fluorescence-activated cell sorter-based method, and activation of monocytes was investigated by measuring LPS-induced tumor necrosis factor-alpha secretion in the presence of the sera. Anti-LBP antibodies and recombinant human LBP were instrumental for depletion and reconstitution of acute-phase sera and subsequent assessment of their modulating effects on LPS activity. Sera of patients with severe sepsis/septic shock exhibited a diminished LPS transfer activity and LPS-induced tumor necrosis factor-alpha secretion as compared with sera from healthy controls. LBP depletion of sepsis sera and addition of rhLBP resulting in concentrations found in severe sepsis confirmed that LBP was the major serum component responsible for the observed effects. In summary, the inhibition of LPS effects by high concentrations of LBP in acute-phase serum, as described here, may represent a novel defense mechanism of the host in severe sepsis and during bacterial infections.
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PMID:High concentrations of lipopolysaccharide-binding protein in serum of patients with severe sepsis or septic shock inhibit the lipopolysaccharide response in human monocytes. 1173 89


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