UMLS:C0036690 - FACTA Search

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Query: UMLS:C0036690 (sepsis)
59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

LPS-binding protein (LBP) recognizes bacterial LPS and transfers it to CD14, thereby enhancing host cell stimulation, eventually resulting in pathogenic states such as septic shock. Recently, LBP also was shown to detoxify LPS by transferring LPS into HDL particles in vitro. Thus, the predominant in vivo function of LBP has remained unclear. To investigate the biological activity of acute phase concentrations of recombinant murine LBP, high concentrations of LBP were investigated in vitro and in vivo. Although addition of low concentrations of LBP to a murine macrophage cell line enhanced LPS-induced TNF-alpha synthesis, acute phase concentrations of LBP blocked this effect in comparison to low-dose LBP. When injected into mice intraperitoneally, LBP inhibited LPS-mediated cytokine release and prevented hepatic failure resulting in a significantly decreased mortality rate in LPS-challenged and D-galactosamine-sensitized mice, as well as in a murine model of bacteremia. These results complement a recent study revealing LBP-deficient mice to be dramatically more susceptible to an intraperitoneal Salmonella infection as compared with normal mice. We conclude that acute phase LBP has a protective effect against LPS and bacterial infection and may represent a physiologic defense mechanism against infection. Despite the limitations of any murine sepsis model, the results shown may imply that LBP could have beneficial effects during gram-negative peritonitis in humans.
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PMID:LPS-binding protein protects mice from septic shock caused by LPS or gram-negative bacteria. 959 62

Macrophage activation by gram-negative lipopolysaccharide (LPS) has been extensively studied in an attempt to define the mechanisms that underlie innate immunity against bacterial pathogens. Dysregulation of these same mechanisms contributes to the pathophysiological consequences of bacterial sepsis. The biological actions of LPS are mediated, at least in part, by both LPS-binding proteins and LPS receptors. Several LPS receptors (CD14, the macrophage scavenger receptor, and the beta2 integrins), as well as the serum LPS-binding protein LBP, have been cloned and studied in detail. In addition, insights gained through the use of LPS antagonists have led to a better understanding of a molecule believed to function in conjunction with LPS receptors to transduce signals from the membrane to the cytosol. More recently, the use of knockout mice has greatly expanded our knowledge of the biology of LPS receptors and binding proteins. This review will summarize various phenotypes of mice that lack genes encoding CD14, the scavenger receptor, and LBP. These knockout mice have revealed several unexpected features of LPS action in vivo. Together, these animal models may provide a means to develop and evaluate novel therapeutic approaches to the control of endotoxin shock.
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PMID:LPS-binding proteins and receptors. 966 71

LPS-binding proteins in plasma play an important role in modifying LPS toxicity. Significant properties have already been attributed to the LPS-binding protein (LBP). It accelerates LPS toxicity as well as incorporation into high-density lipoproteins, leading to neutralization of LPS in serum. A search for other LPS-binding components in serum, using LPS-coated magnetic beads, revealed a new LPS-binding protein. N-terminal microsequencing identified this protein as serum amyloid P component (SAP). Purified SAP bound to smooth and rough types of LPS via the lipid A part. SAP inhibited the binding of FITC-labeled ReLPS (LPS from Salmonella minnesota strain R595) to human monocytes and the ReLPS-induced priming of the oxidative burst of human neutrophils only in the presence of low concentrations of LBP. In search for the LPS binding site of SAP, we found that pep27-39, a 13-mer peptide consisting of amino acids 27-39 of SAP, competitively inhibited the binding of LPS to SAP. In addition, pep27-39 significantly inhibited ReLPS-induced responses in phagocytes in the presence of serum, as well as in human whole blood. Carboxamidomethylated pep27-39 showed an even more pronounced reduction of the ReLPS-induced priming of phagocytes in human blood. Performing gel filtration of FITC-labeled ReLPS incubated with soluble CD14, we showed that SAP could not prevent binding of LPS to soluble CD14, in contrast to pep27-39. The ability of pep27-39 to antagonize specifically the effects of LPS in the complex environment of human blood suggests that pep27-39 may be a novel therapeutic agent in the treatment of gram-negative sepsis.
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PMID:A synthetic lipopolysaccharide-binding peptide based on amino acids 27-39 of serum amyloid P component inhibits lipopolysaccharide-induced responses in human blood. 975 83

Lipopolysaccharides (LPS, endotoxin) of gram-negative bacteria are among the main causes of sepsis and septic shock. In the present study, the influence of temperature on the biological activity of LPS was investigated. Lowering the temperature from 37 degrees C to 34.5 degrees C or to 30 degrees C significantly enhances in vitro tumor necrosis factor-alpha (TNF-alpha), interleukin (IL)-1beta and IL-6 release induced by different LPS chemotypes and heat-inactivated Escherichia coli. This cytokine-increasing effect of lowering the temperature is highly mediated by serum proteins, particularly by LPS-binding protein (LBP) and low-density lipoproteins (LDL). In contrast, cytokine production induced by the superantigen toxic shock syndrome toxin-1 (TSST-1) from Gram-positive Staphyloccoccus aureus decreases by around 70% at 30 degrees C as compared with 37 degrees C, corresponding to the expected effect of change in temperature and regardless of the presence of serum proteins. In order to explain the unexpected biological hypothermia effect with regard to LPS, the fluidity state of the lipid A portion of LPS as one important physico-chemical property possibly involved was investigated. The fluidity, determined by fluorescence polarization measurements, was found to decrease with decreasing temperature. These data suggest that a low fluid LPS chemotype is biologically more active than a more fluid one (and vice versa). Statistical analysis of the results shows a strong correlation between cytokine secretion and fluidity state of a given LPS chemotype (0.71 < r < 0.89, all P<0.01). As a clinical consequence, these data may be one possible explanation for the higher mortality rate of hypothermic Gram-negative sepsis.
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PMID:Hypothermia enhances the biological activity of lipopolysaccharide by altering its fluidity state. 976 Jan 71

The activation of phagocytes by the lipid A moiety of LPS has been implicated in the pathogenesis of Gram-negative sepsis. While two LPS receptors, CD14 and CD11/CD18, have been associated with cell signaling, details of the LPS signal transduction cascade remain obscure. CD14, which exists as a GPI-anchored and a soluble protein, lacks cytoplasmic-signaling domains, suggesting that an ancillary molecule is required to activate cells. The CD11/CD18 integrins are transmembrane proteins. Like CD14, they are capable of mediating LPS-induced cellular activation when expressed on the surface of hamster fibroblasts Chinese hamster ovary (CHO)-K1. The observation that a cytoplasmic deletion mutant is still capable of activating transfected CHO-K1 argues that CD11/CD18 also utilizes an associated signal transducer. We sought to identify further similarities between the signaling systems utilized by CD14 and CD11/CD18. LPS-binding protein, which transfers LPS to CD14, enhanced both LPS-induced cellular activation and binding of Gram-negative bacteria in CD11/CD18-transfected CHO-K1, thus implying that LPS-binding protein can also transfer LPS to CD11/CD18. When synthetic lipid A analogues were analyzed for their ability to function as LPS agonists, or antagonists, in the CHO transfectants, we found the effects were identical regardless of which LPS receptor was expressed. This supports the hypothesis that a receptor distinct from CD14 and CD11/CD18 is responsible for discriminating between the lipid A of LPS and the LPS antagonists. We propose that this receptor, which is the target of the LPS antagonists, functions as the true signal transducer in LPS-induced cellular activation for both CD14 and CD11/CD18.
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PMID:CD11/CD18 and CD14 share a common lipid A signaling pathway. 982 May 16

Lactoferrin is an iron-binding glycoprotein found in exocrine secretions of mammals and released from neutrophilic granules during inflammation. This review describes the biological roles of lactoferrin in host defence. Secreted lactoferrin exerts antimicrobial action either by chelation of iron or by destabilization of bacterial membranes. Furthermore, lactoferrin modulates the inflammatory process, mainly by preventing the release of cytokines from monocytes and by regulating the proliferation and differentiation of immune cells. Some of these activities are related to the ability of lactoferrin to bind lipopolysaccharides (LPS) with high affinity. Indeed, recent in vitro studies indicate that lactoferrin is able to compete with the LPS-binding protein for LPS binding and therefore to prevent the transfer of LPS to CD14 present at the surface of monocytes. Moreover, the prophylactic properties of lactoferrin against septicemia in vivo have been demonstrated. Taken as a whole, these observations strongly suggest that lactoferrin is one of the key molecules which modulate the inflammatory response.
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PMID:Lactoferrin: a multifunctional glycoprotein involved in the modulation of the inflammatory process. 1035 73

Activation of myeloid cells by lipopolysaccharide (LPS) is a key event in the development of gram-negative sepsis. One crucial step within this process is the binding of LPS to CD14. CD14 is a glycosylphosphatidylinositol (GPI)-anchored membrane protein requiring at least one additional membrane-spanning molecule for signal transduction. It is not clear whether the function of CD14 is to merely catalyze LPS binding, followed by the interaction of LPS with the signal transducer, or whether CD14 has a more specific function and may be a part of the signaling complex. To address this question we generated Chinese hamster ovary (CHO) cells expressing a human GPI-anchored form of LPS-binding protein (mLBP) to substitute for CD14 as LPS acceptor molecule. By comparison of CHO / mLBP with CHO / vector and CHO / CD14 cells we found that expression of GPI-linked LBP results in an enhanced binding of LPS but not in an increase in cell activation as determined by translocation of NF-kappaB. Furthermore, excess of recombinant soluble LBP resulted also in increased LPS binding without affecting NF-kappaB translocation. These data show that LPS binding alone is not sufficient to induce signaling. We conclude that CD14 is more than a catalyst for LPS binding: it seems to be directly involved in LPS signaling and thus appears to be an essential part of the signaling complex.
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PMID:Binding of lipopolysaccharide (LPS) to CHO cells does not correlate with LPS-induced NF-kappaB activation. 1060 43

Lipopolysaccharide-binding protein (LBP) is important for mediating host responses to lipopolysaccharide (LPS). The structure and properties of human, rabbit, and murine LBP have been previously described. In this study we partially characterized baboon LBP and investigated its appearance in experimental sepsis. Recurrent bacteremia was induced in baboons by infusion of live Escherichia coli organisms over a 2-hour period at 0, 24, and 48 hours. To assay baboon plasma LBP levels, an enzyme-linked immunosorbent assay with cross-reactive antibodies to human LBP was developed. Control baboon plasma LBP concentrations were 2 to 5 microg/mL. During experimental sepsis, baboon plasma LBP levels increased to between 200 and 350 microg/mL and in parallel with the increase in C-reactive protein levels. Baboon LBP was isolated from acute phase serum by ion-exchange chromatography followed by immuno-affinity chromatography. Its NH2-terminal sequence (XNPGLVARTTNKGLEYSAQE) and its molecular weight (approximately 60 kd) were determined and were proved to be highly homologous to human LBP.
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PMID:Isolation, partial characterization, and concentration in experimental sepsis of baboon lipopolysaccharide-binding protein. 1107 63

Neutrophils exposed to low concentrations of gram-negative lipopolysaccharide (LPS) become primed and have an increased oxidative response to a second stimulus (e.g., formyl-methionyl-leucyl-phenylalanine [fMLP]). In studies aimed at understanding newborn sepsis, we have shown that neutrophils of newborns are not primed in response to LPS. To further understand the processes involved in LPS-mediated priming of neutrophils, we explored the role of extracellular signal-related protein kinases (ERK 1 and 2) of the mitogen-activated protein kinase family. We found that LPS activated ERK 1 and 2 in cells of both adults and newborns and that activation was plasma dependent (maximal at > or =5%) through LPS-binding protein. Although fibronectin in plasma is required for LPS-mediated priming of neutrophils of adults assessed by fMLP-triggered oxidative burst, it was not required for LPS-mediated activation of ERK 1 and 2. LPS-mediated activation was dose and time dependent; maximal activation occurred with approximately 5 ng of LPS per ml and at 10 to 40 min. We used the inhibitor PD 98059 to study the role of ERK 1 and 2 in the LPS-primed fMLP-triggered oxidative burst. While Western blotting showed that 100 microM PD 98059 completely inhibited LPS-mediated ERK activation, oxidative response to fMLP by a chemiluminescence assay revealed that the same concentration inhibited the LPS-primed oxidative burst by only 40%. We conclude that in neutrophils, LPS-mediated activation of ERK 1 and 2 requires plasma and that this activation is not dependent on fibronectin. In addition, we found that the ERK pathway is not responsible for the lack of LPS priming in neutrophils of newborns but may be required for 40% of the LPS-primed fMLP-triggered oxidative burst in cells of adults.
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PMID:Activation of extracellular signal-related protein kinases 1 and 2 of the mitogen-activated protein kinase family by lipopolysaccharide requires plasma in neutrophils from adults and newborns. 1129 34

Lipopolysaccharide (LPS), a major component of Gram-negative bacteria, signals bacterial invasion and triggers defensive host responses. However, excessive responses also lead to the serious pathophysiological consequence of septic shock. To develop Gram-negative selective compounds that can inhibit the effects of LPS-induced sepsis, we have designed constrained cyclic antimicrobial peptides based on a cystine-stabilized beta-stranded framework mimicking the putative LPS-binding sites of the LPS-binding protein family. Our prototype termed R4A, c(PACRCRAG-PARCRCAG), consists of an eight amino acid degenerated repeat constrained by a head-to-tail cyclic peptide backbone and two cross-bracing disulfides. NMR study of K4A, an R4A analogue with four Arg --> Lys replacements, confirmed the amphipathic design elements with four Lys on one face of the antiparallel beta-strand and two hydrophobic cystine pairs plus two Ala on the opposite face. K4A and R4A displayed moderate microbicidal potency and Gram-negative selectivity. However, R4A analogues with single or multiple replacements of Ala and Gly with Arg or bulky hydrophobic amino acids displayed increased potency and selectivity in both low- and high-salt conditions. Analogues R5L and R6Y containing additional cationic and bulky hydrophobic amino acids proved the best mimics of the amphipathic topology of the "active-site" beta-strands of LPS-binding proteins. They displayed potent activity against Gram-negative E. coli with a minimal inhibitory concentration of 20 nM and a >200-fold selectivity over Gram-positive S. aureus. Our results suggest that an LPS-targeted design may present an effective approach for preparing selective peptide antibiotics.
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PMID:Design of Gram-negative selective antimicrobial peptides. 1134 43

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