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

Soluble CD14 (sCD14) mediates lipopolysaccharide (LPS) activation of epithelial cells in vitro and may thereby be harmful in sepsis. sCD14 function was analyzed in sera from 62 patients with septic shock and compared with data from appropriate controls. sCD14 function was measured as sCD14-dependent LPS-induced interleukin (IL)-8 release in the SW620 epithelial cell line. In these cells, IL-8 production correlated with LPS concentration and the amount of sCD14. The effect of natural recombinant sCD14 was maximal at 100 ng/mL and blocked by anti-CD14 antibodies. Patient and control sera (0.5% final concentration) promoted induction of IL-8 by 100 ng/mL LPS in SW620 cells. In sepsis patients (highest serum sCD14), values were significantly higher than in the other groups. The LPS-induced IL-8 response was blocked by anti-CD14 and correlated with the serum CD14 level in sepsis patients. Thus, sCD14 could play a pathogenic role in sepsis.
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PMID:Function of soluble CD14 in serum from patients with septic shock. 862 30

Stimulation of human neutrophils by LPS is central to the pathogenesis of sepsis and the adult respiratory distress syndrome. The intracellular signaling pathway that results in cellular responses following LPS stimulation in neutrophils is unknown. We report that exposure of neutrophils to LPS results in the phosphorylation and activation of a p38 mitogen-activated protein (MAP) kinase, occurring in a concentration-dependent manner, with maximum response at 20 to 25 min. Partial purification of a p38 MAP kinase by ion exchange chromatography established it as distinct from the p42/p44 (extracellular signal-regulated kinases (ERK-1 and ERK-2) MAP kinases). Activation of the p38 MAP kinase by LPS in human neutrophils occurs via CD14, a proposed LPS receptor, and requires the presence of plasma containing the LPS-binding protein. This intracellular signaling pathway is independent of protein kinase C and does not involve Raf, MAP/ERK kinase kinase-1, MAP/ERK kinase-1, or MAP/ERK kinase-2 and does not result in the activation of the p42/p44 ERK MAP kinases or the c-jun N-terminal kinases.
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PMID:Activation of a p38 mitogen-activated protein kinase in human neutrophils by lipopolysaccharide. 864 36

Acute-phase reactants (APRs) are proteins synthesized in the liver following induction by interleukin-1 (IL-1), IL-6, and glucocorticoids, involving transcriptional gene activation. Lipopolysaccharide-binding protein (LBP) is a recently identified hepatic secretory protein potentially involved in the pathogenesis of sepsis, capable of binding the bacterial cell wall product endotoxin and directing it to its cellular receptor, CD14. In order to examine the transcriptional induction mechanisms by which the LBP gene is activated, we have investigated the regulation of expression of its mRNA in vitro and in vivo as well as the organization of 5' upstream regulatory DNA sequences. We show that induction of LBP expression is transcriptionally regulated and is dependent on stimulation with IL-1beta, IL-6, and dexamethasone. By definition, LBP thus has to be viewed as a class 1 acute-phase protein and represents the first APR identified which is capable of detecting pathogenic bacteria. Furthermore, cloning of the LBP promoter revealed the presence of regulatory elements, including the common APR promoter motif APRE/STAT-3 (acute-phase response element/signal transducer and activator of transcription 3). Luciferase reporter gene assays utilizing LBP promoter truncation and point mutation variants indicated that transcriptional activation of the LBP gene required a functional APRE/STAT-3 binding site downstream of the transcription start site, as well as an AP-1 and a C/EBP (CCAAT enhancer-binding protein) binding site. Gel retardation and supershift assays confirmed that upon cytokine stimulation APRF/STAT-3 binds to its recognition site, leading to strong activation of the LBP gene. Unraveling of the mechanism of transcriptional activation of the LBP gene, involving three known transcription factors, may contribute to our understanding of the acute-phase response and the pathophysiology of sepsis and septic shock.
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PMID:The lipopolysaccharide-binding protein is a secretory class 1 acute-phase protein whose gene is transcriptionally activated by APRF/STAT/3 and other cytokine-inducible nuclear proteins. 866 65

During Gram-negative sepsis, endotoxin lipopolysaccharide (LPS) may activate host inflammatory responses, resulting in the systemic inflammatory response syndrome and the adult respiratory distress syndrome. In cell culture systems, LPS activation of cellular responses may be potentiated by plasma proteins. In the isolated perfused rabbit lung, LPS administration markedly increases the pulmonary hypertensive response to subsequent administration of platelet activating factor (PAF). We examined whether plasma would potentiate the priming effects of LPS in this model. Male New Zealand White rabbits were used in a standard, isolated buffer-perfused rabbit lung preparation, and the pulmonary hypertensive response to 5 nM PAF was measured after 2 h of perfusion with different LPS doses (0, 1, and 10 ng/mL), with and without plasma (10% by volume). In the absence of plasma, 10 ng/mL LPS, but not 1 ng/mL LPS, increased the pulmonary hypertensive response to subsequent administration of 5 nM PAF. However, in the presence of plasma, 1 ng/mL LPS significantly increased the hypertensive response to subsequent administration of 5 nM PAF. We conclude that components of plasma--possibly LPS binding protein and soluble CD14--potentiate the priming effect of endotoxin, resulting in an augmented pulmonary hypertensive response to PAF. Thus, plasma proteins decrease the threshold at which endotoxin primes the lung and may have a critical role in the pathogenesis of endotoxin-induced acute lung injury.
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PMID:Plasma potentiates the priming effects of endotoxin on platelet activating factor-induced pulmonary hypertension in the rabbit lung. 869

Gram-negative bacteria gain access to the bloodstream by evading host defenses. Once in circulation, lipopolysaccharide interacts with the host receptor CD14 and initiates the host's immune response. Lipolysaccharide stimulates the host to produce a cascade of mediators that activate and target leukocytes, opsonize the bacteria, and induce fever to defend against the invading bacteria. Unregulated release of these mediators, however, leads to the production of vasoactive substances, activation of the clotting cascade, and diminution of cardiac performance, which leads to the sepsis syndrome. This article discusses the pathogenic events that lead to sepsis syndrome and reviews critical steps in regulating these inflammatory mediators to allow the host to recover from gram-negative bacteremia.
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PMID:The pathogenesis of sepsis. Factors that modulate the response to gram-negative bacterial infection. 879 60

Tumor necrosis factor-alpha (TNF-alpha) and interleukin-1 beta (IL-1 beta) are major mediators of sepsis and multiple organ failure. Serum-mediated macrophage activation requires lipopolysaccharide (LPS) and its serum binding protein, lipopolysaccharide binding protein as a ligand for the receptor CD14. This study was designed to determine whether cytokines participate in regulation of serum-mediated LPS activation. Rat macrophages were stimulated with LPS with and-without TNF-alpha or IL-1 beta and activation was determined by detection of TNF-alpha by specific enzyme-linked immunosorbent assay or TNF-alpha mRNA by Northern blot analysis. The addition of TNF-alpha but not IL-1 beta, in the presence of serum, leads to potentiation of macrophage activation after LPS stimulation. This effect could be specifically inhibited by neutralization of LPS with polymyxin B or an antibody against TNF-alpha. This study shows that LPS and TNF-alpha synergize to potentiate serum-mediated macrophage activation. These results demonstrate another element of the control mechanism of cytokine secretion following macrophage activation in sepsis.
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PMID:Lipopolysaccharide and tumor necrosis factor-alpha synergy potentiate serum-dependent responses of rat macrophages. 879 55

The purpose of this study is to measure soluble CD14 (sCD14) levels in sera from newborn with sepsis, to compare it with other markers, and to study its evolution in Gram-negative and Gram-positive sepsis. Forty normal newborns were included (26 were full term and 14 were preterm infants), 20 babies had a positive blood culture (11 Gram-positive and 9 Gram-negative) and 16 cases were suspected of having sepsis based on clinical and laboratory findings, but a negative blood culture. Interleukin-6 (IL-6), sCD14, and tumour necrosis factor-alpha (TNF alpha) were measured by enzyme immunoassay, and fibronectin (FN) and C-reactive protein (CRP) by radial immunodiffusion. Neonates with a positive blood culture had increased levels of sCD14 (3.20 +/- 1.26 micrograms ml-1, p < 0.001), CRP (69 +/- 46 micrograms ml-1, p < 0.001) and IL-6 (134 +/- 150 pg ml-1, p < 0.001), and decreased values of FN (12.3 +/- 6.6 mg ml-1, p < 0.001). TNF alpha levels were also high (160 +/- 37 pg ml-1), but this increase was not statistically significant. Newborn infants suspected of having sepsis but a negative blood culture had similar but milder abnormalities. Soluble CD14 levels correlated with CRP values; however, there was no correlation between sCD14, TNF alpha and IL-6. Neonates with sepsis by Gram-positive bacteria had lower sCD14 levels than patients with Gram-negative sepsis (2.63 +/- 1.2 versus 4.04 +/- 1.0 micrograms ml-1, p < 0.05). In conclusion, the sCD14 level is increased in newborn infants with sepsis, and this is higher in infections by Gram-negative bacteria, suggesting a different contribution of monocyte and macrophage cells. In contrast, IL-6, TNF alpha, CRP and FN values are similar in infections by Gram-positive and Gram-negative bacteria.
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PMID:Serum levels of CD14 in neonatal sepsis by Gram-positive and Gram-negative bacteria. 881 13

Over a period of 14 days a longitudinal analysis was performed on the effects of filgrastim (recombinant human granulocyte colony stimulating factor, rhG-CSF) administered to 20 postoperative/posttraumatic patients at risk of or with sepsis. The following parameters were determined: leukocyte counts, serum cytokine levels and the surface expression of functional antigens and adhesion molecules. Filgrastim (1 mu g/kg.day) was infused continuously on the first 3 days and tapered to 0.5 mu g/kg.day on the following 4 days or until discharge from the surgical intensive care unit. During infusion of filgrastim, G-CSF levels increased in 16 out of the 20 patients within 48 h. In these 16 patients, leukocyte counts increased in 15 out of 16 patients. Expression of CD64 was upregulated within 24 h. The expression of CD32 was upregulated in 8 out of 9 patients with an initial expression < 55%. LAM-1 expression was downregulated in all patients revealing an initial expression of LAM-1 > 40%. Soluble ICAM increased in 9 out of 11 patients. IL-8 decreased in all 6 patients presenting initial values of IL-8 > 90 pg/ml. IL-1RA increased in 10 patients. Filgrastim had no effect on the expression of CD14, CD16 and CD34 and on the levels of TNF-alpha and sTNF-R type I (p55). In conclusion, infusion of filgrastim in postoperative/post traumatic patients at risk of and with sepsis resulted in improved generation and function of neutrophils and appeared to counterregulate hyperactivation of proinflammatory processes.
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PMID:Filgrastim (RHG-CSF) related modulation of the inflammatory response in patients at risk of sepsis or with sepsis. 883 41

The effective treatment of sepsis and septic shock has remained elusive despite intense research efforts. The tools of molecular biology have been applied to the problem of sepsis in an attempt to design more rational, directed therapy. Cellular interactions with invading microorganisms begin a series of stimulation events within the cell. One of the important interactions is the binding of lipopolysaccharide (LPS) from gram-negative bacteria to the LPS binding protein, and then this complex binding to CD14 on monocytes. Cell stimulation occurs through activation of signal transduction pathways within the cell, many of which have been defined. These include the kinases that phosphorylate proteins, and phosphatases that dephosphorylate proteins. The next step after activation of the signal transduction pathways is stimulation of nuclear regulatory factors. One of the best characterized of these is nuclear regulatory factor kappa B (NF-kappa B), which is a trans activating element that binds to specific DNA nucleotide sequences to allow transcription of downstream elements. Many inflammatory mediators are located downstream of NF-kappa B so that activation of NF-kappa B causes upregulation of the inflammatory mediators. The cytokines have been identified as a group of mediators important in the pathogenesis of sepsis, because several studies have shown that higher levels are correlated with a worse outcome in patients. Additionally, in experimental animal models, inhibition of cytokines improves survival, and administration of exogenous, recombinant cytokines reproduces many of the pathophysiologic alterations observed in sepsis. Molecular biology has played a critical role in the understanding of sepsis by providing the tools to make the recombinant cytokines of sufficient purity and quantity for infusion into experimental animals. The cellular response for the production of cytokines occurs through classic protein chemistry, with the signal transduction inducing messenger RNA (mRNA) coding for the cytokines, which are then translated and secreted. The relative contribution of local versus systemic cytokine production is beginning to be appreciated, with several diseases showing substantially higher local cytokine levels. The cytokines exert their activity on other cells by binding to their specific cytokine receptors. These receptors are part of the immune response and may be shed from the cell surface. These soluble receptors bind to and inactivate the cytokines. Inhibition of cytokine activity has been hypothesized as a potential therapy for sepsis. This inhibition has been done with antibodies directed against either the cytokines themselves or their receptors. Naturally occurring cytokine inhibitors have been cloned and expressed by molecular biologists and used for treatment of sepsis and other diseases. Using molecular biology techniques, the murine antibodies have been "humanized" to reduce their immunogenicity. The measurement of cytokines is critically important to our understanding of their role in health and disease. Cytokines may be measured by either immunologic methods or biological assays. Molecular biology has made important contributions to our understanding of sepsis by precisely identifying some of the mediators and providing reagents for therapeutic use.
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PMID:Applied molecular biology of sepsis. 892 69

Exposure to endotoxin produces a state of macrophage hyporesponsiveness on subsequent stimulation. Monocytes in patients with septic shock demonstrate a similar hyporesponsiveness to endotoxin. The purpose of this study was to examine whether this state of hyporesponsiveness extends to other inflammatory stimuli and the relationship of this state to cell surface receptor expression and the release of anti-inflammatory cytokines. Twelve normal volunteers, 10 patients with severe sepsis, and 9 patients with septic shock were included in the study. Monocytes from each subject were isolated and stimulated with lipopolysaccharide (LPS), staphylococcal enterotoxin B (SEB), and phorbol myristate acetate (PMA). Tumor necrosis factor-alpha (TNF-alpha) and interleukin-1beta (IL-1beta) were measured in the supernatants by enzyme-linked immunosorbent assay (ELISA). Serum levels of transforming growth factor-beta1 (TGF-beta1), prostaglandin E2 (PGE2), and interleukin-10 (IL-10) were also measured by ELISA. The expression of monocyte CD14 and HLA-DR in whole blood were measured by flow cytometry. Patients with septic shock demonstrated significantly decreased TNF-alpha and IL-1beta release as compared with normal subjects in response to LPS. In response to SEB, patients with sepsis and patient with septic shock demonstrated significantly decreased release of TNF-alpha and IL-1beta. Significant decreases in TNF-alpha release were found in the patients with septic shock after PMA stimulation. There were no significant differences in the monocyte response to the different stimuli between patients with gram-positive sepsis and gram-negative sepsis. HLA-DR expression was significantly decreased in patients with septic shock (58 +/- 9 fluorescence units (flU)) as compared with normal subjects (102 +/- 14 flU) (p < 0.05). No differences in CD14 expression were observed. IL-10 levels were significantly increased in patients with sepsis (16 +/- 4 pg/ml) and in patients with septic shock (42 +/- 15 pg/ml) and were detectable in 1 normal subject. TGF-beta1 levels were decreased in patients with septic shock (25 +/- 6 pg/ml) as compared with those in normal subjects (37 +/- 2 pg/ml)(p < 0.05). PGE2 levels were significantly increased in patients with septic shock and patients with sepsis. These data are consistent with a more generalized monocyte hyporesponsiveness to bacterial toxins that may be related to altered cell surface receptor expression and the release of anti-inflammatory cytokines.
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PMID:Monocyte response to bacterial toxins, expression of cell surface receptors, and release of anti-inflammatory cytokines during sepsis. 896 Jun 43


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