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)

The role of motility as a virulence factor in Pseudomonas aeruginosa burn wound sepsis was examined using mutants deficient in the Fla or Mot phenotype. Physiological profiles of parental strains and Fla- and Mot- mutants were similar with respect to antibiograms, O antigen types, growth rates, and proteolytic, exotoxin A and phospholipase activities, providing evidence for isogenicity. Lethality studies using a subcutaneous mouse burn model showed that three Fla- mutants and one Mot- mutant were much less virulent (10(2) to 10(5) times) than the parent wild-type. Topical challenges in the flame burn model showed that a Fla- mutant of strain M-2 was approximately tenfold less virulent. A reduction in virulence, although somewhat less than tenfold, was also observed in the scald burn model for M-2 Fla-, and Mot- strains. Tissue colonization experiments revealed a characteristic, rapidly systemic infection in burned mice challenged with wild-type organisms. Nonmotile mutants similarly proliferated in the burn wound, but the characteristic bacteraemia and systemic invasion were markedly absent. The infection remained localized in the skin wound and the mice survived. The pattern of infection by nonmotile mutants in the colonization studies was very similar to that obtained with Fla+ cells in burned animals passively treated with antiflagellar antibody. These results add substantial support to the concept of motility as a P. aeruginosa virulence factor in invasive infections.
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PMID:Flagella, motility and invasive virulence of Pseudomonas aeruginosa. 314 66

Changes in surfactant function play an important part in the pathogenesis of adult respiratory distress syndrome (ARDS). Since beta-adrenergic agonists have been shown to exert a decisive influence on surfactant secretion, we studied the effect of fenoterol on lung phospholipid metabolism under conditions of experimental sepsis. Fenoterol administered to live rats increased the incorporation of choline into lung tissue by 80% in normal, by 35% in septic animals. It had no comparable effect on palmitate incorporation. It increased the activity of choline kinase in control animals, but had no additional effect on animals with increased values due to sepsis. Phosphotransferase activity diminished during sepsis was stimulated, and phospholipase activity reduced. Fenoterol restored phosphatidylcholine to normal levels in lung tissue and bronchoalveolar lavage and prevented lysophosphatidylcholine generation. Fenoterol also increased the amount of palmitate in phosphatidylcholine from bronchoalveolar lavage in septic animals. The results imply that a beta-adrenergic agonist influences the conditions of lung phospholipid metabolism altered by sepsis towards normal.
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PMID:Influence of a beta-adrenergic agonist on septic shock-induced alterations of phosphatidylcholine metabolism in rat lung. 314 72

The cellular signaling events leading to the systemic inflammatory response syndrome and sepsis in monocytes/macrophages activated by lipopolysaccharide (LPS) are well understood. LPS is a glycolipid component of Gram-negative bacterial cell wall. It exerts its effect through the lipid A moiety. LPS binds to monocytes/macrophages via a membrane-bound receptor, CD14, an interaction which is optimized in the presence of plasma factors, LPS-binding protein, and septin. Although LPS is known to bind to other receptors, the roles of these receptors in transmembrane signaling and activation of monocytes/macrophages are not as well understood as is that of the CD14 receptor. Intracellular events in response to LPS stimulation are mediated by phospholipase (PL) C, protein kinases, PLA2, and PLD. Activation of PLC by LPS results in the release of diacylglycerol and inositol 1,4,5-trisphosphate. The former mediates the stimulation of protein kinase C, and the latter induces an increase in intracellular calcium concentration. LPS stimulation of monocytes/macrophages also results in the phosphorylation and activation of several protein kinases, including protein tyrosine kinases which mediate cytokine production, and mitogen-activated protein kinase which activates cytosolic PLA2 to release arachidonate. LPS also plays a role in cellular proliferation and differentiation. Upregulation of the secretory form of PLA2 has also been documented in response to LPS. PLD is stimulated by LPS to release phosphatidic acid (PA). PA can activate the respiratory burst by increasing diacylglycerol production and by modulating the effects of guanine nucleotide-binding proteins. Therapeutic strategies to decrease the clinical effects of sepsis would logically include agents which block at initial receptor-ligand interaction, as well as those which attenuate the intracellular events that follow LPS stimulation. Early in vivo studies are promising, but clearly much work remains to be done.
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PMID:Signaling events in monocytes and macrophages. 758 75

The concentrations of endotoxin, interleukin-6 (IL-6) and group II phospholipase-A2 (PLA2-II) were measured in serum or plasma during cytotoxic chemotherapy, fever of unknown origin and sepsis in 56 patients with hematological malignancies and during sepsis and viral infections in 22 non-hematological patients. High concentrations of IL-6, PLA2-II and endotoxin were detected in sepsis, the levels being similarly elevated in hematological and non-hematological patients. The levels of IL-6 and PLA2-II correlated closely with that of C-reactive protein (CRP). The levels of PLA2-II and IL-6 declined earlier than the level of CRP during the course of antimicrobial treatment. The levels of IL-6 also rose earlier than the level of CRP. The ability of IL-6 and PLA2-II and endotoxin to discriminate between sepsis and other causes of fever was comparable to that of CRP. IL-6 and PLA2-II are, together with CRP, valuable tools for the detection of sepsis in patients with hematological malignancies who undergo cytotoxic medication. Endotoxin is not suitable for routine laboratory diagnosis of sepsis.
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PMID:Endotoxin, interleukin-6 and phospholipase-A2 as markers of sepsis in patients with hematological malignancies. 778 12

We have previously demonstrated that treatment of hepatocytes with IFN gamma results a series of cellular injury processes, including DNA synthesis arrest, membrane breakage and apoptosis. In the present work, we show that IFN gamma suppresses cellular respiration and protein synthesis in hepatocytes, and that cellular respiration suppression is an early event in the IFN gamma-induced cellular injuries. Polyunsaturated fatty acids (PUFAs) increased cellular respiration of hepatocytes, but only linoleic acid showed some protective effect against IFN gamma-induced cellular respiration suppression. Linoleic acid also reduced other IFN gamma-mediated cellular injuries, including membrane breakage and protein synthesis inhibition. Like linoleic acid, fetal bovine serum also inhibited IFN gamma-induced cellular damage. Increased NAD levels were found in both IFN gamma-treated and non-treated hepatocytes following the addition of PUFAs, but clofibrate, a peroxisome proliferator, bromophenacyl bromide (BPB), an inhibitor of phospholipase, nordihydroguaiaretic acid (NDGA), an inhibitor of lipoxygenase, and arachidonic acid, a metabolite of linoleic acid, did not inhibit IFN gamma-induced cellular injury. In addition, the combination of linoleic acid and IFN gamma induced nitric oxide (NO) synthesis in hepatocytes. These results suggest that fatty acid may play an important role in liver homeostasis during chronic inflammatory states and sepsis.
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PMID:Protective effect of linoleic acid on IFN gamma-induced cellular injury in primary culture hepatocytes. 953 94

In many diseases and acute inflammatory disorders, important components of pathological processes are linked to the neutrophils' ability to release a complex assortment of agents that can destroy normal cells and dissolve connective tissue. This review summarizes the mechanisms of tissue destruction by neutrophils and the role of kidney-specific factors that promote this effect. Nicotinamide adenine dinucleotide phosphate H (NADPH) oxidase is a membrane-associated enzyme that generates a family of reactive oxygen intermediates (ROI). There is increasing evidence that ROIs are implicated in glomerular pathophysiology: ROIs contribute to the development of proteinuria, alter glomerular filtration rate, and induce morphological changes in glomerular cells. Specific neutrophil granules contain microbicidal peptides, proteins, and proteolytic enzymes, which mediate the dissolution of extracellular matrix, harm cell structures or cell function, and induce acute and potentially irreparable damage. Although both ROI and neutrophil-derived proteases alone have the potential for tissue destruction, it is their synergism that circumvents the intrinsic barriers designed to protect the host. Even small amounts of ROI can generate hypochlorus acid (HOCl) in the presence of neutrophil-derived myeloperoxidase (MPO) and initiate the deactivation of antiproteases and activation of latent proteases, which lead to tissue damage if not properly controlled. In addition, neutrophil-derived phospholipase products such as leukotrienes and platelet-activating factor contribute to vascular changes in acute inflammation and amplify tissue damage. Increasing evidence suggests that mesangial cells and neutrophils release chemotactic substances (eg, interleukin 8), which further promote neutrophil migration to the kidney, activate neutrophils, and increase glomerular injury. Also, the expression of adhesion molecules (eg, intercellular adhesion molecule 1 on kidney-specific cells and beta-2-integrins on leukocytes) has been correlated with the degree of injury in various forms of glomerulonephritis or after ischemia and reperfusion. Together, these results suggest that neutrophils and adhesion molecules play an important role in mediating tissue injury with subsequent renal failure. Conversely, chronic renal failure reduces neutrophil function and thereby can increase susceptibility to infection and sepsis.
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PMID:Neutrophils and renal failure. 1043 Sep 93

Neuroendocrine-immune interactions are vital for the individual's survival in certain physiopathological conditions such as sepsis and tissular injury. It is known that several snake venoms (SV) are potent neurotoxic compounds and that their main component is a specific phospholipase type 2 (PLA2). It has been recently described that the venom from crotalus durissus terrificus (SV) possesses a cytotoxic effect in different in vitro and in vivo animal models. In the present study we investigated whether SV is able to stimulate both TNFalpha and neuroendocrine functions in a sexual dimorphic fashion. For this purpose the modulatory role of endogenous sex steroids during neurotoxemia was evaluated. Our results indicate that SV (25 microg/animal) stimulates the hypothalamo-pituitary-adrenal axis and TNFalpha secretion when administered (ip) to adult male mice, such responses were characterized by a time-related enhance in plasma glucose, ACTH, corticosterone and TNFalpha levels. SV-stimulated glycemia, corticosteronemia and adrenal glucocorticoid were sexually dimorphic. Twenty-day gonadectomized mice showed a similar sexual dimorphism to that found in intact animals, however, they additionally showed a sexual dimorphic pattern in cytokine release in plasma 30 min post-SV. Estradiol (E2) treatment, in gonadectomized mice, abolished some characteristics of the sexual dimorphism, such as hyperglycemia, hypercorticosteronemia and hypercytokinemia. Finally, in vitro experiments indicate that: a) gonadectomy increased spontaneous and SV-stimulated cytokine output by incubated peripheral mononuclear cells (PMNC), regardless of the sex; and b) despite E2 treatment, in gonadectomized, did not modify the pattern of basal and SV-elicited TNFalpha secretion induced by orchidectomy, fully reversed the enhance in basal and SV-stimulated cytokine release found after ovariectomy alone. Our results further indicate that neurotoxemia, due to SV challenge, induces several symptoms common to those of inflammatory stress; they also strongly support that both gender and endogenous sex steroids are responsible for neuroendocrine-immunological sexual dimorphism.
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PMID:Sexual dimorphism in the hypothalamo-pituitary-adrenal (HPA) axis and TNFalpha responses to phospholipase A2-related neurotoxin (from crotalus durissus terrifcus) challenge. 1100 68

The interaction of Listeria monocytogenes with endothelial cells represents a crucial step in the pathogenesis of listeriosis. Incubation of human umbilical vein endothelial cells (HUVEC) with wild-type L. monocytogenes (EGD) provoked immediate strong NO synthesis, attributable to listerial presentation of listeriolysin O (LLO), as the NO release was missed upon employment of a deletion mutant for LLO (EGD hly mutant) and was reproduced by purified LLO. Studies of conditions lacking extracellular Ca(2+) suggested LLO-elicited Ca(2+) flux as the underlying mechanism. In addition, HUVEC incubation with EGD turned out to be a potent stimulus for sustained (>12-h) upregulation of proinflammatory cytokine generation (interleukin 6 [IL-6], IL-8, and granulocyte-macrophage colony-stimulating factor). Use of deletion mutants for LLO (EGD hly mutant), listerial phosphatidylinositol-specific phospholipase C (EGD plcA mutant), broad-spectrum phospholipase C (EGD plcB mutant) and internalin B (EGD inlB mutant), as well as purified LLO, identified LLO as largely responsible for the cytokine response. Endothelial cells responded with diacylglycerole and ceramide generation as well as nuclear translocation of NF-kappa B to the stimulation with the LLO-producing strains EGD and Listeria innocua. The endothelial PC-phospholipase C inhibitor tricyclodecan-9-yl-xanthogenate as well as two independent inhibitors of NF-kappa B activation, pyrolidine dithiocarbamate and caffeic acid phenethyl ester, suppressed both the NF-kappa B translocation and the upregulation of cytokine synthesis. We conclude that L. monocytogenes is a potent stimulus of NO release and sustained upregulation of proinflammatory cytokine synthesis in human endothelial cells, both events being largely attributable to LLO presentation. LLO-induced transmembrane Ca(2+) flux as well as a sequence of endothelial phospholipase activation and the appearance of diacylglycerole, ceramide, and NF-kappa B are suggested as underlying host signaling events. These endothelial responses to L. monocytogenes may well contribute to the pathogenic sequelae in severe listerial infection and sepsis.
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PMID:Human endothelial cell activation and mediator release in response to Listeria monocytogenes virulence factors. 1115 83

Pathologic disseminated intravascular coagulation (PDIC) is a serious complication in sepsis. In an in-vitro system consisting of incubation of fresh citrated blood with lipopolysaccharides (LPS) or glucans and subsequent plasma recalcification plasmatic thrombin was quantified. Five hundred microliters of freshly drawn citrated blood of healthy donors were incubated with up to 800 ng/mL LPS (Escherichia coli) or up to 80 microg/mL Zymosan A (ZyA; Candida albicans) for 30 minutes at room temperature (RT). The samples were centrifuged, and 30 microL plasma were recalcified with 1 volume or less of CaCl(2) (25 micromoles Ca(2+)/mL plasma). After 0 to 12 minutes (37 degrees C), 20 microL 2.5 M arginine, pH 8.6, were added. Thirty microliters 0.9 mM HD-CHG-Ala-Arg-pNA in 2.3 M arginine were added, and the absorbance increase at 405 nm was determined. Fifty microliters plasma were also incubated with 5 microL 250 mM CaCl2 for 5, 10, or 15 minutes (37 degrees C). Fifty microliters 2.5 M arginine stops coagulation, and 50 microL 0.77 mM HD-CHG-Ala-Arg-pNA in 2.3 M arginine starts the thrombin detection. The standard was 1 IU/mL thrombin in 7% human albumin instead of plasma. Arginine was also added in the endotoxin exposure time (EET) or in the plasma coagulation reaction time (CRT). Tissue factor (TF)-antigen and soluble CD14 were determined. LPS at blood concentrations greater than 10 ng/mL or ZyA at greater than 1 microg/mL severalfold enhance thrombin generation, when the respective plasmas are recalcified. After 30 minutes EET at RT, the thrombin activity at 12 minutes CRT generated by the addition of 200 ng/mL LPS or 20 microg/mL ZyA is approximately 200 mIU/mL compared to approximately 20 mIU/mL without addition of endotoxin, or compared to about 7 mIU/mL thrombin at 0 minutes CRT. Arginine added to blood or to plasma inhibits thrombin generation; the inhibitory concentration 50% (IC 50) is approximately 15 mM plasma concentration. Endotoxin incubation of blood increases neither TF nor sCD14. This assay allows the study of the hemostasis alteration in PDIC, particularly in PDIC by sepsis. The thrombin generated by blood plus endotoxin incubation and plasma recalcification suggests that the contact phase of coagulation; e.g., triggered by cell components of (phospholipase-) lysed cells such as monocyte or endothelium DNA or phospholipid-vesicles (microparticles), is of primary pathologic importance in sepsis-PDIC. Arginine at plasma concentrations of 10 to 50 mM might be a new therapeutic for sepsis-PDIC.
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PMID:Thrombin generation by exposure of blood to endotoxin: a simple model to study disseminated intravascular coagulation. 1670 16

Toll-like receptors (TLRs) are the best characterized pattern recognition receptors. Individual TLRs recruit diverse combinations of adaptor proteins, triggering signal transduction pathways and leading to the activation of various transcription factors, including nuclear factor kappaB, activation protein 1 and interferon regulatory factors. Interleukin-2 is one of the molecules produced by mouse dendritic cells after stimulation by different pattern recognition receptor agonists. By analogy with the events after T-cell receptor engagement leading to interleukin-2 production, it is therefore plausible that the stimulation of TLRs on dendritic cells may lead to activation of the Ca(2+)/calcineurin and NFAT (nuclear factor of activated T cells) pathway. Here we show that mouse dendritic cell stimulation with lipopolysaccharide (LPS) induces Src-family kinase and phospholipase Cgamma2 activation, influx of extracellular Ca(2+) and calcineurin-dependent nuclear NFAT translocation. The initiation of this pathway is independent of TLR4 engagement, and dependent exclusively on CD14. We also show that LPS-induced NFAT activation via CD14 is necessary to cause the apoptotic death of terminally differentiated dendritic cells, an event that is essential for maintaining self-tolerance and preventing autoimmunity. Consequently, blocking this pathway in vivo causes prolonged dendritic cell survival and an increase in T-cell priming capability. Our findings reveal novel aspects of molecular signalling triggered by LPS in dendritic cells, and identify a new role for CD14: the regulation of the dendritic cell life cycle through NFAT activation. Given the involvement of CD14 in disease, including sepsis and chronic heart failure, the discovery of signal transduction pathways activated exclusively via CD14 is an important step towards the development of potential treatments involving interference with CD14 functions.
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PMID:CD14 regulates the dendritic cell life cycle after LPS exposure through NFAT activation. 1952 33


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