Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036690 (sepsis)
 59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endotoxin (lipopolysaccharide [LPS])-induced cytokine release has been implicated in the pathogenesis of sepsis. Sublethal doses of LPS induce tolerance to a septic insult. This study evaluated pretreatment with interleukin 1 (IL-1) against an LPS challenge and examined its relationship to endotoxin tolerance. C3H/HeN mice (N = 100) were injected intraperitoneally with phosphate-buffered saline (control group), IL-1 (200 micrograms/kg), or LPS (1 mg/kg) for 3 days. On day 5, peritoneal macrophages were harvested and assayed for antimicrobial activity (superoxide anion production and Candida albicans phagocytosis). Serum cytokine levels and survival after an LPS challenge on day 5 were also assessed. Pretreatment with IL-1 or LPS significantly increased superoxide anion production, C albicans phagocytosis, and survival compared with pretreatment with phosphate-buffered solution. Interleukin 6 levels significantly decreased in the IL-1 and LPS groups. Peak levels of tumor necrosis factor significantly decreased only in the LPS group. Thus, pretreatment with IL-1 or low doses of LPS may exert protective effects by decreasing levels of interleukin 6 while increasing antimicrobial activity. Mice pretreated with IL-1 were protected from endotoxin despite elevated peak levels of tumor necrosis factor, suggesting a different mechanism for endotoxin tolerance than for tolerance to tumor necrosis factor.
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PMID:Interleukin 1 and its relationship to endotoxin tolerance. 131 50

Although studies indicate that simple hemorrhage induces profound depression of cell-mediated immunity and enhances the host's susceptibility to sepsis, the mechanism for this remains unknown. Since the Kupffer cells (KC) are positioned to have constant exposure to various immunomodulators and antigens released during hypotension, we have examined whether antigen presentation by KC, a critical component in eliciting an antigen specific immune response or those processes associated with it, are depressed following hemorrhage. C3H/HeN mice were bled to and maintained at a mean BP of 35 mmHg for 60 min, and then resuscitated with their own blood and adequate fluids. The mice were killed at varying periods of time after hemorrhage to obtain KC from the liver, and assessed for their capacity to present antigen to a sensitized clone Th/cell line (D10.G4.1). Hemorrhaged mice exhibited a marked decrease in antigen presenting capacity beginning as little as 2 h and lasting up to 3-5 days post-hemorrhage. The ability of KC to express mouse interleukin 1 (mIL-1) showed a significant decline at 2 h following hemorrhage, but this effect was not apparent at 24 h post-hemorrhage. In contrast, KC capacity to produce IL-1, IL-6 and tumour necrosis factor (TNF) (cytokines which can co-stimulate T cell antigen presentation) was markedly enhanced during the first 24 h following hemorrhage. A marked decrease was observed in both the mean of the average fluorescence per KC and the percent of Ia antigen-positive KC which persisted for at least 3 days after hemorrhage. The ability of ibuprofen (a cyclooxygenase blocker) to partially restore the antigen presenting capacity of KC from hemorrhaged mice in vitro indicates that prostaglandins are involved in this dysfunction. Thus, the depression of KC antigen presentation, as well as the enhanced capacity of these cells to release inflammatory mediators (TNF, IL-1, IL-6 and prostanoids) which may produce cell and organ dysfunction, could contribute to the host's enhanced susceptibility to sepsis following hemorrhage.
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PMID:Differential effects of hemorrhage on Kupffer cells: decreased antigen presentation despite increased inflammatory cytokine (IL-1, IL-6 and TNF) release. 131 64

Interleukin-1 alpha (IL-1 alpha) produced alterations in human dermal fibroblast glucose metabolism in vitro of the type seen in severe sepsis in man. Glycolysis and glucose uptake were increased but the oxidation of glucose within the tricarboxylic acid (TCA) cycle was reduced. The combined addition of tumour necrosis factor alpha (TNF alpha) with interferon-gamma (IFN-gamma) similarly increased the dependency for cellular energy provision from an oxidative to the glycolytic state. These cytokine-induced changes in glucose metabolism were unaffected when prostaglandin production was inhibited with a cyclo-oxygenase inhibitor, but were significantly reduced by the steroid dexamethasone. Thus, the inflammatory cytokines IL-1 and TNF alpha reportedly detected in the circulation during severe sepsis may directly affect not only glucose uptake but also its subsequent metabolism within tissue fibroblasts.
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PMID:Inflammatory cytokines stimulate glucose uptake and glycolysis but reduce glucose oxidation in human dermal fibroblasts in vitro. 151

Previous studies have shown that hepatocellular function is significantly depressed early during sepsis and that this is associated with a marked increase in the circulating levels of the hepatocellular stimulatory factor (IL-6). It remains unknown, however, whether or not Kupffer cells (KC) are activated during sepsis and whether these cells are the major contributors to the increased circulating levels of this cytokine. The objectives of this study were, therefore, to determine whether or not during sepsis: (1) KC are stimulated in vivo to release IL-6, as compared to other cytokines; (2) KC differ from splenic macrophages (SM phi) in their ability to release cytokines; and (3) there is a difference in macrophage (M phi) cytokine release between endotoxin (ET)-tolerant (C3H/HeJ) and ET-intolerant (C3H/HeN) mice. To assess this, KC and SM phi were harvested at 1 or 24 hr from mice which had been subjected to polymicrobial sepsis by cecal ligation and puncture (CLP) or sham-operation. Following depletion of the nonadherent cells, KC and SM phi cultures were incubated for 24 hr in the presence or absence of 10 micrograms of ET/ml, and the levels of interleukin (IL)-1, IL-6, and TNF release were determined by bioassays. Sepsis induced an early (at 1 hr) in vivo stimulation of KC but not SM phi IL-6 release, irrespective of ET-tolerance/intolerance. However, the release of IL-1 or TNF was not markedly different for either CLP or sham KC.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sepsis induces an early increased spontaneous release of hepatocellular stimulatory factor (interleukin-6) by Kupffer cells in both endotoxin tolerant and intolerant mice. 152 41

The influence of sepsis on intestinal protein synthesis was studied in rats. Sepsis was induced by caecal ligation and puncture (CLP); control rats were sham-operated. Protein synthesis was measured in vivo in the jejunum and ileum following a flooding dose of [14C]leucine. At 8 h after CLP the protein synthesis rate was increased by approx. 15% in jejunal mucosa, and at 16 h after CLP, the protein synthesis rate was increased by 50-60% in the mucosa and seromuscular layer of both jejunum and ileum. In a second series of experiments, rats were treated with recombinant tumour necrosis factor alpha (rTNF alpha) or recombinant interleukin-1 alpha (rIL-1 alpha) administered at a total dose of 300 micrograms/kg body weight over 16 h. Control rats received corresponding volumes of solvent. Treatment with rTNF alpha resulted in an approx. 25% increase in mucosal protein synthesis in jejunum. Following treatment with rIL-1 alpha, protein synthesis increased by 25% in jejunal mucosa and almost doubled in ileal mucosa. The results suggest that sepsis stimulates intestinal protein synthesis and that this response may, at least in part, be mediated by TNF and/or IL-1.
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PMID:Increased intestinal protein synthesis during sepsis and following the administration of tumour necrosis factor alpha or interleukin-1 alpha. 153 May 89

Although tumor necrosis factor (TNF) is undoubtedly a major mediator of the antitumor and shock-inducing activities of lipopolysaccharide (LPS), the outcome of a challenge with TNF is highly dependent on the presence or absence of other substances or conditions. We have previously shown that to obtain lethality in mice after TNF administration both TNF receptor (TNF-R) types have to be triggered. This is illustrated by the fact that recombinant human (rh) TNF, which is a selective murine (m) TNF-R55 agonist, is not lethal, whereas mTNF, which binds both mTNF-R55 and mTNF-R75, is lethal in mice. Triggering of TNF-R75 is, however, no longer needed when sensitizers such as galactosamine or low doses of LPS or interleukin (IL)-1 are also present. Here, we report that this selective species specificity of TNF is also reflected in patterns of induced IL-6: both rmTNF and rhTNF could induce considerable IL-6 peak levels in the plasma (up to 10 ng/ml) 2 to 3 h after TNF administration. However, only rmTNF was capable of inducing the same pattern of sustained IL-6 levels previously observed after lethal LPS doses, while rhTNF only caused induction of transient IL-6 levels, as found after nonlethal LPS doses. We also observed that the sensitizer IL-1 could complement rhTNF to induce such a sustained IL-6 induction. Since we were interested in sensitizers with a defined mechanism of action, we further investigated the effects of the glucocorticoid and progesterone inhibitor RU38486 on the lethal and IL-6-inducing properties of TNF. We observed that RU38486 closely mimicked IL-1: both had similar effects on IL-6 induction and sensitized mice to the lethal effects of TNF with comparable efficiency and kinetics. Using a monoclonal anti-IL-1R antibody, we finally observed that the effects of RU38486 were most probably not mediated by IL-1. These observations suggest that a glucocorticoid-antagonistic activity might be a key factor in the pathways leading to septic shock and that such activity could be a key target for the pharmacological manipulation of sepsis.
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PMID:The glucocorticoid antagonist RU38486 mimics interleukin-1 in its sensitization to the lethal and interleukin-6-inducing properties of tumor necrosis factor. 153 65

Macrophage hyperactivity with increased production of tumor necrosis factor, interleukin 6, interleukin 1, and prostaglandins has been demonstrated in the injured patient, but the effect of this on the clinical outcome is unclear. We studied the effect of combination interleukin 1 beta and indomethacin sodium therapy on macrophage hyperactivity and survival after sepsis in a murine burn model. Macrophage interleukin 1, interleukin 6, and tumor necrosis factor alpha production were all significantly increased 10 days after thermal injury. Treatment with recombinant human interleukin 1 beta in combination with indomethacin significantly reduced this overproduction of cytokines to normal levels, and this was associated with an improvement in survival after septic challenge (52% survival in interleukin 1 beta-indomethacin-treated group compared with 22% in burned vehicle control mice). Burned mice that received either interleukin 1 beta or indomethacin alone demonstrated tumor necrosis factor and interleukin 6 production and survival intermediate between the interleukin 1 beta-indomethacin-treated group and the vehicle control group. Control of macrophage hyperactivity is associated with improved survival from subsequent sepsis and offers a potential new strategy for the treatment of immune dysfunction in thermally injured patients.
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PMID:Modulation of macrophage hyperactivity improves survival in a burn-sepsis model. 154 91

Mice were subjected to sepsis by cecal ligation and puncture to determine whether macrophages from endotoxin-tolerant C3H/HeJ mice are also activated systemically to release inflammatory monokines associated with septic mortality. Blood levels of both tumor necrosis factor and interleukin 6 were significantly elevated during the first 1 to 4 hours of sepsis as compared with sham controls. Peritoneal macrophages from septic mice exhibited a marked spontaneous release of interleukin 1, interleukin 6, and tumor necrosis factor at 1 hour. However, the addition of endotoxin to macrophage cultures taken from septic mice had no further stimulatory effect. Sham controls alternatively showed no significant innate monokine release, but their macrophages did release increased monokine numbers in response to endotoxin. These results indicate that the spontaneous macrophage release of these monokines is comparable with that previously observed in endotoxin-sensitive mice, suggesting a common mechanism by which macrophages are primed by traumatic injury by an agent other than endotoxin to release monokines during sepsis. Thus, the administration of agents that decrease or prevent the deleterious effects of systemic inflammatory mediators during sepsis could be useful adjuvants in those clinical situations where the bacterial origin is unknown.
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PMID:Does endotoxin tolerance prevent the release of inflammatory monokines (interleukin 1, interleukin 6, or tumor necrosis factor) during sepsis? 154 97

Diseases accompanied by severe cardiac impairment like sepsis and chronic uremia are frequently linked to an increase in cytokine release. In order to investigate possible toxic effects of the immune mediators on myocardial cells, we studied the contractility of cardiac myocytes and the de novo formation of stress proteins in cultured heart cells under cytokine exposition. All cytokines investigated induce, concentration-dependently, arrhythmias and cessation of spontaneous contractions. Interleukin(IL)-2, IL-3, IL-6, and tumor necrosis factor (TNF) stimulate the synthesis of a 30 kD stress protein in heart cells, whereas IL-1 additionally evokes two proteins of the 70 kD family. These findings confirm a direct interference of the interleukins and TNF with myocytes and, especially, myocardial protein formation. As the induction of stress proteins makes cells more resistant towards a subsequent challenge, the cytokines are possibly involved in the activation of cell protecting mechanisms in cardiac myocytes.
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PMID:Cytokines induce stress protein formation in cultured cardiac myocytes. 156 50

Widespread intravascular coagulation is common in patients with sepsis. Coagulation abnormalities may result from exposure to endotoxin, from tumor necrosis factor alpha or interleukin 1 release, or from the actions of a more specific mediator, such as vascular permeability factor. The result is marked activation of the contact and coagulation systems; simultaneously, there is decreased fibrinolysis and depressed levels of the inhibitors of the contact and coagulation systems. Multiple agents are being studied to correct these abnormalities. Antithrombin III holds promise because it inhibits a number of factors important in contact and coagulation activation, not just thrombin. Plasminogen activators may prove helpful in increasing fibrinolysis during sepsis; because they have been associated with rebound thrombin generation, however, plasminogen activators may be most effective if used in conjunction with hirudin or a synthetic hirudin analogue. Bradykinin may offset hypotension in sepsis. Protein C may inhibit thrombin formation and also complex with plasminogen activator inhibitor 1, thereby promoting fibrinolysis. Other agents that may prove effective include alpha 1-antitrypsin Pittsburgh, C1-esterase inhibitor, monoclonal antibodies to contact factors, soybean trypsin inhibitors, thrombomodulin, prostaglandin I2, and aprotinin. There are no data to support the use of heparin or fibronectin, except in limited circumstances.
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PMID:Modulators of coagulation. A critical appraisal of their role in sepsis. 162 18


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