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)

The endogenous adrenocortical response to sepsis is critical for host survival. The in vivo interactions among the endogenous glucocorticoid response, the induction of cytokines, and host survival during endotoxemia were explored in this study by use of the glucocorticoid receptor antagonist RU 486. Male Lewis rats underwent sterile insertion of a right jugular venous catheter. After a 72-h recovery period, animals received a 50% lethal dose of Escherichia coli endotoxin (2.5 mg/kg) via the catheter after pretreatment for 30 min prior to lipopolysaccharide (LPS) treatment with (i) vehicle alone intravenously (i.v.) (-corticosterone [-Cort]/-RU 486/+LPS) (n = 10), (ii) the antiglucocorticoid RU 486 (10 mg/kg) i.v. (-Cort/+RU 486/+LPS) (n = 11), or (iii) RU 486 (10 mg/kg) i.v. in animals that had undergone subcutaneous implantation of a corticosterone pellet at the time of catheter insertion (+Cort/+RU 486/+LPS) (n = 10). Except in animals receiving corticosterone pretreatment, baseline plasma corticosterone levels were low in all groups. Plasma corticosterone levels increased significantly (P less than 0.001) above the baseline following LPS administration. Animals in the -Cort/+RU 486/+LPS-treated group exhibited significantly increased mortality (P less than 0.001), with only 9% of the animals surviving at 72 h, as well as significantly increased plasma interleukin-6 levels, compared with animals receiving the vehicle alone (-Cort/-RU 486/+LPS), which showed 50% mortality. Pretreatment with corticosterone and RU 486 (+Cort/+RU 486/+LPS) significantly (P less than 0.001) reversed the mortality observed with RU 486 pretreatment alone (-Cort/+RU 486/+LPS), with 70% of the animals surviving at 72 h, and significantly attenuated the peak plasma tumor necrosis factor and interleukin-6 responses to LPS, compared with those in the animals treated with vehicle alone. These data demonstrate that the blockade of glucocorticoid binding by RU 486 increases LPS-induced mortality. The reversal of this effect by the induction of hypercorticosteronemia prior to RU 486 and LPS exposure (+Cort/+RU 486/+LPS) improves survival and is further associated with significant attenuation of cytokine production. Therefore, these data suggest that the protective effect of the endogenous glucocorticoid response to acute endotoxemia may result from the down-regulation of a potentially lethal cytokine response.
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PMID:In vivo effects of the antiglucocorticoid RU 486 on glucocorticoid and cytokine responses to Escherichia coli endotoxin. 161 34

The role of glucocorticoids in muscle catabolism during sepsis was tested with the glucocorticoid receptor antagonist RU 38486. Sepsis was induced in male Sprague-Dawley rats (40 to 60 gm) by cecal ligation and puncture (CLP). Other animals underwent sham operation. Two hours before CLP or sham operation, rats received RU 38486 (5 mg/kg) or a corresponding volume of vehicle by gavage. Sixteen hours after CLP or sham operation, protein synthesis rate was determined by measuring incorporation of 14C-phenylalanine into protein in incubated extensor digitorum longus muscles. Total and myofibrillar protein breakdown rates were determined by measuring net release of tyrosine and 3-methylhistidine, respectively. The protein synthesis rate was approximately 30% lower in rats with sepsis than in sham operated rats and was not affected by treatment with RU 38486. The total protein breakdown rate was increased by approximately 70% and myofibrillar protein degradation was increased more than fivefold in muscle from rats with sepsis. Treatment with RU 38486 resulted in a 28% reduction of total and a 44% reduction of myofibrillar protein breakdown in rats with sepsis but did not affect proteolysis in muscle from sham-operated animals. The results support a role of glucocorticoids in accelerated muscle proteolysis during sepsis. It is not clear whether glucocorticoids are the only required mediator or they interact with other substances to induce muscle protein breakdown during sepsis.
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PMID:Effect of the glucocorticoid receptor antagonist RU 38486 on muscle protein breakdown in sepsis. 200 52

Muscle amino acid uptake is inhibited during sepsis and endotoxemia. Cytokines, in particular tumor necrosis factor (TNF) and interleukin-1 (IL-1), have been implicated as mediators of metabolic alterations in sepsis and other critical illness. In this study, we examined the effect of TNF and IL-1 on muscle amino acid uptake and tested the hypothesis that cytokine-induced changes in muscle amino acid uptake are mediated by glucocorticoids. Intraperitoneal injection in rats of 100 micrograms per kilogram body weight of human recombinant TNF alpha (rTNF alpha) or rIL-1 alpha resulted, two hours later, in 36 and 24 percent reduction, respectively, of amino acid transport in incubated soleus muscles, determined as intracellular uptake of alpha-aminoisobutyric acid. When rats were treated with the glucocorticoid receptor antagonist RU 38486 (5 milligrams per kilogram of body weight) two hours before cytokine injection, the inhibitory effect on muscle amino acid transport of TNF was blocked, whereas that of IL-1 was unaffected. The present results suggest that TNF and IL-1 may regulate amino acid transport in skeletal muscle and that the effect of TNF, but not that of IL-1, is at least partly mediated by glucocorticoids.
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PMID:Effect of tumor necrosis factor or interleukin-1 on muscle amino acid uptake and the role of glucocorticoids. 832 45

Sepsis and endotoxemia are associated with increased muscle protein breakdown and inhibited amino acid uptake. Glucocorticoids are important for the regulation of muscle protein breakdown in catabolic conditions; in contrast, the role of glucocorticoids in the regulation of muscle amino acid transport during sepsis or endotoxemia is not known. The present study was designed to test the role of glucocorticoids in the regulation of muscle amino acid uptake during endotoxemia. Amino acid transport, determined as uptake of 3H-alpha-aminoisobutyric acid (AIB) by incubated soleus muscles in vitro, was reduced by approximately 40% 2 hours after intraperitoneal (IP) injection of 10 micrograms/kg endotoxin in rats. Administration of 5 mg/kg of the glucocorticoid receptor antagonist RU 38486 2 hours before endotoxin injection did not affect the inhibition of amino acid uptake. In vitro addition of plasma from endotoxemic rats to incubated rat soleus muscles inhibited amino acid uptake by approximately 30%. This effect of endotoxic plasma also was noted when muscles were from rats that had been treated with RU 38486 and when RU 38486 was present in the incubation medium. Results confirm previous reports of reduced muscle amino acid transport during endotoxemia and of the presence of a circulating factor that inhibits muscle amino acid uptake in this condition. Data suggest that inhibited muscle amino acid transport during endotoxemia is not regulated by glucocorticoids.
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PMID:Evidence that inhibition of muscle amino acid uptake during endotoxemia is not mediated by glucocorticoids. 841 74

Recent studies suggest that sepsis-induced increase in muscle proteolysis mainly reflects energy-ubiquitin-dependent protein breakdown. We tested the hypothesis that glucocorticoids activate the energy-ubiquitin-dependent proteolytic pathway in skeletal muscle during sepsis. Rats underwent induction of sepsis by cecal ligation and puncture or were sham-operated and muscle protein breakdown rates were measured 16 h later. The glucocorticoid receptor antagonist RU 38486 or vehicle was administered to groups of septic and sham-operated rats. In other experiments, dexamethasone (2.5 or 10 mg/kg) was injected subcutaneously in normal rats. Total and myofibrillar proteolysis was determined in incubated extensor digitorum longus muscles as release of tyrosine and 3-methylhistidine, respectively. Energy-dependent proteolysis was determined in incubated muscles depleted of energy with 2-deoxyglucose and 2,4-dinitrophenol. Levels of muscle ubiquitin mRNA and free and conjugated ubiquitin were determined by Northern and Western blot, respectively. RU 38486 inhibited the sepsis-induced increase in total and myofibrillar energy-dependent protein breakdown rates and blunted the increase in ubiquitin mRNA levels and free ubiquitin. Some, but not all, sepsis-induced changes in ubiquitin protein conjugates were inhibited by RU 38486. Injection of dexamethasone in normal rats increased energy-dependent proteolysis and ubiquitin mRNA levels. The results suggest that glucocorticoids regulate the energy-ubiquitin-dependent proteolytic pathway in skeletal muscle during sepsis.
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PMID:Energy-ubiquitin-dependent muscle proteolysis during sepsis in rats is regulated by glucocorticoids. 856 53

The influence of sepsis on polyamine metabolism in the liver was studied in rats. Sepsis was induced by cecal ligation and puncture; control rats were sham-operated. Sepsis resulted in increased concentrations in liver tissue of putrescine and spermidine and stimulated activity of the enzymes ornithine decarboxylase (ODC) and s-adenosylmethionine decarboxylase. A similar metabolic response was seen following the subcutaneous injection of 1 mg/kg of endotoxin or following the e intraperitoneal injection of 100 micrograms/kg of human recombinant tumor necrosis factor (TNF)-alpha or interleukin-1 alpha (IL-1 alpha). ODC mRNA levels determined by Northern blots were increased in liver tissue of septic rats, suggesting that the increase in ODC activity may be regulated at the transcriptional level although increased stability of the messenger could give rise to similar results. Treatment of rats with either TNF antiserum, recombinant IL-1 receptor antagonist, or the glucocorticoid receptor antagonist RU 38486, did not prevent the sepsis-induced increase in hepatic ODC activity. The data suggest that sepsis stimulates the biosynthesis of polyamines in liver tissue and that this response to sepsis may not primarily be mediated by TNF, IL-1, or glucocorticoids. The biological role of increased liver polyamines during sepsis, in particular their relationship with the synthesis of acute phase proteins, remains to be determined.
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PMID:Sepsis stimulates polyamine biosynthesis in the liver and increases tissue levels of ornithine decarboxylase mRNA. 860 96

Monophosphoryl lipid A (MPL) is a nontoxic derivative of the lipid A region of lipopolysaccharide (LPS) that is being developed as both an adjuvant and prophylactic drug for septic shock. We compared the ability of LPS and MPL to induce interleukin-10 (IL-10), IL-12 p35, IL-12 p40, gamma interferon (IFN-gamma), glucocorticoid receptor (GR), IL-1 receptor antagonist (IL-1ra), and inducible nitric oxide synthase mRNA expression in murine peritoneal macrophages. These genes were chosen for their ability to positively or negatively regulate the host immune response and thus for their potential involvement in MPL-induced adjuvanticity or in its ability to protect against sepsis. LPS was a more potent inducer of IL-12 p35, IL-12 p40, and IFN-gamma mRNA, as well as of IL-12 protein, than MPL. In contrast, MPL induced higher levels of IL-10 mRNA than did LPS from 1 to 1,000 ng/ml. In general, MPL was not a more potent inducer of negative regulatory genes, since MPL and LPS induced similar levels of GR and IL-1ra mRNA. Addition of anti-IL-10 antibody to cultures increased the induction of MPL-induced IL-12 p35, IL-12 p40, and IFN-gamma mRNA, suggesting that the enhanced production of IL-10 by MPL-stimulated macrophages contributes to decreased production of mRNA for IL-12 (p35 and p40) and IFN-gamma. Conversely, the addition of exogenous IL-10 to LPS-treated macrophages reduced the mRNA expression of these cytokine genes. These studies suggest that enhanced production of IL-10 by MPL-stimulated macrophages may contribute to the reduced toxicity of MPL through its negative action on induction of cytokines shown to enhance endotoxicity.
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PMID:Lipopolysaccharide and monophosphoryl lipid A differentially regulate interleukin-12, gamma interferon, and interleukin-10 mRNA production in murine macrophages. 923 81

Septic shock is a dangerous condition with high mortality rates. In sepsis, the inducible form of nitric oxide (NO) synthase is induced, releasing high amounts of NO. Glucocorticoids have potent anti-inflammatory properties and are very effective in inhibiting the induction of this enzyme if administered before the shock onset. It is known that glucocorticoid receptor (GR) has critical cysteine residues for steroid binding in its hormone-binding and DNA-binding domains. It has also been reported that NO reacts with ---SH groups, forming S-nitrosothiols. Therefore, we examined the potential effect of NO on the ligand-binding ability of GR. NO donors (S-nitroso-acetyl-DL-penicillamine, S-nitroso-DL-penicillamine, or S-nitroso-glutathione) decreased, in a time- and dose-dependent manner, the binding of [3H]triamcinolone to immunoprecipitated GR from mouse L929 fibroblasts. The nonnitrosylated parent molecules, N-acetyl-DL-penicillamine, and reduced gluthatione were without effect. Scatchard plots revealed that the number of ligand binding sites and Kd were reduced (50%) by NO donors. Western blot analysis ruled out the possibility that dissociation of GR/heat shock protein 90 heterocomplex or decrease in GR protein would account for the inhibitory effect of NO. Decreased ligand binding to GR was found when NO donors were incubated with intact fibroblasts. Incubation with NO donors also decreased the steroid-induced reduction in [3H]uridine incorporation into RNA. All of these NO effects were inhibited by the thiol-protecting agent dithiothreitol. Therefore, S-nitrosylation of critical ---SH groups in GR by NO with consequent decreases in binding and affinity may be the mechanisms which explain the failure of glucocorticoids to exert their anti-inflammatory effects in septic shock.
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PMID:Inhibition of glucocorticoid receptor binding by nitric oxide. 992 24

Muscle protein breakdown during sepsis is associated with upregulated expression and activity of the ubiquitin-proteasome proteolytic pathway. Previous studies suggest that ubiquitination of proteins in skeletal muscle is regulated by the ubiquitin ligase E3alpha together with the 14 kDa ubiquitin-conjugating enzyme E2(14k). The E3alpha gene was cloned only recently. The influence of sepsis on the gene expression of E3alpha in skeletal muscle has not been reported. In the present study, induction of sepsis in rats by cecal ligation and puncture resulted in increased mRNA levels for E3alpha in white, fast-twitch but not in red slow-twitch muscle. Treatment with the glucocorticoid receptor antagonist RU38486 (10 mg/kg) prevented the sepsis-induced increase in E3alpha and E2(14k) mRNA levels. The present study is the first report of increased E3alpha expression in skeletal muscle during sepsis. The results lend further support to the concept that glucocorticoid-mediated upregulation of the ubiquitin-proteasome proteolytic pathway is involved in sepsis-induced muscle cachexia. Increased expression of both E3alpha and E2(14k) suggests that muscle proteins are degraded in the N-end rule pathway during sepsis.
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PMID:The gene expression of ubiquitin ligase E3alpha is upregulated in skeletal muscle during sepsis in rats-potential role of glucocorticoids. 1063 Oct 91

Sepsis is associated with increased muscle proteolysis and upregulated transcription of several genes in the ubiquitin-proteasome proteolytic pathway. Glucocorticoids are the most important mediator of sepsis-induced muscle cachexia. Here, we examined the influence of sepsis in rats on the transcription factors NF-kappaB and AP-1 in skeletal muscle and the potential role of glucocorticoids in the regulation of these transcription factors. Sepsis was induced by cecal ligation and puncture (CLP). Control rats were sham-operated. NF-kappaB and AP-1 DNA binding activity was determined by electrophoretic mobility shift assay (EMSA) in extensor digitorum longus muscles at different time points up to 16 h after sham-operation or CLP. Sepsis resulted in an early (4 h) upregulation of NF-kappaB activity followed by inhibited NF-kappaB activity at 16 h. AP-1 binding activity was increased at all time points studied during the septic course. When rats were treated with the glucocorticoid receptor antagonist RU38486, NF-kappaB activity increased, whereas AP-1 activity was not influenced by RU38486. The results suggest that NF-kappaB and AP-1 are differentially regulated in skeletal muscle during sepsis and that glucocorticoids may regulate some but not all transcription factors in septic muscle.
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PMID:The transcription factors NF-kappab and AP-1 are differentially regulated in skeletal muscle during sepsis. 1124 82

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