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)

Patients with sepsis often manifest disorientation, somnolence, asterixis and coma, symptoms also seen in portasystemic encephalopathy. Altered plasma concentrations of the neutral amino acids and in creased blood-brain transport of these acids may play a role in portasystemic encephalopathy. Plasma amino acids and blood-brain barrier transport of neutral amino acids were investigated in a rat model of abdominal sepsis, cecal ligation and puncture. The blood-brain transport was studied by the technique of Oldendorf with carbon-14-amino acids 12 and 24 hours after the induction of sepsis. In similar groups of animals, isolation of brain capillaries was carried out by the technique of Hjelle and the capillaries were incubated with carbon-14-amino acids to study transport activity. Plasma and brain amino acids were deranged in a fashion similar to the derangements seen in portasystemic encephalopathy, with a decrease in plasma branched chain amino acids and an increase in most neutral amino acids in brain. The changes were most pronounced after 24 hours. The brain uptake of several neutral amino acids was increased in the septic rats, while the uptake of lysine, a basic amino acid, was normal. In the brain capillaries isolated from septic rats, tyrosine and leucine transport was also greater than in sham-operated animals. Elevated neutral amino acids may play a role in the encephalopathy encountered in septic patients similar to its role in patients with portasystemic encephalopathy, as similar mechanisms appear to be operating.
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PMID:Blood-brain barrier derangement in sepsis: cause of septic encephalopathy? 745 18

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

Muscle protein degradation and intracellular protease activities were investigated in disseminated intravascular coagulation (DIC), which is frequently associated with severe catabolic states such as sepsis and multiple organ failure. DIC was introduced in rats by repeated intravenous thrombin injections. Saline was injected in control rats. In the 28 rats (14 with DIC and 14 controls), the bilateral soleus (SOL) muscles were incubated in an oxygenated medium without cycloheximide (CH) to determine the release of tyrosine (Tyr) into the incubated medium. From 24 rats (12 with DIC and 12 controls), the SOL and extensor digitorum longus (EDL) muscles were harvested to measure the activities of proteasome and of cathepsins L and B. The contralateral muscles were incubated in a medium with 0.5 mM CH to determine the release of Tyr and 3-methylhistidine (3-MH). The release of Tyr without CH (net proteolysis) from SOL muscles with DIC was greater than in controls (218 +/- 83.3 vs. 145 +/- 47.7 pmol/mg/h. However, the release of Tyr and 3-MH with CH (total proteolysis) and the activities of proteasome and cathepsins in DIC were nearly the same as those in controls. In both DIC and control rats, the total release of Tyr and proteasome activity were greater in SOL than in EDL muscles. These results suggest that reutilization of Tyr, reflecting protein synthesis, is suppressed in DIC and that the red slow muscle is more active in nonfibrillar proteolysis than the white fast muscle.
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PMID:Modulation of muscle protein metabolism in disseminated intravascular coagulation. 764 9

Oxidant-mediated toxicity resulting from acute pulmonary inflammation has been demonstrated in acute lung injury. A potent biological oxidant, peroxynitrite, is formed by the near diffusion-limited reaction of nitric oxide with superoxide. In addition to having hydroxyl radical-like oxidative reactivity, peroxynitrite is capable of nitrating phenolic rings, including protein-associated tyrosine residues. Nitric oxide does not directly nitrate tyrosine residues, therefore, demonstration of tissue nitrotyrosine residues infers the action of peroxynitrite or related nitrogen-centered oxidants. Lung tissue was obtained from formalin-fixed, paraffin-embedded autopsy specimens, and specific polyclonal and monoclonal antibodies to nitrotyrosine were visualized by diaminobenzidene-peroxidase staining. Acute lung injury resulted in intense staining throughout the lung, including lung interstitium, alveolar epithelium, proteinaceous alveolar exudate, and inflammatory cells. In addition, staining of the vascular endothelium and subendothelial tissues was present in those patients with sepsis-induced acute lung injury. Antibody binding was blocked by coincubation with nitrotyrosine or nitrated bovine serum albumin but not by aminotyrosine, phosphotyrosine, or bovine serum albumin. Reduction of tissue nitrotyrosine to aminotyrosine by sodium hydrosulfite also blocked antibody binding. In control specimens with no overt pulmonary disease, there was only slight staining of the alveolar septum. These results demonstrate that nitrogen-derived oxidants are formed in human acute lung injury and suggest that peroxynitrite may be an important oxidant in inflammatory lung disease.
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PMID:Evidence for in vivo peroxynitrite production in human acute lung injury. 769 61

In the past decade it has become apparent that many diseases result from aberrations in signaling pathways. These include proliferative diseases such as cancers, atherosclerosis and psoriasis and inflammatory conditions such as sepsis, rheumatoid arthritis and tissue rejection. These findings refocused the research of the medical community to seek new modalities for disease management which essentially consist of designing drugs which intercept cell signaling. In this review, the emerging success in using tyrosine kinase blockers and other signal interceptors, such as protein kinase C blockers, Ras blockers, Ca2+ signaling inhibitors and estrogen antagonists which inhibit growth of cancer cells in vitro and in vivo, will be discussed. These signal interceptors, especially tyrosine-kinase blockers, are also able to block inflammatory responses and the proliferation of vascular smooth muscle cells and psoriatic keratinocytes. The utility of signal interceptors in analyzing signal-transduction pathways is also discussed.
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PMID:Signal-transduction therapy. A novel approach to disease management. 795 36

Concentrations of amino acids in plasma and whole blood in response to 10 hours of food deprivation were determined in healthy 2-day-old foals (n = 8) and were compared with control values in foals of the same age (n = 8) allowed free access to suckle. In addition, response of concentrations of amino acids in plasma to 15 minutes of free-access suckling was determined at the end of the 10-hour period in both groups. Response of 13 amino acids in plasma of food-deprived foals was significantly (P < 0.05) different, compared with that in control foals. Concentrations of 3 amino acids (alanine, glycine, and phenylalanine) in plasma increased significantly (P < 0.05), whereas concentrations of 7 amino acids (asparagine, citrulline, histidine, ornithine, proline, tryptophan, and tyrosine) in plasma decreased significantly (P < 0.05) during food deprivation. Response of concentrations of 2 amino acids (glycine and histidine) in whole blood was significantly (P < 0.05) different from that in plasma of food-deprived vs control foals. Refeeding of food-deprived foals resulted in significantly (P < 0.05) different responses for concentrations of all but 2 amino acids (cystine and taurine) in plasma, compared with responses in controls. Changes in concentrations of amino acids in plasma and whole blood of foals in response to food deprivation are similar to those in foals with septicemia and in children with grade 1 or 2 kwashiorkor. The significantly different response of food-deprived foals to refeeding may be attributable to increased protein intake or altered physiologic state.
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PMID:Concentrations of amino acids in plasma and whole blood in response to food deprivation and refeeding in healthy two-day-old foals. 797 19

We tested the role of different intracellular proteolytic pathways in sepsis-induced muscle proteolysis. Sepsis was induced in rats by cecal ligation and puncture; controls were sham operated. Total and myofibrillar proteolysis was determined in incubated extensor digitorum longus muscles as release of tyrosine and 3-methylhistidine, respectively. Lysosomal proteolysis was assessed by using the lysosomotropic agents NH4Cl, chloroquine, leupeptin, and methylamine. Ca(2+)-dependent proteolysis was determined in the absence or presence of Ca2+ or by blocking the Ca(2+)-dependent proteases calpain I and II. Energy-dependent proteolysis was determined in muscles depleted of ATP by 2-deoxyglucose and 2.4-dinitrophenol. Muscle ubiquitin mRNA and the concentrations of free and conjugated ubiquitin were determined by Northern and Western blots, respectively, to assess the role of the ATP-ubiquitin-dependent proteolytic pathway. Total and myofibrillar protein breakdown was increased during sepsis by 50 and 440%, respectively. Lysosomal and Ca(2+)-dependent proteolysis was similar in control and septic rats. In contrast, energy-dependent total and myofibrillar protein breakdown was increased by 172% and more than fourfold, respectively, in septic muscle. Ubiquitin mRNA was increased severalfold in septic muscle. The results suggest that the increase in muscle proteolysis during sepsis is due to an increase in nonlysosomal energy-dependent protein breakdown, which may involve the ubiquitin system.
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PMID:Sepsis stimulates nonlysosomal, energy-dependent proteolysis and increases ubiquitin mRNA levels in rat skeletal muscle. 798 81

1. The role of interleukin-1 (IL-1) in sepsis-induced muscle proteolysis was assessed by treating septic rats with recombinant IL-1 receptor antagonist (rIL-1ra). 2. In initial experiments, we tested the effectiveness of IL-1ra in preventing muscle proteolysis induced by administration of IL-1. 3. When normal rats were treated with rIL-1 alpha (three intraperitoneal doses of 100 micrograms/kg body weight each over 16 hr), total and myofibrillar muscle protein breakdown rates, measured as release of tyrosine and 3-methylhistidine, respectively, by incubated extensor digitorum longus muscles, were significantly increased. 4. This metabolic response to IL-1 alpha was completely abolished by rIL-1ra, administered as three intraperitoneal doses of 3 mg/kg body weight each over 16 hr. 5. In subsequent experiments, sepsis was induced in rats by cecal ligation and puncture (CLP); non-septic rats were sham-operated. 6. Treatment of septic rats over 16 hr with a total dose of 25 mg/kg body weight of rIL-1ra reduced, but did not normalize, the increased muscle protein breakdown rates seen during sepsis. 7. When the dose of rIL-1ra was more than doubled and given as a constant infusion at a rate of 4.2 mg/kg body weight/hr for 16 hr, the increased rate of muscle proteolysis in septic rats was normalized. 8. The present study offers the first direct evidence that IL-1 is involved in the regulation of muscle proteolysis during sepsis.
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PMID:Reduced muscle protein breakdown in septic rats following treatment with interleukin-1 receptor antagonist. 806 18

To better understand the impact of severe illness on the amino acid economy and nutritional needs of pediatric patients, we studied plasma phenylalanine and tyrosine kinetics in eleven critically ill patients (six full-term newborns and five young infants). Within 48 h of the diagnosis of sepsis they were given primed constant i.v. infusions of L-[1-13C]phenylalanine and L-[3,3,2H2]tyrosine for 4 h. Routine nutritional support continued during this period by parenteral administration of dextrose, lipid emulsion, and an amino acid mixture low in tyrosine. Phenylalanine and tyrosine fluxes and rate of phenylalanine hydroxylation did not differ significantly between the two age groups, and so the data were combined for evaluation. For the entire group, values (mumol.kg-1.h-1; mean +/- SD) for phenylalanine and tyrosine fluxes and rate of phenylalanine hydroxylation were 132 +/- 24, 66 +/- 16, and 29 +/- 12, respectively. Plasma phenylalanine to tyrosine concentration ratio was 1.67 +/- 0.6. From a comparison of the rate of phenylalanine hydroxylation with measured phenylalanine intakes, it was concluded that their routine, clinical nutritional support was inadequate to achieve body phenylalanine balance. In comparison with published data, the relative rate of phenylalanine hydroxylation appears to be high. We speculate that tyrosine is a conditionally indispensable amino acid under these conditions; it would be desirable to establish the intake levels and ratio of phenylalanine to tyrosine that effectively support aromatic amino acid balance in these critically ill patients.
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PMID:Phenylalanine and tyrosine kinetics in critically ill children with sepsis. 806 41

The addition of recombinant human interleukin-6 (rIL-6) to either soleus or extensor digitorum longus (EDL) muscle preparations did not affect the rate of protein breakdown as measured by the rate of tyrosine released to the medium. In addition, the presence of the cytokine did not influence either the rate of protein synthesis or that of alpha-(methyl)-aminoisobutyric acid (MeAIB) uptake by the muscle preparations. It is concluded that IL-6 is not the mediator in activating muscle protein turnover during sepsis in the rat.
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PMID:Interleukin-6 does not activate protein breakdown in rat skeletal muscle. 812 60

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