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)

Sepsis, as infection associated to systemic manifestations, was produced in rats by cecal ligation and double perforation. Sham-operated rats were used as controls. The spontaneous chemiluminescence of rat adductor muscle and liver were measured at 6, 12, 24, and 30 h after the surgical procedure. Muscle chemiluminescence showed a maximal increase of about twofold (control emission 10 +/- 1 cps/cm2) after 6-12 h of sepsis, while liver chemiluminescence increased by about 80% (control emission: 11 +/- 1 cps/cm2) after 24 h of sepsis. The activities of muscle antioxidant enzymes were found maximally diminished after 12 h of sepsis: 46% decrease for Mn-superoxide dismutase, 83% decrease for catalase, and 55% decrease for glutathione peroxidase. In liver, only catalase activity showed a 52% decrease after 24 h of sepsis. State 3 oxygen uptake of muscle mitochondria with either malate-glutamate or succinate as substrates was 40% decreased after 12 h of sepsis in both cases. State 4 oxygen uptake of muscle mitochondria was not affected. The rate of H2O2 production of muscle mitochondria after 12 h of sepsis with either malate-glutamate or succinate as substrates was increased about 2.5 times but was not affected when assayed in the presence of as rotenone and antimycin. The oxygen uptake of liver mitochondria isolated from septic rats did not show differences as compared with those of control rats after 6 to 24 h of sepsis. Oxidative stress appears to occur in skeletal muscle early at the onset of the septic syndrome, with inhibition of active mitochondrial respiration and inactivation of antioxidant enzymes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Oxidative stress in muscle and liver of rats with septic syndrome. 800 29

Gut fuel utilisation has several unique features. Arterial and luminal fuels provide nutrition for the enterocyte, the former being of more importance. This factor, and the heterogeneity of cell types within the gut makes it difficult to define its fuel utilisation. Metabolic control logic suggests that modulation of the maximal activity of any pathway resides in those enzymes that operate in vivo at rates far below their maximal capacity and that catalyse non-equilibrium reactions. On this basis, although enterocyte hexokinase activity is much higher than in other 'glycolytic' cells (for example, brain), potentially high rates of glucose utilisation are modulated by substrate cycling of glucose 6-phosphate back to glucose through glucose 6-phosphatase. Glutamine metabolism proceeds by glutaminase to produce glutamate, which may then be transaminated (aspartate-aminotransferase and alanine-amino transferase) to produce alpha-ketoglutarate, alanine, and aspartate. The end products of glutamine metabolism by incubated gut preparations in vitro (mainly alanine), suggests that enterocytes, not immune cells, are responsible for most gut glutamine metabolism. High flux rates of glucose and glutamine metabolism in the enterocyte may result from the need for de novo synthesis of purines and pyrimidines and ribose sugars for nucleic acid synthesis. Sepsis reduces rates of glucose and glutamine metabolism, perhaps to preserve the increased consumption of these fuels by activated lymphocytes and macrophages in the gut wall.
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PMID:Quantitative aspects of glucose and glutamine metabolism by intestinal cells. 812 83

Insufficient glutamine for the lungs during sepsis may contribute to an impairment in lung function. Lung glutamine metabolism is supported by both blood glutamine uptake and de novo biosynthesis using circulating glutamate as a precursor. Information regarding the specific plasma membrane carriers involved in this uptake is lacking. Furthermore, the effect of sepsis on amino acid transport in whole lung has not been studied. We isolated lung plasma membrane vesicles (LPMVs) from control and LPS-treated rats and assayed glutamine and glutamate transport activity in LPMVs. Vesicle purity and functionality were confirmed by time-dependent concentrative amino acid uptake in the presence of Na+, impoverishment of microsomal enzymes, and a 25-fold enrichment in the plasma membrane marker 5'-nucleotidase. Eighty percent of glutamine uptake in lung vesicles was mediated via the high affinity Na(+)-dependent carrier System ASC (Vmax = 80 +/- 10 pmole/mg protein/15 sec; Km = 224 +/- 30 microM) while 19% occurred via the Na(+)-independent System ASC (Vmax = 11 +/- 2 pmole/mg/15 sec; Km = 141 +/- 23 microM). Ninety percent of glutamate transport was mediated by the Na(+)-independent System XAG-. Treatment of rats with LPS resulted in a decrease in both glutamine and glutamate transport in LPMVs. LPMVs offer a novel method for characterizing lung amino acid transport and studying the effects of catabolic states on this activity. The effects of endotoxin on System ASC and XAG- activity may contribute to reduced lung glutamine availability during septic states which may impair cellular metabolism and function.
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PMID:Characterization of glutamine and glutamate transport in rat lung plasma membrane vesicles. 922 17

The activity of glutaminase is high in lymphoid organs, lymphocytes and macrophages and increases in the popliteal lymph node in response to an immunological challenge. Consistent with this high activity, glutamine is utilised at a high rate by resting lymphocytes and macrophages in culture. Mitogenic stimulation of lymphocytes increases both glutaminase activity and the rate of glutamine utilisation. The major products of glutamine utilisation by lymphocytes and macrophages in culture are glutamate, aspartate, lactate and ammonia; < 25% of the glutamine used is completely oxidised. It is suggested that the high rate of glutamine utilisation by cells of the immune system serves to maintain a high intracellular concentration of intermediates of biosynthetic pathways such that optimal rates of DNA, RNA and protein synthesis can be maintained. In the absence of glutamine, lymphocytes do not proliferate in vitro; proliferation increases greatly as the glutamine concentration increases. The synthesis of interleukin-2 by lymphocytes and of interleukin-1 by macrophages is glutamine-dependent. Macrophage-mediated phagocytosis is influenced by glutamine availability. Glutamine is synthesized in skeletal muscle. Skeletal muscle and plasma glutamine levels are lowered by sepsis, injury, burns, surgery and endurance exercise and in the overtrained athlete. These observations indicate that a significant depletion of the skeletal muscle glutamine pool is characteristic of trauma and it has been suggested that the lowered plasma glutamine concentration contributes, at least in part, to the immunosuppression which accompanies such situations. Beneficial effects of the provision of glutamine or its precursors have been reported in patients following surgery, radiation treatment or bone marrow transplantation or suffering from injury, sepsis or burns.
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PMID:The proposed role of glutamine in some cells of the immune system and speculative consequences for the whole animal. 926 77

We hypothesized that cellular oxygen consumption is abnormal during sepsis as a result of increased oxidative stress and selective mitochondrial damage. In a rat model of sepsis (cecal ligation and puncture), we studied the respiratory characteristics of isolated hepatocytes and liver mitochondria 16 h after onset of septic injury. Endogenous respiration by isolated cells was decreased during sepsis, while cyanide-resistant (nonmitochondrial) respiration was unaffected. Maximal oxygen consumption in ADP-supplemented, permeabilized hepatocytes was decreased with succinate as the substrate, but not with malate + glutamate or TMPD + ascorbate. In contrast, maximum oxygen consumption (State 3) by isolated liver mitochondria increased up to 35% during sepsis using either succinate or malate + glutamate as substrate. The electrophoretic features and mobility of nondenatured mitochondrial respiratory complexes were similar in control and septic hepatocytes, with the exception of decreased Complex V protein in sepsis. Structural evaluation of mitochondria in fixed liver slices by electron microscopy showed mitochondrial swelling in most of the septic animals. Measurements of oxidative stress during sepsis suggested an increase in hydroxylation of salicylate by isolated hepatocytes, and mitochondrial protein carbonyl content was increased significantly. Induction of iNOS in hepatocytes after 16 h of sepsis was variable, and little release of the oxidation products of NO. was detected. These findings are interpreted to mean that hepatocytes contain a mixed population of injured and hyperfunctional mitochondria during sepsis.
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PMID:Oxidative metabolism in rat hepatocytes and mitochondria during sepsis. 930

During sepsis, the lung responds by exporting increased amounts of the amino acid glutamine. This response is accompanied by increased enzymatic activity of glutamine synthetase (GS), which catalyzes the synthesis of glutamine from glutamate and ammonia. It is also known that GS expression in the rat lung can be induced by glucocorticoid hormones. To determine whether the septic response and the response to glucocorticoids are related, we have characterized the induction of GS expression during lipopolysaccharide (LPS)-induced endotoxemia in normal, neutropenic, and adrenalectomized rats. Normal rats exhibited a time- and dose-dependent induction of GS mRNA levels after a single intraperitoneal dose of LPS. Responses to LPS were maximal at doses of 0.1 mg/kg body wt and above. A single 10 mg/kg body wt dose of LPS led to a rapid, transient sevenfold increase in GS mRNA (P < or = 0.1) and a twofold increase in GS protein level 8 h postinjection. Induction of lung GS mRNA 4 h after LPS injection was approximately fivefold in neutropenic (P < or = 0.1) and fourfold in nonneutropenic control rats (P < or = 0.1), suggesting that infiltrating neutrophils or neutrophil-derived factors are not required for GS induction. In response to high-dose, short-term endotoxemia, adrenalectomized rat lung GS mRNA increased twofold (P < or = 0.02) compared with sixfold in sham-operated control rats (P < or = 0.02). However, in response to low-dose, long-term endotoxemia, adrenalectomized rat lung GS mRNA increased threefold (P < or = 0.02) compared with fourfold in sham-operated control rats (P < or = 0.02). Adrenalectomy did not affect the elevation of lung GS mRNA levels in response to dexamethasone. In addition, GS mRNA was induced four- and sixfold in rat microvascular pulmonary endothelial cells exposed to plasma from control and septic rats, respectively. The addition of a glucocorticoid antagonist, RU-38486, completely blocked GS gene induction in the presence of control plasma but only attenuated the response to plasma from septic animals by 30%. These results suggest that GS gene induction during sepsis is only partially mediated by adrenal-derived glucocorticoid hormones.
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PMID:Glutamine synthetase gene expression in the lungs of endotoxin-treated and adrenalectomized rats. 943 73

The liver shows net glutamine uptake after a protein-containing meal, during uncontrolled diabetes, sepsis and short-term starvation, but changes to net release during long-term starvation and metabolic acidosis. Some studies report a small net release of glutamate by the liver. The differential expression of glutamine synthetase (perivenous) and glutaminase (periportal) within the liver indicates that glutamine is used for urea synthesis in periportal cells, whereas glutamine synthesis serves to detoxify any residual ammonia in perivenous cells. Experiments in vivo suggest that changes in net hepatic glutamine balance are due predominantly to regulation of glutaminase activity, with the flux through glutamine synthetase being relatively constant.
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PMID:Glutamine and glutamate metabolism across the liver sinusoid. 1073 66

This study has been performed to characterize the relationship between changes in plasma taurine (TAU) and hemodynamic patterns in sepsis. Analysis of 249 plasma aminoacidograms (AA-grams) and associated measurements in a group of critically ill, mechanically ventilated septic patients, showed that decreases in TAU were significantly correlated with increases in pulmonary artery pressure and pulmonary vascular resistance, and with worsening of pulmonary dysfunction. All cases requiring positive end-expiratory pressure greater than 10cmH2O had TAU lower than 50 microM/L. Low TAU was paralleled by decreases in other sulfur-containing AA, phosphoethanolamine, beta-alanine, glutamate and aspartate, within a pattern of greater metabolic dysregulation. These data provide evidence of a link between severity of pulmonary dysfunction and reduced TAU availability in clinical sepsis. The implications relate also to the need for specific investigations of the clinical effect of exogenous TAU on proinflammatory mediator-induced pulmonary dysfunction.
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PMID:Taurine and pulmonary hemodynamics in sepsis. 1094 21

Although reports of decreased plasma taurine in trauma, sepsis and critical illness are available, very little is known about the relationships among changes in plasma taurine, other amino acid levels and metabolic variables. We analyzed a large series of plasma amino acid profiles obtained in trauma patients with sepsis who were undergoing total parenteral nutrition. The correlations between plasma taurine, other amino acid levels, parenteral substrate doses and metabolic and cardiorespiratory variables were assessed by regression analysis. Post-traumatic hypotaurinemia was followed by partial recovery toward less abnormal values when sepsis developed. Levels of taurine were directly and significantly related to levels of glutamate, aspartate, beta-alanine and phosphoethanolamine (and unrelated to other amino acids). Levels of these amino acids increased simultaneously with increasing doses of leucine, isoleucine and valine in total parenteral nutrition. Decreasing taurine was associated with increasing lactate, arteriovenous O(2) concentration difference and respiratory index, and with decreasing cholesterol and cardiac index. These results characterize the relationships between plasma taurine and other amino acid levels in sepsis, provide evidence of amino acid interactions that may support taurine availability and show more severe decreases in plasma taurine with the worsening of metabolic and cardiorespiratory patterns.
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PMID:The relationship between plasma taurine and other amino acid levels in human sepsis. 1095 16

Supplementation of the conditionally essential amino acid glutamine may be beneficial for individuals who are highly stressed and have minimal energy and protein reserves. This includes elderly individuals, postoperative patients, individuals with cancer and very low birthweight infants. Individuals who are undergoing treatment with catabolic glucocorticoids may also benefit. Unfortunately, confusion exists as to situations in which glutamine may be beneficial because a clearly defined "glutamine deficiency syndrome" has not been described as for some other nutrients. In this review, we will discuss how glutamine affects protein metabolism under certain stressful conditions, how it affects intestinal mucosal integrity and how this might relate to sepsis and systemic inflammation. We will also discuss nutrients that are closely related to glutamine such as glutamate, nucleotides, arginine, glucosamines, and ornithine alpha-ketoglutarate and how and why they might be used as substitutes for glutamine.
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PMID:Glutamine: clinical applications and mechanisms of action. 1179 Sep 48


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