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)

Amino acid fund has been studied during complex therapy of 25 patients with sepsis. In 15 patients complex therapy included detoxicating hemosorption (3-5 sessions), in 10 patients hemosorption was supplemented by ultraviolet blood irradiation (5-10 sessions). Complex therapy employing hemosorption led to a decrease in serine plasma level. Changes in the amino acid fund of the whole blood were insignificant. Leucine, isoleucine, threonine and phenylalanine blood levels were significantly increased. The introduction of ultraviolet blood irradiation into complex therapy of patients reduced traumatic effect of sorption detoxication on blood cells and enhanced detoxicating effect.
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PMID:[Changes in the amino acid spectrum of the blood in patients with sepsis in the process of complex intensive therapy]. 176 53

The rate of leucine C-2 incorporation into glutamine was compared in control and septic rats. Female Sprague-Dawley rats (n = 46, 210-260 g) were fed parenterally for 3 days and then randomized into two groups (control and septic). Sepsis was induced by the injection of 10(10) live Escherichia coli/kg on day 4 into the septic group. Rats in each group were given a continuous (8 h) infusion of one of three different isotopes. The isotopes were given 24 h after inoculation. Leucine oxidation and incorporation into protein were determined with [1-13C]leucine; glutamine flux and oxidation were determined with [5-13C]glutamine, and the fraction of leucine C-2 incorporated into glutamine was determined by giving [1,2-13C]leucine. Results were as follows: sepsis caused a significant increase in the rate of leucine C-2 incorporation into glutamine (66.0 +/- 3.7 as against 29.6 +/- 3.7 mumol/h per kg, P less than 0.01). This increase was due to both an increase in glutamine production (2331 +/- 76 as against 1959 +/- 94 mumol/h per kg, P less than 0.01) and an increase in the proportion of glutamine derived from leucine (2.83 +/- 0.27% as against 1.51 +/- 0.31%, P less than 0.01). The ratio of leucine C-2 incorporated into glutamine to leucine oxidized increased from 7.16 +/- 0.91% to 11.49 +/- 1.12% with sepsis (P less than 0.05).
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PMID:Leucine and glutamine metabolism in septic rats. 190 18

We have investigated the responsiveness of protein kinetics to insulin and the role of glucose oxidation rate as a mediator of the protein catabolic response to burn injury and sepsis by assessing the response of leucine and urea kinetics to a 5-h hyperinsulinemic euglycemic clamp with and without the simultaneous administration of dichloroacetate (DCA) (to further increase glucose oxidation via stimulation of pyruvate dehydrogenase activity) in eight severely burned and eight septic patients. Leucine and urea kinetics were measured by the primed-constant infusions of [1(-13)C]leucine and [15N2]urea. Compared with controls, basal leucine kinetics (flux and oxidation) were significantly elevated (P less than 0.01) in both groups of patients. Hyperinsulinemia elicited significant (P less than 0.05) decreases in leucine kinetics in both groups of patients. Consistent with this observation, hyperinsulinemia caused urea production to decrease significantly (P less than 0.05) in both patient groups. The administration of DCA to patients during hyperinsulinemia elicited a significant increase in glucose oxidation rate compared with the clamp rate (P less than 0.05), and the percent of glucose uptake oxidized increased from 45.5 +/- 5.5 to 53.5 +/- 4.8%; yet the response of leucine and urea kinetics to the clamp plus DCA was not different from the response to the clamp alone. These results suggest that the maximal effectiveness of insulin to suppress protein breakdown is not impaired and that a deficit in glucose oxidation or energy supply is probably not playing a major role in mediating the protein catabolic response to severe burn injury and sepsis.
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PMID:Role of insulin and glucose oxidation in mediating the protein catabolism of burns and sepsis. 267 28

The oxidation of branched-chain amino acids following skeletal trauma or sepsis is considered a crucial event in the protein wastage that accompanies these stresses. This investigation undertook to monitor changes in leucine oxidation following bilateral femoral fracture to the rat to determine if this model is appropriate for monitoring specific amino acid oxidation after trauma. Thirty-five rats had hindlimb fractures and were fed an oral liquid diet ad libitum; 35 healthy rats were pair-fed with the trauma group. Food intake, body weight, and urinary nitrogens were monitored daily for all rats, and leucine oxidation was measured for five rats from each group on days 1 through 7 post-trauma. Leucine oxidation was qualitatively compared between the groups (from the percentage of isotope respired in 4 hours following a single injection of L-[l-14C] leucine). Skeletal fracture resulted in increased urinary nitrogen excretions on days 2 through 5 when compared to pair-fed animals. The traumatized rats compared to pair-fed controls had elevated leucine oxidation on days 2 through 4, and a tendency towards elevation on day 5. The peak in elevation occurred on day 3 when leucine oxidation was increased 49% above pair-fed rats. The data suggest an association between leucine oxidation and urinary excretion of nitrogen in this trauma model, and when the results are compared to our previous studies of leucine oxidation in traumatized patients, traumatized rats appear to respond similarly to injured patients in the acceleration of leucine oxidation.
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PMID:A rat model for evaluating leucine oxidation after skeletal trauma. 400 50

Skeletal trauma induces excessive urinary nitrogen losses and is thought to stimulate the oxidation of the branched chain amino acids. This study was undertaken to quantitate whole body protein turnover rates and leucine metabolism during the peak nitrogen loss period following skeletal trauma. Quantitation was done in eight healthy and six trauma subjects, who received D5W as their only nutrition for 72 hours, using a 10-hour continuous infusion of L-[1,14C]-Leucine. The controls lost an average of 6 gm of nitrogen/day and the trauma patients 25 gm of nitrogen/day on the study day. Trauma was shown to elevate plasma leucine by 76%, increase the leucine flux through the free leucine pool by 86%, and accelerate leucine oxidation by 277% over the values for controls. Trauma also produced a 50% increase in whole body protein synthesis and a 79% increase in protein breakdown. The data clearly define significant increases in both the protein synthetic and catabolic rates in trauma with a greater increase occurring in catabolism. This is similar to findings for protein turnover in sepsis and burn injury, but is different from that found in elective surgery. A striking aspect of our data is the indication that women do not exhibit the same response to injury that men do. This suggestion, however, is based on a small sample.
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PMID:Effects of major skeletal trauma on whole body protein turnover in man measured by L-[1,14C]-leucine. 739 9

Immunosuppressed prematures, cancer patients, and transplant recipients are susceptible to bacterial or fungal sepsis or both. This report evaluates whether the ability of the reticuloendothelial system (RES) to remove blood-borne viable radiolabeled 35S Escherichia coli and 3H-Leucine Candida albicans is adversely affected by a dual intravenous challenge of these organisms. Male Sprague Dawley rats (n = 150) weighing 175 to 180 g were placed in 5 experimental groups (n = 30). Group I received intravenous (IV) C albicans (10(7)/mL), group II received E coli (10(9)/mL), group III received a dual injection of C albicans and E coli, group IV received Candida 1 hour prior to E coli, and group V received E coli 1 hour prior to fungi. At 1, 4, and 24 hours, tissue samples (50 to 100 mg) of liver, spleen, kidneys, and lungs were processed for liquid scintillation counting. Organ distribution of bacteria and fungi was calculated and expressed as mean percent +/- SD of labeled organisms. The liver trapped 72% +/- 10% and the lungs 1.1% +/- 0.3% of E coli (group II) (P < .001). The organ distribution of Candida (group I), however, was similar in liver and lungs (42.5% +/- 10% and 41.4% +/- 6.4%, respectively). Liver localization of E coli was unaffected by simultaneous or staggered fungal injection (groups III, 4, and V). Lung distribution of E coli following dual injection (group III) was significantly higher than controls (group II) (3.6% +/- 0.7% v 1.1% +/- 0.3%; P < .001).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Blood clearance and organ localization of Candida albicans and E coli following dual infection in rats. 846 41

Loss of muscle mass usually characterizes different pathologies (sepsis, cancer, trauma) and also occurs during normal aging. One reason for muscle wasting relates to a decrease in food intake. This study addressed the role of leucine as a regulator of protein breakdown in mouse C2C12 myotubes and aimed to determine which cellular responses regulate the process. Determination of the rate of protein breakdown indicated that leucine is one key regulator of this process in myotubes because starvation for this amino acid is responsible for 30-40% of the total increase generated by total amino acid starvation. Leucine restriction rapidly accelerates the rate of protein breakdown (+11 to 15% (p < 0.001) after 1 h of starvation) in a dose-dependent manner. By using various inhibitors, evidence is provided that acceleration of protein catabolism results mainly from an induction of autophagy, activation of lysosome-dependent proteolysis, without modification of mRNA levels encoding the lysosomal cathepsins B, L, or D. Those results suggest that autophagy is an essential cellular response for increasing protein breakdown in muscle following food deprivation. Induction of autophagy precedes a decrease in global protein synthesis (-20% to -30% (p < 0.001)) that occurs after 3 h of leucine starvation. Inhibition of the mammalian target of rapamycin (mTOR) activity does not abolish the effect of leucine starvation and the level of phosphorylated ribosomal S6 protein is not affected by leucine withdrawal. These latter data provide clear evidence that the mTOR signaling pathway is not involved in the mediation of leucine effects on both protein synthesis and degradation in C2C12 myotubes.
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PMID:Leucine limitation induces autophagy and activation of lysosome-dependent proteolysis in C2C12 myotubes through a mammalian target of rapamycin-independent signaling pathway. 1089 13

Nine quinolone resistant (minimal inhibitory concentration [MIC] was > 32 microg/mL for nalidixic acid, > 1 microg/mL for ciprofloxacin) isolates of Escherichia coli have been found in wild birds with septicemia. All of the isolates were aerobactin positive. The mechanisms of resistance were characterised by sequencing the quinolone resistance-determining region (QRDR) of the gyrA, gyrB, parC, and parE genes. Sequence analysis of the gyrA gene in all isolates identified only 1 nucleotide substitution at codon Serine-83 for Leucine-83. Sequence analysis of the gyrB, parC, and parE QRDR genes revealed no mutations in any of the isolates. This study was conducted to determine the importance of these genes in the susceptibility of E. coli strains isolated from wild birds to quinolones.
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PMID:Molecular basis of quinolone resistance in Escherichia coli from wild birds. 1535 51

Proteasome inhibitors are novel therapeutic agents for the treatment of cancer and other severe disorders. One of the possible side effects is influencing the metabolism of proteins. The aim of our study was to evaluate the influence of three proteasome inhibitors MG132, ZL(3)VS and AdaAhx(3)L(3)VS on protein metabolism and leucine oxidation in incubated skeletal muscle of control and septic rats. Total proteolysis was determined according to the rates of tyrosine release into the medium during incubation. The rates of protein synthesis and leucine oxidation were measured in a medium containing L-[1-(14)C]leucine. Protein synthesis was determined as the amount of L-[1-(14)C]leucine incorporated into proteins, and leucine oxidation was evaluated according to the release of (14)CO(2) during incubation. Sepsis was induced in rats by means of caecal ligation and puncture. MG132 reduced proteolysis by more than 50% and protein synthesis by 10-20% in the muscles of healthy rats. In septic rats, proteasome inhibitors, except ZL(3)VS, decreased proteolysis in both soleus and extensor digitorum longus (EDL) muscles, although none of the inhibitors had any effect on protein synthesis. Leucine oxidation was increased by AdaAhx(3)L(3)VS in the septic EDL muscle and decreased by MG132 in intact EDL muscle. We conclude that MG132 and AdaAhx(3)L(3)VS reversed protein catabolism in septic rat muscles.
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PMID:Effects of proteasome inhibitors MG132, ZL3VS and AdaAhx3L3VS on protein metabolism in septic rats. 1556 33

Sepsis blunts the ability of nutrient signaling by leucine to stimulate skeletal muscle protein synthesis by impairing translation initiation. The present study tested the hypothesis that overproduction of either tumor necrosis factor (TNF)-alpha or glucocorticoids mediate the sepsis-induced leucine resistance. Prior to producing peritonitis, rats received either vehicle, TNF binding protein (TNF(BP)) to inhibit endogenous TNFalpha action, and/or the glucocorticoid receptor antagonist RU486. Leucine was orally administered to all rats 24 h thereafter and the gastrocnemius removed 20 min later to assess protein synthesis and signaling components important in controlling peptide-chain initiation. Muscle protein synthesis was 65% lower in septic rats administered leucine than in leucine-treated control animals. This reduction was not prevented by either TNF(BP) or RU486 alone, but was completely reversed by the combination. This sepsis-induced leucine resistance was associated with an 80% reduction in the amount of active eIF4E.eIF4G complex, a 5-fold increase in the formation of the inactive eIF4E.4E-BP1 complex as well as markedly reduced (at least 70%) phosphorylation of 4E-BP1, eIF4G, S6K1, S6, and mTOR. Pretreatment of septic rats with either TNF(BP) or RU486 individually only nominally improved the leucine action as assessed by the above-mentioned endpoints. In contrast, when TNF(BP) and RU486 were co-administered, the ability of sepsis to impair the leucine-stimulated phosphorylation of 4E-BP1, eIF4G, S6K1, and S6 as well as the redistribution of eIF4E was essentially prevented. No differences in the total amount or phosphorylation of eIF2alpha and eIF2Bepsilon were detected between the different groups, and changes could not be attributed to differences in the prevailing plasma concentration of insulin or leucine. Our data demonstrate the sepsis-induced leucine resistance in skeletal muscle results from the cooperative interaction of both TNFalpha and glucocorticoids.
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PMID:Glucocorticoids and TNFalpha interact cooperatively to mediate sepsis-induced leucine resistance in skeletal muscle. 1738 Jan 94

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