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)

Sepsis-induced muscle proteolysis mainly reflects ubiquitin-proteasome-dependent protein degradation. The effect of in vivo administration of a proteasome inhibitor on muscle protein breakdown during sepsis is not known. We treated rats with the proteasome inhibitor N-benzyloxycarbonyl-Ile-Glu-(O-t-butyl)-Ala-leucinal (PSI) or corresponding volume of vehicle i.p. 2 h before sham-operation or induction of sepsis by cecal ligation and puncture. The sepsis-induced increase in total and myofibrillar muscle protein breakdown was inhibited in rats treated in vivo with PSI and a maximal effect was seen following 15 mg/kg of the proteasome inhibitor. Results from in vitro experiments in which incubated muscles were treated with 100 microM PSI suggest that the drug has a direct effect on muscle and that the effect is specific for the proteasome. The results are important because they suggest that it may be possible to prevent or improve the cachectic response in skeletal muscle during sepsis by treatment with a proteasome inhibitor.
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PMID:Sepsis-induced muscle proteolysis is prevented by a proteasome inhibitor in vivo. 1073 30

This study was designed to investigate the effects of preinfusion with total parenteral nutrition (TPN) using medium-chain triglycerides (MCT) versus safflower oil (SO) emulsion as fat sources on hepatic lipids, plasma amino acid profiles, and inflammatory-related mediators in septic rats. Normal rats, with internal jugular catheters, were divided into two groups and received TPN. TPN provided 300kcal/kg/day with 40% of the non-protein energy provided as fat. All TPN solutions were isonitrogenous and identical in nutrient composition except for the fat emulsion, which was made of SO or a mixture of MCT and soybean oil (9:1) (MO). After receiving TPN for 6 days, each group of rats was further divided into control and sepsis subgroups. Sepsis was induced by cecal ligation and puncture, whereas control rats received sham operation. All rats were classified into four groups as follows: MCT control group (MOC, n= 8), MCT sepsis group (MOS, n= 8), safflower oil control group (SOC, n= 8), and safflower oil sepsis group (SOS, n= 11). The results of the study demonstrated that the MOS group had lower hepatic lipids than did the SOS group. Plasma leucine and isoleucine levels were significantly lower in the SOS than in the SOC group, but no differences in these two amino acids were observed between the MOC and MOS groups. Plasma arginine levels were significantly lower in septic groups than in those without sepsis despite whether MCT or safflower oil was infused. Plasma glutamine and alanine levels, however, did not differ between septic and non-septic groups either in the SO or MO groups. No differences in interleukin-1b, interleukin-6, tumor necrosis factor-alpha, and leukotriene B(4)concentrations in peritoneal lavage fluid were observed between the two septic groups. These results suggest that catabolic reaction is septic rats preinfused MCT is not as obvious as those preinfused safflower oil. Compared with safflower oil, TPN with MCT administration has better effects on reducing sepsis-induced liver fat deposition. Preinfusion with MCT before sepsis, however, had no effect on inflammatory-related cytokines or leukotriene in peritoneal lavage fluid. In addition, plasma arginine appears to be a more sensitive indicator than glutamine for septic insult.
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PMID:Effects of parenteral infusion with medium-chain triglycerides and safflower oil emulsions on hepatic lipids, plasma amino acids and inflammatory mediators in septic rats. 1086 29

The metabolic response after sepsis is characterized by net protein loss. Nutritional intervention often is applied to sustain whole body protein mass under such circumstances. The manner in which protein metabolism of the different organs is affected under nutrition-supported and postseptic circumstances remains ambiguous. Therefore, we explored the changes in in vivo organ and whole body protein turnover after endotoxin-induced sepsis during enteral nutrition in pigs. The use of isotopes enabled simultaneous measurements of protein synthesis, breakdown and amino acid degradation across the portal-drained viscera (PDV; approximately intestine), liver and hindquarter ( approximately 50% skeletal muscle). All pigs received a continuous enteral infusion of a liquid meal equivalent to 0.3 g protein. kg bw(-1). h(-1) 3 d before and 4 d after a 24-h endotoxemia period. Measurements were performed 1 d before and 1 and 4 d after endotoxemia that was induced by a 24-h endotoxin (3 microg. kg bw(-1). h(-1) lipopolysaccharide, n = 7) infusion. Controls received NaCl (n = 7). At 4 d after endotoxemia, hindquarter protein turnover was increased, resulting in net synthesis. The amino acid output by the PDV was increased 1 and 4 d after endotoxemia. In the liver, net protein synthesis was enhanced 1 d after endotoxemia. Increased amino acid transamination in hindquarter and PDV led to glutamine and alanine effluxes that serve as substrates for liver and, possibly, the immune system. By providing substrate, enteral nutrition can sustain elevated amino acid demand in the postendotoxemic state by hindquarter, PDV and liver for protein synthesis and transamination processes.
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PMID:Endotoxemia affects organ protein metabolism differently during prolonged feeding in pigs. 1111 Aug 60

Endotoxin is one of the major factors causing myocardial depression and death during sepsis in humans. Recently, it was reported that endotoxin may induce cardiomyocyte apoptosis. Also, multiple caspase activation has been implicated in endotoxin-induced apoptosis in several organ systems. In this study, we investigated whether endotoxin would increase myocardial caspase activities and evaluated the effects of in vivo administration (3 mg/kg) of the broad-spectrum caspase inhibitor benzyloxycarbonyl-Val-Ala-Asp-fluoromethylketone(z-VAD.fmk), the caspase-3-like inhibitor benzyloxycarbonyl-Asp-Glu-Val-Asp-chloromethylketone (z-DEVD.cmk), and the caspase-1-like inhibitor acetyl-Tyr-Val-Ala-Asp-chloromethylketone (Ac-YVAD. fmk), on endotoxin-induced myocardial dysfunction and apoptosis. Endotoxin administration (10 mg/kg iv) induced myocardial contractile dysfunction that was associated with caspase activity increases and nuclear apoptosis. Broad-spectrum z-VAD.fmk and z-DEVD.cmk improved endotoxin-induced myocardial dysfunction and reduced caspase activation and nuclear apoptosis when given immediately and 2 h after endotoxin. In contrast, no effects of Ac-YVAD.fmk were observed on myocardial function and caspase-induced apoptosis. Administration of caspase inhibitors 4 h after endotoxin treatment was not able to protect the rat heart from myocardial dysfunction and nuclear apoptosis. These observations provide evidence that in our model, caspase activation plays a role in endotoxin-induced myocardial apoptosis. Caspase inhibition strategy may represent a therapeutic approach to endotoxin-induced myocardial dysfunction.
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PMID:Differential effects of caspase inhibitors on endotoxin-induced myocardial dysfunction and heart apoptosis. 1124 71

The increasing prevalence of sepsis from gram-positive bacterial pathogens necessitates further evaluation of the basic assumptions about the molecular pathogenesis of septic shock. Since diverse physiological functions of gram-positive bacteria are controlled by the degree of esterification of teichoic acids with D-alanine, we examined the reactivity of monosaccharide esters in which anomerically free or protected D-glucose is linked through its C-6 hydroxy group to either phenylalanyl or tyrosyl residues as models for teichoic acid fragment. We show that the attached sugar moiety induces activation of the amino acid residue. Due to the enhanced reactivity of the NH2 group in the monosaccharide esters studied, the formation of products generated by intramolecular and intermolecular glycation reactions is accelerated resulting in heterogeneous mixture of compounds. These findings suggest that, if similar adducts are formed by glycation of D-alanine in teichoic acid of gram-positive bacteria, they should be examined as potential bioactive ligands or chemical message for infection.
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PMID:Synthesis and reactivity of the monosaccharide esters of amino acids as models of teichoic acid fragment. 1126 36

Piscirickettsia salmonis is the etiological agent of Salmonid Rickettsial Septicemia, a disease affecting salmon aquaculture industry. We analyzed the 16S-23S rDNA spacer region (internal transcribed spacer, ITS) of Chilean P. salmonis isolates LF-89 and EM-90. Two main ITS amplification products were obtained by PCR using L1 and G1 primers, differing from that described where only one ITS region was found. By Southern blot, it was established that these two amplification products contained sequences related to P. salmonis ITS. Sequence analysis confirmed that P. salmonis had two ITS regions: ITS A and ITS B. In both isolates, the smaller (ITS B) corresponded to ITS sequences previously described for each one, and the larger (ITS A) were almost the same as their respective ITS B sequences interrupted by an insert which contained two tRNAs genes: tRNA-Ile and tRNA-Ala.
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PMID:tRNA genes were found in Piscirickettsia salmonis 16S-23S rDNA spacer region (ITS). 1128 40

Lipopolysaccharide (LPS), a major component of Gram-negative bacteria, signals bacterial invasion and triggers defensive host responses. However, excessive responses also lead to the serious pathophysiological consequence of septic shock. To develop Gram-negative selective compounds that can inhibit the effects of LPS-induced sepsis, we have designed constrained cyclic antimicrobial peptides based on a cystine-stabilized beta-stranded framework mimicking the putative LPS-binding sites of the LPS-binding protein family. Our prototype termed R4A, c(PACRCRAG-PARCRCAG), consists of an eight amino acid degenerated repeat constrained by a head-to-tail cyclic peptide backbone and two cross-bracing disulfides. NMR study of K4A, an R4A analogue with four Arg --> Lys replacements, confirmed the amphipathic design elements with four Lys on one face of the antiparallel beta-strand and two hydrophobic cystine pairs plus two Ala on the opposite face. K4A and R4A displayed moderate microbicidal potency and Gram-negative selectivity. However, R4A analogues with single or multiple replacements of Ala and Gly with Arg or bulky hydrophobic amino acids displayed increased potency and selectivity in both low- and high-salt conditions. Analogues R5L and R6Y containing additional cationic and bulky hydrophobic amino acids proved the best mimics of the amphipathic topology of the "active-site" beta-strands of LPS-binding proteins. They displayed potent activity against Gram-negative E. coli with a minimal inhibitory concentration of 20 nM and a >200-fold selectivity over Gram-positive S. aureus. Our results suggest that an LPS-targeted design may present an effective approach for preparing selective peptide antibiotics.
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PMID:Design of Gram-negative selective antimicrobial peptides. 1134 43

Hepato-splanchnic metabolic activity is seen to be related to regional blood flow and oxygen/substrate availability in patients with sepsis. Catecholamines, which may modulate metabolic activity perse, are common to stabilize hemodynamics. We studied the effect of a dopexamine-induced increase in splanchnic blood flow (Qspl) on regional metabolic rate in 10 patients with septic shock requiring norepinephrine to maintain mean arterial pressure (>60 mmHg). Splanchnic blood flow was determined using the indocyanine-green method with hepatic venous sampling. We determined the hepato-splanchnic lactate, pyruvate, alanine, and glutamine turnover and the lactate/pyruvate and ketone body ratio as well as the endogenous glucose production (EGP) using the stable isotope approach. Qspl increased from 0.86 (0.79-1.15) to 0.96 (0.92-1.33) L/min/m2, not influencing any parameter of metabolic activity. We speculate that this finding is due to altered beta-adrenoreceptor-mediated thermogenic effects due to the interplay of different beta-sympathomimetics at the receptor site.
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PMID:Effect of dopexamine on hepatic metabolic activity in patients with septic shock. 1138 13

Procalcitonin (PCT) is one of the precursors in the synthesis of calcitonin in thyroidal C-cells and other neuroendocrine cells. PCT and other calcitonin precursors are elevated in the serum of many conditions leading to systemic inflammatory response syndrome. The measurement of PCT in patients suffering from severe bacterial infections is a useful tool for the diagnosis of sepsis. Furthermore, therapeutic decisions are often based on the increase or decline of serum PCT levels. PCT was reported to have 116 amino acids. The aim of our study was the determination of the primary structure of serum PCT from septic patients. Sera containing high PCT-concentrations (>100 ng/ml) were collected from 22 patients with severe sepsis and were pooled for further purification (12.7 microg total concentration of PCT). Pooled PCT was purified on a CT 21-immunoaffinity column, further purified by reversed phase HPLC, and the resulting pure PCT was digested with endoproteinase Asp-N. N-terminal Edman sequencing showed that the first two amino acids (Ala-Pro) of the proposed pro-peptide were missing. Further analyses by MALDI-TOF mass spectroscopy resulted in a distinct mass signal of 12640 Da +/- 0.1%, which is in concordance with the theoretical molecular weight of the N-terminal truncated form (12628 Da). As opposed to previous suggestions, we could not detect any chemical modifications of PCT. In summary, we could demonstrate that PCT in the serum of septic patients is a peptide of only 114 amino acids, instead of the predicted 116 amino acids, lacking the N-terminal dipeptide Ala-Pro. This information on the primary structure of PCT might help in further studies on the physiological role of PCT during sepsis.
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PMID:Isolation and characterization of serum procalcitonin from patients with sepsis. 1178 96

Activated protein C (APC) is useful in the treatment of sepsis. Ischemia and acidosis, which often accompany sepsis, cause the release of copper from loosely bound sites. We investigated (i) whether physiological concentrations of copper inhibit APC anticoagulant activity and (ii) if any copper-induced APC inhibition is reversible by human serum albumin (HSA) or a high-affinity copper-binding analogue of the human albumin N-terminus, d-Asp-d-Ala-d-His-d-Lys (d-DAHK). APC activity after 30 min of incubation with CuCl2 (10 microM) was decreased 26% below baseline. HSA, both alone and when combined with various ratios of CuCl2, increased APC activity significantly above baseline. d-DAHK alone and 2:1 and 4:1 ratios of d-DAHK:CuCl2 also increased APC activity. APC contained 1.4 microM copper, which helps explain the increased APC activity with HSA and d-DAHK alone. These in vitro results indicate that copper inhibits APC activity and that albumin and d-DAHK reverse the copper-induced APC deactivation.
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PMID:Copper inhibits activated protein C: protective effect of human albumin and an analogue of its high-affinity copper-binding site, d-DAHK. 1182 Jul 75

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