Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0243026 (sepsis)
52,417 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The influence of sepsis on transcription of myofibrillar proteins in skeletal muscle was studied in rats. Sepsis was induced by cecal ligation and puncture (CLP); control rats were sham-operated. Sixteen hours later, muscle levels of mRNA for myofibrillar proteins were determined by using cDNA probes specific for transcripts for alpha actin and myosin heavy chain. Sepsis resulted in a 2-6 fold decrease in alpha actin mRNA levels and an even more pronounced reduction in myosin heavy chain mRNA levels. Results suggest that sepsis-induced reduction of muscle protein synthesis is at least partly regulated at the transcriptional level.
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PMID:Reduced levels of mRNA for myofibrillar proteins in skeletal muscle from septic rats. 187 85

This study evaluated sepsis-induced changes in myosin heavy chain (Mhc) protein breakdown and synthesis in rat soleus muscles. Rats were anesthetized and their external jugular veins were cannulated. After 12-16 h, rats were implanted intraabdominally with a sterile fecal pellet, or a pellet containing bacteria (Escherichia coli, 150 CFU and Bacteroides fragilis 10(4) CFU). Thirty hours after implantations, rats were infused with 14C-Leu (60 x 10(3) Bq/h) through the jugular cannula for 4 h. Protein fractional synthetic rate coefficient (FSRC) was determined in muscles of different rat groups. In separate experiments, intact soleus muscles were removed from the three rat groups on days 1 and 2 after implantations, and processed for their wet weight, total protein and Mhc contents. No mortality occurred in sterile-implanted rats. Approximately 40-45% of all septic-implanted rats died on days 1-3, post-implantation. Whereas an approximately 15% (P < 0.01, days 1 or 2) decrease occurred in Mhc content in sterile-implanted rats compared to unoperated controls, septic insult resulted in a greater Mhc loss (a 27% decrease, P < 0.001). Rats' body weight, soleus wet weight and tolat muscle protein changes with sepsis relative to controls were also greater than in the sterile groups. The FSRC value in the septic-implanted rats was significantly lower (P < 0.05) than in non-septic rat muscle. TNF-alpha administration to the septic animals or their treatment with diltiazem did not have a significant effect on FSRC. Overall, these results indicate myosin as a major muscle protein subjected to net catabolism during sepsis, and that the net catabolic response was related to a more pronounced increased in Mhc degradation than the decrease in Mhc synthesis.
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PMID:Sepsis-induced myofibrillar protein catabolism in rat skeletal muscle. 793 49

Sepsis is associated with net breakdown of skeletal muscle protein, mediated partly by reduced rates of muscle protein synthesis. This study investigated the role of altered gene expression for specific muscle proteins in mediating reduced protein synthesis in a rat model of acute severe sepsis. Adult rats were given a single sublethal intraperitoneal dose of endotoxin (bacterial lipopolysaccharide). Protein, RNA and DNA contents of muscle were measured and changes in expression of mRNA in tibialis anterior and extensor digitorum longus muscles were detected by quantification of Northern blots at 6, 24, 48 and 72 hr after endotoxin and in animals starved for 24 hr. Results showed that at 24 hr after endotoxin there was a loss of about 14% of muscle protein content. No reduction in mRNA was found at any time point for beta-myosin heavy chain (MHC), fast-MHC, alpha-actin, skeletal muscle troponin or carbonic anhydrase III (CA III); rather, at 48 hr there was increased expression of beta-MHC (224 +/- 123% control) and CA III (202 +/- 56%). Blocking TNF-alpha by pre-treatment with a monoclonal antibody did not appear to influence this. Total RNA content of muscle was reduced to 67% of the control values 24 hr after LPS, although this was no different to pair-fed animals starved for 24 hr. It is concluded that reduced protein synthesis in skeletal muscle in early acute sepsis is not primarily associated with reduced muscle protein gene expression.
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PMID:The effect of endotoxin on skeletal muscle protein gene expression in the rat. 869 96

To elucidate cellular mechanisms of myocardial depression in Pseudomonas sepsis the effects of sublethal concentrations of P. aeruginosa exotoxin A--a main virulence factor--were studied in cultured neonatal rat cardiomyocytes. It is known that this toxin exerts its pathogenic effect by inhibition of protein synthesis via ADP-ribosylation and thereby inactivation of elongation factor 2 (EF-2). Within 48 72 h, half maximal inhibition of protein synthesis occurs at 4-10 ng/ml. The toxin prevents the beta-adrenoceptor(AR)-mediated myosin heavy chain isozyme shift (V3/V1), while the T3-induced myosin shift is not suppressed. While beta 1-AR-downregulation by excess of norepinephrine (NE) is not affected, protein synthesis-dependent receptor upregulation in the recover period after removal of NE is completely suppressed by P. aeruginosa exotoxin A. Thus, a non-lethal, partial inhibition of global cellular protein synthesis by P. aeruginosa exotoxin A: (1) completely prevents beta 1-AR-mediated myosin isozyme shift and beta-AR upregulation: (2) sustains the cardiomyocytes in a catecholamine-refractory contractile state in the recovery period after catecholamine desensitization: (3) suggests cellular mechanisms by which P. aeruginosa exotoxin A might impair heart function in Pseudomonas sepsis: and (4) may help reveal the possible influence of endogenous inhibitors of EF-2.
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PMID:Partial inhibition of protein synthesis by Pseudomonas exotoxin A deranges catecholamine sensitivity of cultured rat heart myocytes. 914 Aug 36

Male Sprague-Dawley rats (350-500 g) were made septic by intraperitoneal injection of 200 mg/kg cecal material in 5% dextrose in water (D5W; 5 ml/kg). Control rats (n = 11) received D5W. Preparations were studied on days 1 (n = 7), 3 (n = 7), and 7 (n = 8) of sepsis. In isolated hearts, ventricular function was depressed on days 3 and 7 of sepsis. Densitometric analysis of myofilament proteins from septic rats separated by SDS-PAGE showed no differences in relative amounts of actin, troponin, tropomyosin and myosin light chains compared to control. Myofilament function, assessed by measuring ATPase activities, was altered during sepsis. CA(2+)-independent Mg-ATPase activity was elevated on days 1 and 3 of sepsis, returning toward control by day 7. Maximal ATPase activity was unchanged on day 1, but was increased on days 3 and 7 sepsis. Myofibrillar myosin K(EDTA)-, Ca(2+)-, and Mg(2+)-ATPase activities were not altered, nor were there any apparent changes in myosin heavy chain isoform populations. Our data are the first to demonstrate alterations in minimal and maximal ATPase activities and myofilament CA(2+)-sensitivity during chronic peritoneal sepsis. These alterations may contribute to observed changes in ventricular function.
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PMID:Cardiac myofilament protein function is altered during sepsis. 961 37

Release of bacterial endotoxin and cytokines induce cardiac failure during sepsis. We investigated the direct effects of E. coli endotoxin (lipopolysaccharide, LPS) and cytokines induced by LPS on the cardiac myocyte gene program. For in vivo-experiments adult Wistar rats were given 600 microg/day LPS i.v. for 24 h or 7 days. In addition, cultured adult rat cardiac myocytes were treated with LPS, interleukin-1beta (IL-1beta), tumour necrosis factor-alpha (TNFalpha), interferon-gamma (IFNgamma) or IL-6 for 24 h. mRNA expression was evaluated for cardiac-alpha-actin (cAct), skeletal-alpha-actin (skAct), beta- and alpha-myosin heavy chain (MHC). LPS induced betaMHC-mRNA 3.6-fold and repressed alphaMHC 2.7-fold and cAct 2.5-fold after 24 h in vivo. Up-regulation of betaMHC (3-fold) and repression of cAct (2.5-fold) were still observed after 7 days LPS infusion, whereas alphaMHC-mRNA levels had returned to normal. At the protein level, increased expression of betaMHC by LPS treatment occurred already after 24 h and was maintained thereafter. LPS had no influence on skAct-mRNA. Similar changes in contractile protein mRNA expression were observed in LPS-treated cardiomyocytes in culture, whereas the tested cytokines either activated (IL-1beta, IFNgamma) or repressed (TNFalpha, IL-6) both MHC-isoforms and cAct. In conclusion, LPS and proinflammatory cytokines induce changes in contractile protein expression that may contribute to the acute heart failure observed during endotoxaemia.
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PMID:Endotoxin and cytokines alter contractile protein expression in cardiac myocytes in vivo. 1168 Jun 26

Sepsis is associated with increased expression of TNF-alpha with subsequent activation of nuclear factor-kappa B (NF-kappaB). The glucocorticoid receptor (GR) and NF-kappaB function as mutual antagonists and induction of the latter is believed to play a major role in the acquired glucocorticoid resistance that occurs in some septic patients. GR expression and function has been reported to be elevated in septic muscle suggesting a limited effect of the activated NF-kappaB on GR function in this context. In this study, the L6 myocyte cell line was used as an in vitro model for a sepsis-like condition in skeletal muscle. While short or long term treatment with TNF-alpha had no effect on GR expression, glucocorticoid-dependent downregulation of GR occurred with a kinetic profile that is accelerated relative to that observed in most cells. This downregulation was not affected by co-treatment or prior priming of L6 cells with TNF-alpha. The synthetic glucocorticoid, dexamethasone (DEX) blunted TNF-alpha-stimulated NF-kappaB activation in L6 cells. However, although effective at activating an NF-kappaB transcriptional response, TNF-alpha treatment exerted a minimal effect in myoblasts and no effect in myotubes on GR transcriptional activity. This limited impact of TNF-alpha on GR activity was not universal as TNF-alpha and DEX exerted an additive effect on the reduction in myosin heavy chain (MHC) protein expression caused by either agent alone. Thus, the selective perseverance of GR function in the presence of increased levels of glucocorticoids and TNF-alpha during sepsis or other inflammatory states may exacerbate muscle protein breakdown.
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PMID:TNF-alpha and glucocorticoid receptor interaction in L6 muscle cells: a cooperative downregulation of myosin heavy chain. 1762 86

There is no universal approach to stop muscle cachexia in a number of life-threatening diseases. Accordingly, it is uncertain why the body mass is so critical to keep alive patients with cancer, congestive heart failure (CHF), AIDS or sepsis. At present, it is widely believed that excess muscle wasting diminishes lean body mass to the risky level accompanied by anorexia, anemia, lipolysis, acute phase response and insulin resistance. If missed and/or untreated muscle cachexia inevitably leads to death due to cardiac and respiratory failure (almost one-third of all cancer deaths). This complex metabolic disorder is suited by the elevated levels of inflammatory cytokines (TNF-alpha, IFN-gamma, IL-1-beta, IL-6, IL-2) and low levels of anti-inflammatory/ other cytokines (IL-15, leptin). Concurrently, tissue sensitivity to insulin is considerably reduced. Recent findings indicate that entirely few muscle-specific genes (i.e. MyoD and myosin heavy chain, MyHC) and their products must be targeted to initiate muscle wasting. Muscle atrophy occurs at different levels, starting from repressed gene expression and ended with accelerated protein degradation. Muscle growth (myogenesis) is severely compromised and disruption of sarcomere architecture heralds the proteolysis of contractile apparatus. This review aims to synthesize our present knowledge of intracellular mechanisms and molecular regulation of muscle cachexia with respect to cytokine signaling.
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PMID:Crossroads of cytokine signaling--the chase to stop muscle cachexia. 1926 84

Muscle atrophy remains a significant concern in multiple inflammatory conditions, including injury, sepsis, cachexia, and HIV-associated wasting. Herein, we show that inflammatory stressors, including TNF-alpha, IFN-gamma, or lipopolysaccharide, potently induced the novel expression of the RNA editor ADAR1, an observation not previously described in muscle cells. We also observed that cytokine stimulation suppressed muscle-associated microRNAs, an observation also not previously demonstrated. To map potential effects of ADAR1 induction in the muscle program, we conducted knockdown and overexpression studies in the mouse C2C12 muscle precursor cell (MPC) line and in primary human MPCs. We show that knockdown of stress-induced ADAR1 increased inflammation-mediated declines in the muscle differentiation markers Myogenin and myosin heavy chain, and knockdown reduced levels of active phosphorylated Akt (phospho-Akt), but had no effect on microRNA transcript levels, suggesting a role for ADAR1 in buffering inflammatory stress effects on myogenic transcription and protein synthesis pathways. In addition, overexpression of recombinant ADAR1 suppressed active phosphorylated double-stranded RNA (dsRNA)-dependent protein kinase (phospho-PKR), consistent with a role for ADAR1 in limiting inflammation-driven catabolic atrophy pathways. Collectively, these data identify a novel regulatory role for ADAR1 activation under inflammatory stress to both promote muscle protein synthesis pathways and limit atrophy pathways.
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PMID:The RNA editor gene ADAR1 is induced in myoblasts by inflammatory ligands and buffers stress response. 2059 Jun 75

In critically ill patients, mechanisms underlying diaphragm muscle remodeling and resultant dysfunction contributing to weaning failure remain unclear. Ventilator-induced modifications as well as sepsis and administration of pharmacological agents such as corticosteroids and neuromuscular blocking agents may be involved. Thus, the objective of the present study was to examine how sepsis, systemic corticosteroid treatment (CS) and neuromuscular blocking agent administration (NMBA) aggravate ventilator-related diaphragm cell and molecular dysfunction in the intensive care unit. Piglets were exposed to different combinations of mechanical ventilation and sedation, endotoxin-induced sepsis, CS and NMBA for five days and compared with sham-operated control animals. On day 5, diaphragm muscle fibre structure (myosin heavy chain isoform proportion, cross-sectional area and contractile protein content) did not differ from controls in any of the mechanically ventilated animals. However, a decrease in single fibre maximal force normalized to cross-sectional area (specific force) was observed in all experimental piglets. Therefore, exposure to mechanical ventilation and sedation for five days has a key negative impact on diaphragm contractile function despite a preservation of muscle structure. Post-translational modifications of contractile proteins are forwarded as one probable underlying mechanism. Unexpectedly, sepsis, CS or NMBA have no significant additive effects, suggesting that mechanical ventilation and sedation are the triggering factors leading to diaphragm weakness in the intensive care unit.
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PMID:Diaphragm muscle weakness in an experimental porcine intensive care unit model. 2169 90


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