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)

We have cloned a nuclease gene, vvn, from Vibrio vulnificus, an estuarine bacterium that causes wound infections and septicemia in humans and eels. The gene contained a 696-bp open reading frame encoding 232 amino acids (aa), including a signal sequence of 18 aa. The deduced amino acid sequence of the mature nuclease predicted a molecular mass of 25 kDa, which was confirmed by vital stain, and a pI of 8.6. Vvn was produced in the periplasm of either V. vulnificus or recombinant Escherichia coli strains and was active in the oxidized (but not the reduced) form. This nuclease was able to digest DNA and RNA, with differential thermostability in DNase and RNase activities. Expression of Vvn in E. coli DH5alpha reduced the frequencies of transformation with the divalent ion-treated cells and electroporation by about 6 and 2 logs, respectively. In addition, the transformation frequency of a Vvn-deficient V. vulnificus mutant (ND) was 10-fold higher than that of the parent strain. These data suggested that Vvn may be involved in preventing uptake of foreign DNA by transformation. However, Vvn expressed in the recipients had little effect on the conjugation frequency in either E. coli or V. vulnificus. Some other DNase(s) may be present in the periplasm and responsible for a residual DNase activity, which was about one-fourth of that of the parent strain, detected in the ND mutant. We also demonstrated that Vvn was not required for the virulence of V. vulnificus mice.
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PMID:Cloning and characterization of a periplasmic nuclease of Vibrio vulnificus and its role in preventing uptake of foreign DNA. 1113 31

Pseudomonas aeruginosa infection, one of the major complications of burn wounds, may lead to sepsis and death. Using the Multi-Probe Template/RNase protection assay, we have compared the expression of different cytokine genes within the skin and livers of thermally injured mice infected with P. aeruginosa PAO1. Thermal injury alone enhanced or up-regulated certain cytokines, including macrophage colony-stimulating factor (M-CSF), interleukin 1 (IL-1)RI, IL-1 beta, macrophage inflammatory protein (MIP)-1 beta and MIP-2; while PAO1 challenge alone up-regulated tumour necrosis factor alpha (TNF-alpha) and transforming growth factor beta (TGF-beta) expression. The combination of thermal injury plus PAO1 infection enhanced the expression of several pro-inflammatory and haematopoietic cytokines [stem cell factor (SCF), leukocyte inhibitory factor (LIF), IL-6 and TNF-alpha]; induced the expression of granulocyte-macrophage colony-stimulating factor (GM-CSF) and G-CSF by 5 h and the expression of additional cytokines, including TGF-beta, TNF-beta, lymphotoxin beta (LT-beta), interferon gamma (IFN-gamma), and IFN-beta by 40 h post-burn/infection. While the most intense cytokine expression occurred in the skin, the majority of cytokines tested were also expressed in the liver by 40 h post-burn/infection. These results suggest that in P. aeruginosa infection of burn wounds: (1) up-regulation of the expression of different cytokines, locally and within the livers of burned mice, is an indication of P. aeruginosa -induced sepsis; and (2) IL-6 and G-CSF play an important role in the host response mechanism.
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PMID:The effects of infection of thermal injury by Pseudomonas aeruginosa PAO1 on the murine cytokine response. 1179 26

Tissue factor (TF) initiates the extrinsic coagulation cascade on the surface of macrophages and endothelial cells. In septic patients, the extrinsic coagulation cascade is activated. When septic patients are febrile, mortality is decreased. The purpose of this study was to investigate the role of elevated temperatures on TF expression by endothelial cells during a sepsis-like challenge. Human endothelial vein cells (HUVECs) were incubated with lipopolysaccharide (LPS) or interleukin-1 beta (IL-1 beta) for 0, 2, 4, 6, or 8 h. At the 0-h time point, some HUVECs were heat shocked at 43 degrees C for 2 h and then recovered at 37 degrees C for 0, 2, 4, or 6 h. Heat-shocked and non-heat-shocked LPS-stimulated HUVECs were analyzed for TF-specific mRNA expression by ribonuclease protection assay (RPA), surface TF expression by flow cytometry, and TF activity by a two-stage clotting assay. Heat shocked LPS-stimulated HUVECs expressed significantly reduced TF-specific mRNA, TF surface protein levels, and TF surface activity when compared with non-heat-shocked, LPS-stimulated HUVECs (p < 0.0125, p < 0.0125, and p < 0.0001, respectively; repeated measures analysis of variance, ANOVA). If heat shock models elevated core temperature, these results suggest that fever may protect the host during sepsis by reducing TF activity on the surface of endothelial cells.
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PMID:The modulation of tissue factor by endothelial cells during heat shock. 1253 87

Inactivation of protein kinase C (PKC)alpha plays an important role in modulating hepatic failure and/or apoptosis during sepsis. To determine whether and how PKCalpha inactivation mediates the apoptosis, PKCalpha was suppressed by antisense treatment or transiently transfection in Clone-9 rat hepatic epithelial cell line. Apoptosis was evaluated by cell survival rate, poly-adenyl ribonuclease polymerase (PARP) cleavage, and terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate-digoxigenin nick end labeling stain. The expressions of PKCalpha and Bcl-xL were quantified by Western blot analysis after antisense treatment. In the transfection studies, cells were co-transfected with green fluorescent protein cDNA as a transfection marker. The expressions of PKCalpha and Bcl-xL were detected by immunohistochemical staining with second antibody conjugated with Texas red. Apoptosis was evaluated by tetramethyl-rhodamine labeling of DNA strand breaks and immunostaining of 85-kDa fragment of PARP. The results showed that cytosolic and membrane-associated PKCalpha were decreased by 54.5% and 41.4%, respectively, after PKCalpha antisense treatment. The apoptotic incidence and percentage of PARP cleavage were significantly increased, whereas protein expression of Bcl-xL was decreased after PKCalpha-antisense treatment. In the transfection studies, the results showed that most of the cells expressing green fluorescent protein revealed less PKCalpha and Bcl-xL protein contents and more in situ PARP cleavage and DNA strand breaks. These findings indicated that decrease of PKCalpha declines the Bcl-xL content and leads to the vulnerability of apoptosis in hepatic epithelial cells. Taken together, our data provide evidence that suppression of PKCalpha plays a critical role in triggering caspase-dependent apoptosis, which may act through modulating the Bcl-xL expression.
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PMID:Suppression of protein kinase Calpha triggers apoptosis through down-regulation of Bcl-xL in a rat hepatic epithelial cell line. 1278 16

Sepsis and septic shock, the systemic immunologic and pathophysiologic response to overwhelming infection, are associated with perturbation of a variety of metabolic cell pathways and with multiple organ failure (MOF) including cardiac depression. This depression has been attributed to the effect of several circulating and locally produced proinflammatory mediators. Recent data suggest that bacterial nucleic acids can produce profound systemic inflammatory responses characterized by circulatory shock in intact animals. In this study, bacterial DNA and RNA derived from pathogenic clinical S. aureus and E. coli isolates are shown to induce early concentration-dependent depression of maximum extent and peak velocity of contraction of electrically paced neonatal rat ventricular myocytes in culture. Significant but more modest depression was generated by a nonpathogenic E. coli isolate. Pretreatment with a DNase or RNase abrogated this effect. Further, synthetic, double-stranded RNA (dsRNA) also induced concentration-dependent depression of myocyte contraction, with the effect also being prevented by pretreatment with RNase. These data suggest that bacterial DNA and RNA may contribute to myocardial depression during bacterial sepsis and septic shock.
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PMID:Bacterial DNA and RNA induce rat cardiac myocyte contraction depression in vitro. 1517 38

The pathophysiology of sepsis-induced myocardial dysfunction still remains controversial. Macrophage migration inhibitory factor (MIF) has recently been identified as a cardiac-derived myocardial depressant factor in septic shock. Putative mechanisms by which MIF affects cardiac function are unknown. In an investigation of possible mechanisms of action, a rat model of endotoxin toxicity was designed using intraperitoneal (I/P) injection of lipopolysaccharides (LPS) with or without coinfusion of neutralizing anti-MIF or isotypic-matched antibodies. Echocardiographic evaluation revealed that MIF neutralization reversed endotoxin-induced myocardial dysfunction at 24 hours after injection. RNase protection assay (RPA) and Western blot established that MIF neutralization prevented LPS-induced mRNA expression and production of heart-derived inflammatory paracrine and autocrine cytokines such as IL-1s and IL-6. Moreover, MIF immunoneutralization increased heart Bcl-2/Bax protein ratio and suppressed endotoxin-induced release of mitochondrial cytochrome-c, as demonstrated by Western blotting. Inhibition of mitochondrial loss of cytochrome-c decreased in heart caspase-3 activity at 6 and 24 hours after injection. MIF neutralization also restored the LPS-induced deficient nuclear translocation of phospho-Akt and consequently the expression of the heart survival nuclear factor GATA-4. The restoration of the translocation/expression of survival factors by MIF inhibition resulted in lowered endotoxin-induced DNA fragmentation at 24 hours, a hallmark of downstream cardiomyocyte apoptosis. Our data indicate that early inactivation of MIF significantly reverses the imbalance of proapoptotic to prosurvival pathways and reduces acute inflammation of the heart thereby improving myocardial dysfunction induced by endotoxin.
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PMID:Endotoxin-induced myocardial dysfunction: effects of macrophage migration inhibitory factor neutralization. 1587 12

Endothelial cells are highly sensitive to changes in the extracellular milieu. Sepsis results in activation of inflammatory and coagulation pathways. We hypothesized that sepsis-associated mediators may alter the response capacity (so-called "set point") of endothelial cells. Human umbilical vein endothelial cells (HUVEC) were preincubated in the presence or absence of tumor necrosis factor (TNF)-alpha, lipopolysaccharide (LPS), hypoxia, hyperthermia, and/or high glucose; treated with or without thrombin for 4 h; and then processed for RNase protection assays of selected activation markers. Priming with TNF-alpha and LPS significantly inhibited thrombin-mediated induction of vascular cell adhesion molecule-1, intercellular adhesion molecule-1, tissue factor, and E-selectin, but not platelet-derived growth factor-A or CD44. In electrophoretic mobility shift assays, thrombin-treated HUVEC demonstrated inducible binding of p65 NF-kappaB, an effect that was significantly blunted by pretreatment of cells with TNF-alpha and LPS. Consistent with these results, TNF-alpha and LPS attenuated the effect of thrombin on IkappaB phosphorylation, total cytoplasmic IkappaB, and nuclear translocation of p65 NF-kappaB. The inhibitory effect of TNF-alpha on thrombin signaling persisted for up to 24 h following removal of the cytokine. Taken together, these data suggest that inflammatory mediators prime endothelial cells to modulate subsequent thrombin response.
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PMID:Preconditioning of primary human endothelial cells with inflammatory mediators alters the "set point" of the cell. 1617 86

Septic shock has been reported as an independent risk factor for atrial fibrillation (AF), however, the mechanism remains unknown. We investigated whether lipopolysaccharide (LPS) could alter cardiac ion channel gene expression, thereby leading to atrial arrhythmogenesis. LPS (2.5 mg/kg) was injected intraperitoneally into 10 week old Sprague-Dawley rats (n = 5). Hemodynamic data were obtained and the atrial appendages were removed after LPS injection (0, 3, 6, 12, and 24 hours) for an RNase protection assay for alpha1C, beta2, alpha1G, and SCN5A. An electrophysiological study in isolated perfused hearts was performed before and 12 hours after the LPS injection. Heart rate and body temperature were significantly increased (P < 0.05) and mean blood pressure was slightly decreased (P < 0.1) at 12 hours after LPS injection. The mRNA levels of the L-type calcium channel gene (beta2 and alpha1C) were significantly decreased at 6 and 12 hours after LPS injection. Atrial ERP became significantly shortened and the number of repetitive atrial responses induced by an extrastimulus were significantly increased after LPS injection. LPS induced the down-regulation of L-type calcium channel gene expression and ERP shortening, which might be a mechanism underlying sepsis-induced AF.
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PMID:lipopolysaccharide induces atrial arrhythmogenesis via down-regulation of L-type Ca2+ channel genes in rats. 1950 39

Endoplasmic reticulum (ER) stress is a feature of secretory cells and of many diseases including cancer, neurodegeneration, and diabetes. Adaptation to ER stress depends on the activation of a signal transduction pathway known as the unfolded protein response (UPR). Enhanced expression of Hsp72 has been shown to reduce tissue injury in response to stress stimuli and improve cell survival in experimental models of stroke, sepsis, renal failure, and myocardial ischemia. Hsp72 inhibits several features of the intrinsic apoptotic pathway. However, the molecular mechanisms by which Hsp72 expression inhibits ER stress-induced apoptosis are not clearly understood. Here we show that Hsp72 enhances cell survival under ER stress conditions. The UPR signals through the sensor IRE1alpha, which controls the splicing of the mRNA encoding the transcription factor XBP1. We show that Hsp72 enhances XBP1 mRNA splicing and expression of its target genes, associated with attenuated apoptosis under ER stress conditions. Inhibition of XBP1 mRNA splicing either by dominant negative IRE1alpha or by knocking down XBP1 specifically abrogated the inhibition of ER stress-induced apoptosis by Hsp72. Regulation of the UPR was associated with the formation of a stable protein complex between Hsp72 and the cytosolic domain of IRE1alpha. Finally, Hsp72 enhanced the RNase activity of recombinant IRE1alpha in vitro, suggesting a direct regulation. Our data show that binding of Hsp72 to IRE1alpha enhances IRE1alpha/XBP1 signaling at the ER and inhibits ER stress-induced apoptosis. These results provide a physical connection between cytosolic chaperones and the ER stress response.
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PMID:HSP72 protects cells from ER stress-induced apoptosis via enhancement of IRE1alpha-XBP1 signaling through a physical interaction. 2062 43

Sepsis is a potentially fatal systemic inflammatory response syndrome caused by infection. In this study, we evaluated the effects of MCP-induced protein 1 (MCPIP1), a recently discovered inflammation-related ribonuclease, on sepsis-induced acute lung injury (ALI) and investigated the underlying mechanisms. Cecal ligation puncture and lipopolysaccharide induction were performed on Sprague-Dawley rats and RAW264.7 cells, respectively, to establish sepsis-induced ALI models. The proteasome inhibitor MG132 used as an activator of MCPIP1 overexpression, and we showed that MG132 can indeed increase the expression of MCPIP1. MCPIP1 overexpression induced by MG132 alleviated sepsis-induced pathologic changes, water content and protein leakage in the lungs, and induction of systemic inflammatory mediators, and improved the 7-day mortality rate in the model rats. We also showed that MCPIP1 p showed romoted macrophage polarization from the M1 to the M2 type in sepsis-induced ALI. Furthermore, MCPIP1-enhanced M2 polarization was inhibited by an MCPIP1-targeting small interfering RNA (siMCPIP1) in RAW264.7 cells. Further mechanistic studies showed that the promotive effect of MCPIP1 on M2 polarization was related to the inhibition of c-Jun N-terminal kinase (JNK) and its downstream transcription factor c-Myc in the in vitro model. Conversely, siMCPIP1 transfection resulted in the recovery of JNK and c-Myc expression in LPS-treated cells. Taken together, these findings indicate that MCPIP1 plays a protective role in sepsis-induced ALI by modulating macrophage polarization through inhibition of the JNK/c-Myc signaling pathway. Our study presents a potentially novel therapeutic strategy for the treatment of lung injury involving the inflammatory cascade.
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PMID:MCP-induced protein 1 attenuates sepsis-induced acute lung injury by modulating macrophage polarization via the JNK/c-Myc pathway. 3132 31

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