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)

Changes in Ca2+-induced Ca2+ release in cardiac sarcoplasmic reticulum (SR) during different phases of sepsis were studied. Sepsis was induced by cecal ligation and puncture (CLP). The 45Ca2+ release studies show that the amount of Ca2+ released from the passively and the actively loaded SR vesicles was unaffected during the early sepsis (9 h after CLP), but it was significantly decreased during the late phase (18 h after CLP) of sepsis. The [3H]ryanodine binding assays reveal that the Bmax for ryanodine binding was unaffected during the early phase, but was decreased by 32.1% during the late phase of sepsis. The affinity of ryanodine receptor for Ca2+ remained unchanged during sepsis. ATP, AMP-PCP, and caffeine stimulated binding, while MgCl2 and ruthenium red inhibited [3H]ryanodine binding in control, early sepsis, and late sepsis groups. The EC50 and IC50 values for these regulators were unaffected during the progression of sepsis. Digestion of control SR with phospholipase A2 decreased [3H]ryanodine binding and the decrease was reversible by the addition of phosphatidylcholine (PC), phosphatidylethanolamine (PE), or phosphatidylserine (PS). Addition of PC, PE, or PS to the SR isolated from septic rats stimulated [3H]ryanodine binding. These data demonstrate that Ca2+-induced Ca2+ release from cardiac SR remained relatively unaffected during the early phase, but was significantly impaired during the late phase of sepsis. The sepsis-induced impairment in SR Ca2+ release is a result of a quantitative reduction in the number of Ca2+ release channels. Furthermore, the reduction is associated with a mechanism involving a modification of membrane lipid profile in response to certain stimuli such as activation of phospholipase A2.
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PMID:Impairment of the ryanodine-sensitive calcium release channels in the cardiac sarcoplasmic reticulum and its underlying mechanism during the hypodynamic phase of sepsis. 1144 13

The objective of the present study was to determine the alterations in L-leucine intestinal uptake by intravenous administration of Lipopolysaccharide (LPS), which is a constituent of gram negative bacterial, causative agent of sepsis. The amino acid absorption in LPS treated rabbits was reduced compared to the control animals. The LPS effect on the amino acid uptake was due to an inhibition of the Na+-dependent system of transport, through both reduction of the apparent capacity transport (Vmax) and diminution of the Na+/K-ATPase activity. The results have also shown that the LPS decreases the mucosal to serosal transepithelial flux and the transport across brush border membrane vesicles of L-leucine. The study of possible intracellular mechanisms implicated in the LPS effect, showed that the second messengers calcium, protein kinase C and c-AMP did not play any role in this effect. However, the absence of ion chloride in the incubation medium removes the LPS inhibition and the intracellular tissue water was affected by the LPS treatment. Therefore, the inhibition in the L-leucine intestinal absorption, by intravenous administration of LPS, could be mainly produced by the secretagogue action of this endotoxin on the gut.
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PMID:The administration of lipopolysaccharide, in vivo, induces alteration in L-leucine intestinal absorption. 1183 12

Dehydroascorbic acid (DHA) is abundant in the human diet and also is generated from vitamin C (ascorbic acid, AA) in the lumen of the gastrointestinal tract. DHA is absorbed from the lumen of the small intestine and reduced to AA, which subsequently circulates in the blood. Utilization of AA as an antioxidant and enzyme cofactor causes its oxidation to DHA in extracellular fluid and cells. DHA has an important role in many cell types because it can be used to regenerate AA. Both physiological (e.g. insulin, insulin-like growth factor I, cyclic AMP) and pathological (e.g. oxidative stress, diabetes, sepsis) factors alter the transport and metabolic mechanisms responsible for this DHA recycling.
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PMID:The physiological role of dehydroascorbic acid. 1222 Jun 24

Inflammation must be inhibited in order to treat, e.g., sepsis or autoimmune diseases or must be selectively enhanced to improve, for example, immunotherapies of tumors or the development of vaccines. Predictable enhancement of inflammation depends upon the knowledge of the "natural" pathways by which it is down-regulated in vivo. Extracellular adenosine and A(2A) adenosine (purinergic) receptors were identified recently as anti-inflammatory signals and as sensors of excessive inflammatory tissue damage, respectively (Ohta A and Sitkovsky M, Nature 2001;414:916-20). These molecules may function as an important part of a physiological "metabolic switch" mechanism, whereby the inflammatory stimuli-produced local tissue damage and hypoxia cause adenosine accumulation and signaling through cyclic AMP-elevating A(2A) adenosine receptors in a delayed negative feedback manner. Patterns of A(2A) receptor expression are activation- and differentiation-dependent, thereby allowing for the "acquisition" of an immunosuppressive "OFF button" and creation of a time-window for immunomodulation. Identification of A(2A) adenosine receptors as "natural" brakes of inflammation provided a useful framework for understanding how tissues regulate inflammation and how to enhance or decrease (engineer) inflammation by targeting this endogenous anti-inflammatory pathway. These findings point to the need of more detailed testing of anti-inflammatory agonists of A(2A) receptors and create a previously unrecognized strategy to enhance inflammation and targeted tissue damage by using antagonists of A(2A) receptors. It is important to further identify the contributions of different types of immune cells at different stages of the inflammatory processes in different tissues to enable the "tailored" treatments with drugs that modulate the signaling through A(2A) purinergic receptors.
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PMID:Use of the A(2A) adenosine receptor as a physiological immunosuppressor and to engineer inflammation in vivo. 1256 76

The cyclic AMP response element (CRE) has been implicated in the regulation of the expression of many genes and cellular processes important in hepatocyte function. CRE sites exist in the promoter regions of several genes expressed during inflammation. Numerous studies on the role of CRE in hepatocyte gene expression have been performed in resting hepatocytes, but the role of CRE during inflammation is unknown. To evaluate the regulation of CRE-mediated transcription during sepsis, cultured hepatocytes were exposed to proinflammatory cytokines and lipopolysaccharide (LPS) was injected into rats. Nuclear proteins were collected and CRE binding activity measured by electromobility shift assay (EMSA) using a consensus CRE oligonucleotide. CRE binding activity was increased in vitro by cytokines and in vivo by LPS administration but CRE-dependent reporter activity was decreased by cytokine stimulation. A c-jun N-terminal kinase (JNK) inhibitor reversed the cytokine-induced increase in CRE binding and increased CRE-dependent reporter activity. Supershift assays indicated that cyclic AMP response element binding protein (CREB) and c-Jun proteins were included in the CRE binding complex. CREB induced and c-Jun suppressed reporter activity using a CRE-dependent construct transfected into cultured primary hepatocytes. In conclusion, these data demonstrate that proinflammatory cytokines regulate CRE binding and activity in cultured hepatocytes and suggest that sepsis-induced changes in CRE binding may participate in the cellular response to inflammation.
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PMID:Cytokines increase CRE binding but decrease CRE-mediated reporter activity in rat hepatocytes by increasing c-Jun. 1512 63

Group B streptococci (GBS) are the principal causal agents of human neonatal pneumonia, sepsis and meningitis. We had previously described the existence of a eukaryotic-type serine/threonine kinase (Stk1) and phosphatase (Stp1) in GBS that regulate growth and virulence of the pathogen. Our previous results also demonstrated that these enzymes reversibly phosphorylated an inorganic pyrophosphatase. To understand the role of these eukaryotic-type enzymes on growth of GBS, we assessed the stk1-mutants for auxotrophic requirements. In this report, we describe that in the absence of the kinase (Stk1), GBS are attenuated for de novo purine biosynthesis and are consequently growth arrested. During growth in media lacking purines, the intracellular G nucleotide pools (GTP, GDP and GMP) are significantly reduced in the Stk1-deficient strains, while levels of A nucleotides (ATP, ADP and AMP) are marginally increased when compared with the isogenic wild-type strain. We provide evidence that the reduced pools of G nucleotides result from altered activity of the IMP utilizing enzymes, adenylosuccinate synthetase (PurA) and IMP dehydrogenase (GuaB) in these strains. We also demonstrate that Stk1 and Stp1 reversibly phosphorylate and consequently regulate PurA activity in GBS. Collectively, these data indicate the novel role of eukaryotic-type kinases in regulation of metabolic processes such as purine biosynthesis.
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PMID:Regulation of purine biosynthesis by a eukaryotic-type kinase in Streptococcus agalactiae. 1588 24

Previous studies have shown that the gut is a major source of norepinephrine (NE) released in early sepsis and that gut-derived NE plays an important role in up-regulating TNF-alpha expression in Kupffer cells (KC) via an alpha(2)-adrenoceptor (alpha(2)-AR) pathway. However, it remains unknown whether NE affects the release of other inflammatory cytokines such as IL-1beta and IL-10 and, if so, whether alpha(2)-AR is also involved in such a process. To study this, a branch of the portal vein in normal adult male rats was cannulated under anesthesia. NE (20 muM in ascorbate saline), NE plus yohimbine (YHB, a specific alpha(2)-AR antagonist, 1 mM) or vehicle (0.1% ascorbate saline) was infused at a rate of 13 mul/min for 2 h. The above rate of NE infusion was used to increase the portal level of NE to approximately 20 nM, similar to that observed in sepsis. Blood samples were then collected and serum levels of IL-1beta and IL-10 were measured. In addition, the KC was isolated from normal rats and stimulated with either NE (20 nM) or NE plus YHB (1 muM). The gene expression of IL-1beta and IL-10 in KC and their supernatant levels were assessed. The results indicate that serum levels of IL-1beta and IL-10 increased significantly after the intraportal infusion of NE. Co-administration of NE and YHB, however, significantly attenuated IL-1beta and IL-10 production. Similarly, IL-1beta and IL-10 gene expression and release from KC were up-regulated by NE stimulation, whereas YHB attenuated both cytokines. Thus, gut-derived NE up-regulates IL-1beta and IL-10 expression and release in the liver through an alpha(2)-AR pathway. Since adenylate cyclase activator forskolin prevents the increase in NE-induced IL-1beta and IL-10, the up-regulatory effect of NE on those cytokines appears to be mediated, at least in part, by inhibition of adenylate cyclase and reduction in intracellular cyclic AMP levels.
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PMID:Gut-derived norepinephrine plays an important role in up-regulating IL-1beta and IL-10. 1594 13

Proinflammatory cytokines like tumor necrosis factor alpha (TNF-alpha) that are released from Kupffer cells may trigger liver inflammation and damage. Hence, endogenous mechanisms for limiting TNF-alpha expression are crucial for avoiding the development of sepsis. Such mechanisms include the anti-inflammatory actions of interleukin-10 (IL-10) as well as signaling induced by the intracellular second messenger cyclic AMP (cAMP). Kupffer cells express several receptors that activate cAMP synthesis, including E-prostanoid receptors and beta-adrenergic receptors. The expression and role of specific adenylyl cyclases in the inhibition of Kupffer cell activation have so far not been subject to study. Pretreatment of rat Kupffer cell cultures with cAMP analogues [8-(4-chlorophenyl)-thio-cAMP], adenylyl cyclase activator (forskolin), or ligands for G-coupled receptors (isoproterenol or prostaglandin E2) 30 min before the addition of lipopolysaccharide (LPS) (1 microg/ml) caused attenuated TNF-alpha levels in culture medium (forskolin/isoproterenol, P < or = 0.05; prostaglandin E2, P < or = 0.01). Forskolin also reduced IL-10 mRNA and protein (P < or = 0.05), which was not observed with the other cAMP-inducing agents. Furthermore, we found that rat Kupffer cells express high levels of the forskolin-insensitive adenylyl cyclase 9 compared to whole liver and that this expression is down-regulated by LPS (P < or = 0.05). We conclude that regulation of TNF-alpha and IL-10 in Kupffer cells depends on the mechanism by which cAMP is elevated. Forskolin and prostaglandin E2 differ in their effects, which suggests a possible role of forskolin-insensitive adenylyl cyclases like adenylyl cyclase 9.
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PMID:Effects of forskolin on Kupffer cell production of interleukin-10 and tumor necrosis factor alpha differ from those of endogenous adenylyl cyclase activators: possible role for adenylyl cyclase 9. 1623 25

Intraabdominal sepsis can lead to acute respiratory failure, and concomitant diaphragmatic dysfunction may be aggravated by sepsis-induced airway hyperreactivity. We previously reported that isoproterenol, a nonselective beta-adrenoceptor agonist, increased diaphragmatic contractility and accelerated recovery from fatigue during sepsis. The purpose of this study was to demonstrate the direct inotropic effect of a potent bronchodilator and beta(2)-selective adrenoceptor agonist, procaterol, on fatigued diaphragmatic contractility in an intraabdominal septic model. Rats were divided into two groups: a cecal ligation and perforation (CLP) group and a sham group. CLP was performed in the CLP group whereas laparotomy alone was performed in the sham group. The left hemidiaphragm was removed at 16 h after the operation. The diaphragmatic tissues were exposed to procaterol (10(-8)-10(-6) M), and muscle contractility was assessed. Intracellular cyclic AMP levels were also measured in the CLP model. Procaterol caused an upward shift in the force-frequency curves in the CLP group whereas it had no effect on the curves in the sham group. Procaterol significantly increased cyclic AMP levels in the CLP model. We conclude that the potent bronchodilator procaterol had a direct and positive inotropic effect on the diaphragm in an intraabdominal septic model.
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PMID:Preferable inotropic action of procaterol, a potent bronchodilator, on impaired diaphragmatic contractility in an intraabdominal septic model. 1663 78

At present, the clinical management inflammatory vasoplegia associated to sepsis or anaphylaxis is symptomatic. Volume is expanded by means of administration of fluids, and low blood pressure is managed by means of administration of positive inotropes and vasoconstrictors. This therapeutic approach is mainly associated to the cyclic AMP (cAMP) and, many times the circulatory shock is refractory to high amines concentrations. However, beside of cAMP-dependent vasoreactivity mechanisms there are other two known vasoplegia involved mechanisms: cyclic GMP (cGMP) and hyperpolarization that is less clinically considered. Also, it is possible to speculate about 'probable vasopressin deficiency'. Methylene blue (MB) is the most useful and clinically safe cGMP blocker. We propose a decision tree for diagnosis and institution of this therapeutical approach many times underestimate by intensive care and emergency teams.
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PMID:Is the cyclic GMP system underestimated by intensive care and emergency teams? 1736 82

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