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)

Peritonitis generally results from gastrointestinal perforation, with systemic sepsis developing over hours or days from an initially localized nidus of infection. The consecutive inflammatory response induces the widespread generation of oxidants and free radicals, which are potent inducers of breaks and nicks in double-stranded DNA. This genetic damage triggers the activation of the nuclear enzyme poly(ADP-ribose) polymerase 1, which, in turn, cleaves the respiratory coenzyme nicotinamide adenine dinucleotide into nicotinamide and ADP ribose. The consecutive decrease in cellular nicotinamide adenine dinucleotide inhibits glycolysis and mitochondrial respiration, leading to cellular energy collapse and necrotic cell death. In parallel, poly(ADP-ribose) polymerase 1 positively regulates inflammatory signal transduction pathways through a functional association with the transcription factor nuclear factor kappaB, resulting in a progressive amplification of local inflammation. Recent data indicate that these molecular mechanisms are instrumental in the development of cardiovascular collapse and multiple organ dysfunction in sepsis, supporting the view that pharmacologic inhibitors of poly(ADP-ribose) polymerase 1 may represent useful tools for the treatment of this condition.
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PMID:Role of poly(adenosine diphosphate-ribose) polymerase 1 in septic peritonitis. 1265 79

Abnormalities in blood rheology and platelet dysfunction might play a role in the pathogenesis of multiple organ failure in septic patients by reducing microvascular blood flow. To determine whether alterations in blood rheology and in platelet function are related to the severity of organ dysfunction, we prospectively studied plasma fibrinogen, red cell aggregation, plasma viscosity, hematocrit, whole blood viscosity and platelet aggregation in relation to the Sepsis-related Organ Failure Assessment (SOFA) score in 34 consecutive patients with severe sepsis/septic shock. We found that patients had higher plasma fibrinogen, red cell aggregation and plasma viscosity (p < 0.01), but lower hematocrit, whole blood viscosity and ADP-induced platelet aggregation than controls (p < 0.01). Platelet aggregation (p < 0.01), but not other rheological variables, were inversely related to the SOFA score. Only platelet count was linked to poor clinical outcome (p < 0.05). We conclude that blood rheology and platelet function are severely altered in patients with severe sepsis/septic shock. Our findings suggest progressive platelet dysfunction with advancing severity of the disease. Platelet dysfunction might play a more important role in the pathogenesis of the multi organ dysfunction syndrome than abnormalities in blood rheology.
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PMID:Platelet aggregation and blood rheology in severe sepsis/septic shock: relation to the Sepsis-related Organ Failure Assessment (SOFA) score. 1500 35

Mitochondria are the specialized organelles for energy metabolism but also participate in the production of O(2) active species, cell cycle regulation, apoptosis and thermogenesis. Classically, regulation of mitochondrial energy functions was based on the ADP/ATP ratio, which dynamically stimulates the transition between resting and maximal O(2) uptake. However, in the last years, NO was identified as a physiologic regulator of electron transfer and ATP synthesis by inhibiting cytochrome oxidase. Additionally, NO stimulates the mitochondrial production of O(2) active species, primarily O(2)(-) and H(2)O(2), and, depending on NO matrix concentration, of ONOO(-), which is responsible for the nitrosylation and nitration of mitochondrial components. By this means, alteration in mitochondrial complexes restricts energy output, further increases O(2) active species and changes cell signaling for proliferation and apoptosis through redox effects on specific pathways. These mechanisms are prototypically operating in prevalent generalized diseases like sepsis with multiorgan failure or limited neurodegenerative disorders like Parkinson's disease. Complex I appears to be highly susceptible to ONOO(-) effects and nitration, which defines an acquired group of mitochondrial disorders, in addition to the genetically induced syndromes. Increase of mitochondrial NO may follow over-expression of nNOS, induction and translocation of iNOS, and activation and/or increased content of the newly described mtNOS. Likewise, mtNOS is important in the modulation of O(2) uptake and cell signaling, and in mitochondrial pathology, including the effects of aging, dystrophin deficiency, hypoxia, inflammation and cancer.
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PMID:Nitric oxide, complex I, and the modulation of mitochondrial reactive species in biology and disease. 1505 22

Septic shock, a severe form of sepsis, is characterized by cardiovascular collapse following microbial invasion of the body. The progressive hypotension, hyporeactivity to vasopressor agents and vascular leak leads to circulatory failure with multiple organ dysfunction and death. Many inflammatory mediators (e.g. TNF-alpha, IL-1 and IL-6) are involved in the pathogenesis of shock and, among them, nitric oxide (NO). The overproduction of NO during septic shock has been demonstrated to contribute to circulatory failure, myocardial dysfunction, organ injury and multiple organ failure. We have previously demonstrated with in vitro and in vivo studies that methylguanidine (MG), a guanidine compound deriving from protein catabolism, significantly inhibits iNOS activity, TNF-alpha release and carrageenan-induced acute inflammation in rats. The aim of the present study was to evaluate the possible anti-inflammatory activity of MG in a model of septic shock induced by lipopolysaccharide (LPS) in mice. MG was administered intraperitoneally (i.p.) at the dose of 30 mg/kg 1 h before and at 1 and 6 h after LPS-induced shock. LPS injection (10 mg/kg in 0.9% NaCl; 0.1 ml/mouse; i.p.) in mouse developed a shock syndrome with enhanced NO release and liver, kidney and pancreatic damage 18 h later. NOx levels, evaluated as nitrite/nitrate serum levels, was significantly reduced in MG-treated rats (78.6%, p < 0.0001; n = 10). Immunohistochemistry revealed, in the lung tissue of LPS-treated group, a positive staining for nitrotyrosine and poly(adenosine diphosphate [ADP] ribose) synthase, both of which were reduced in MG-treated mice. Furthermore, enzymatic evaluation revealed a significant reduction in liver, renal and pancreatic tissue damage and MG treatment also improved significantly the survival rate. This study provides evidence that MG attenuates the degree of inflammation and tissue damage associated with endotoxic shock in mice. The mechanisms of the anti-inflammatory effect of MG is, at least in part, dependent on the inhibition of NO formation.
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PMID:Effect of methylguanidine in a model of septic shock induced by LPS. 1562 90

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

Patients with sepsis often suffer from haemostatic disturbances such as haemorrhage and disseminated intravascular coagulation (DIC). Considering the pivotal role of platelets in haemostasis, we have investigated platelet function by flow cytometry in 16 patients with sepsis for a better understanding of their haemostatic function. We have also investigated whether platelet function correlates with the severity of disease assessed by multiple organ dysfunction (MOD) score and patient outcome. The platelet response ex vivo after stimulation with agonists, measured as platelet fibrinogen, binding was low in comparison with healthy volunteers ( n = 30). This could reflect a previous response to agonists in vivo , which lead to platelet activation and consumption and formation of microthrombi that could then participate in the development of M OD. The platelets that remain in the circulation might be the result of a selection process where the most active platelets have already been consumed, and the remaining population consists of less active platelets. Another explanation might be desensitization of the remaining platelets because of exposure to agonists in vivo . Platelet activation with the agonists ADP and arachidonic acid were predictive of subsequent development of MOD and final patient outcome.
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PMID:Impaired platelet function correlates with multi-organ dysfunction. A study of patients with sepsis. 1679 6

Mitochondrial oxidative phosphorylation provides most cellular energy. As part of this process, cytochrome c oxidase (CcO) pumps protons across the inner mitochondrial membrane, contributing to the generation of the mitochondrial membrane potential, which is used by ATP synthase to produce ATP. During acute inflammation, as in sepsis, aerobic metabolism appears to malfunction and switches to glycolytic energy production. The pro-inflammatory cytokine tumor necrosis factor alpha (TNFalpha) has been shown to play a central role in inflammation. We hypothesized that TNFalpha-triggered cell signaling targets CcO, which is a central enzyme of the aerobic energy metabolism and can be regulated through phosphorylation. Using total bovine and murine hepatocyte homogenates TNFalpha treatment led to an approximately 60% reduction in CcO activity. In contrast, there was no direct effect of TNFalpha on CcO activity using isolated mitochondria and purified CcO, indicating that a TNFalpha-triggered intracellular signaling cascade mediates CcO inhibition. CcO isolated after TNFalpha treatment showed tyrosine phosphorylation on CcO catalytic subunit I and was approximately 50 and 70% inhibited at high cytochrome c concentrations in the presence of allosteric activator ADP and inhibitor ATP, respectively. CcO phosphorylation occurs on tyrosine 304 as demonstrated with a phosphoepitope-specific antibody. Furthermore, the mitochondrial membrane potential was decreased in H2.35 cells in response to TNFalpha. Concomitantly, cellular ATP was more than 35 and 64% reduced in murine hepatocytes and H2.35 cells. We postulate that an important contributor in TNFalpha-mediated pathologies, such as sepsis, is energy paucity, which parallels the poor tissue oxygen extraction and utilization found in such patients.
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PMID:Tumor necrosis factor alpha inhibits oxidative phosphorylation through tyrosine phosphorylation at subunit I of cytochrome c oxidase. 1853 80

Adenosine is a purine nucleoside, which is produced inside the body under metabolic stress like hypoxic conditions, acute or chronic inflammatory tissue insults. The synthesis of adenosine involves the catabolism of adenine nucleotides (ATP, ADP and AMP) by the action of extracellular ectonucleotidases i.e. CD39 or nucleoside triphosphate dephosphorylase (NTPD) and CD73 or 5'-ectonucleotidase. Once adenosine is released in the extracellular environment, it binds to different types of adenosine (i.e. adenosine A(1), A(2A), A(2B) and A(3) receptors) receptors expressed on various innate immune cells [Neutrophils, macrophages, mast cells, dendritic cells and natural killer cells]. Thus, depending on the type of adenosine receptor to which it binds, adenosine modulates innate immune response during various inflammatory conditions [i.e. chronic (cancer, asthma) as well as acute (sepsis, acute lung injury) inflammatory diseases]. This review summarizes the effect of adenosine on innate immunity and the use of adenosine receptor specific agonists or antagonists in various immunologic disorders (asthma, cancer, HIV-1 infection) as future immunomodulatory therapeutics.
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PMID:Adenosine: an endogenous modulator of innate immune system with therapeutic potential. 1946 86

Sepsis is a systemic response to an infection that leads to a generalized inflammatory reaction. There is an intimate relationship between procoagulant and proinflammatory activities, and coagulation abnormalities are common in septic patients. Pharmaceutical studies have focused to the development of substances that act on coagulation abnormalities and on the link between coagulation and inflammation. Fructose-1,6-bisphosphate (FBP) is a high-energy glycolitic metabolite that in the past two decades has been shown therapeutic effects in great number of pathological situations, including sepsis. The aims of this study were to assess the effects of FBP on platelet aggregation in vitro and ex vivo in healthy and septic rats and evaluate the use of FBP as a treatment for thrombocytopenia and coagulation abnormalities in abdominal sepsis in rat. FBP inhibited platelet aggregation (P < 0.001) in vitro in healthy rats from the smallest dose tested, 2.5 mM, in a dose-dependent manner. The mean effective dose calculated was 10.6 mM. The highest dose tested, 40 mM, completely inhibited platelet aggregation (P < 0.001) induced by ADP. Platelet aggregation in plasma from septic rats was inhibited only with higher doses of FBP, starting from 20 mM (P < 0.001). The calculated mean effective dose was 19.3 mM. Ex vivo platelet aggregation in septic rats was significantly lower (P < 0.05) than healthy rats and the treatment with FBP, at the dose of 2 g/kg, diminished the platelet aggregation at the extension of 27% (P < 0.001), suggesting that FBP is a potent platelet aggregation inhibitor in vivo. Moreover, treatment with FBP 2 g/kg prevented thrombocytopenia (P < 0.001), prolongation of prothrombin and partial thromboplastin time (P < 0.001), but not fibrinogen, in septic rats. The most important findings in this study are that FBP is a potent platelet aggregation inhibitor, in vitro and ex vivo. It presents protective effects on coagulation abnormalities, which can represent a treatment against DIC. The mechanisms for these effects remain under investigation.
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PMID:Fructose-1,6-bisphosphate inhibits in vitro and ex vivo platelet aggregation induced by ADP and ameliorates coagulation alterations in experimental sepsis in rats. 1970 56

Nucleotides, including ADP, ATP and uridine triphosphate (UTP), are discharged profusely in the circulation during many pathological conditions including sepsis. Sepsis can cause hypotension and systemic activation of the coagulation and fibrinolytic systems in humans, which may cause disseminated intravascular coagulation. We investigated whether nucleotide-induced cardiovascular collapse as provoked by systemic infusion of adenosine, ADP, ATP, UTP and nitric oxide affected the haemostatic system as assessed by whole blood thromboelastography (TEG) analysis. Ten pigs received a randomized infusion of adenosine, ADP, ATP, UTP or nitric oxide until mean arterial pressure was reduced to approximately 40% of baseline simulating sepsis-induced hypotension. The effect of the infusions on the haemostatic system was evaluated by TEG, and endothelial release of tissue plasminogen activator and plasminogen activator inhibitor-1 was measured. In contrast to the other infused substrates, ADP caused a reduction in maximum amplitude (71.4 to 64.2; P < 0.05), and reduced the angle, representing the thrombus formation (75.6 to 66.4; P < 0.05), indicating hypocoagulation. Despite increases in t-PA release (2.1 to 2.7 ng/ml; P < 0.05) and reductions in plasminogen activator inhibitor (33.9 +/- 10.9-17.8 +/- 4.4 ng/ml; P < 0.05) no increased fibrinolysis was found when whole blood was evaluated by TEG. Circulating ADP induces hypocoagulation without signs of increased fibrinolysis as evaluated by TEG. The potential clinical significance of these findings should be investigated further because ADP discharged systemically may possibly contribute to the coagulopathy observed in severe sepsis.
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PMID:Effects of nucleotides and nucleosides on coagulation. 2038 37

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