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)

Evidence suggests that antithrombin III (ATIII) exerts anti-inflammatory properties in addition to its anti-coagulative mechanisms. In animal models of sepsis, ATIII affected cytokine plasma concentrations with a decrease of pro-inflammatory cytokines. In addition to cytokines, excessive production of nitric oxide (NO) derived from inducible nitric oxide synthase (iNOS) might represent another important mediator of the cytotoxic events during sepsis. Regarding ATIII as a potential anti-inflammatory modulator, one may speculate that ATIII inhibits the synthesis of iNOS-derived NO. However, our data demonstrate that ATIII further stimulates iNOS gene expression when applied together with either interleukin-1 beta or the combination of lipopolysaccharide plus interferon-gamma. The most prominent synergistic effects on NO synthesis were found when ATIII was given at higher concentrations (1, 5, and 10 U/ml). Although the mechanisms of ATIII signal transduction remain to be established, intensification of interleukin-1 beta or interferon-gamma/lipopolysaccharide-induced NO synthesis by ATIII does not attribute to the anti-inflammatory properties of ATIII.
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PMID:Antithrombin III enhances inducible nitric oxide synthase gene expression in vascular smooth muscle cells. 1127 13

In this study we evaluated the role of the neuronal nitric oxide synthase (nNOS) in lipopolysaccharide (LPS)-induced diaphragmatic contractile dysfunction and sarcolemmal injury. Wild-type (WT) mice or mice deficient in the nNOS gene (nNOS(-/-)) were injected with either saline (control) or Escherichia coli LPS (LPS groups) and sacrificed 12 h later. The diaphragm was then examined for NOS expression, NOS activity, and in-vitro contractility. We also assessed sarcolemmal injury in isolated muscle strips under resting condition and after 3 min of artificial stimulations. In WT mice, LPS injection reduced maximum force to about 75% of that of control animals and raised total NOS activity significantly due to the induction of the iNOS isoform. Although muscle fiber injury was minimal under resting condition, the percentage of injured fibers in control and LPS-injected mice approached 27% and 40% of total fibers, respectively, in response to artificial stimulation. By comparison, LPS injection in nNOS(-/-) mice elicited a worsening of muscle contractility (maximum force < 60% of control animals) but elicited degrees of sarcolemmal injury similar to those observed in the WT animals. In addition, muscle NOS activity and iNOS protein level in nNOS(-/-) mice injected with LPS reached about 10% and 60% of that of WT animals, respectively (p < 0.05 compared with WT animals). Protein level of endothelial NOS isoform in the diaphragm was not altered by LPS injection in either WT or nNOS(-/-) animals. We conclude that nNOS plays a protective role in attenuating the negative influence of sepsis on diaphragmatic contractility but is not involved in the pathogenesis of sepsis-induced sarcolemmal injury.
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PMID:Lipopolysaccharide-induced diaphragmatic contractile dysfunction and sarcolemmal injury in mice lacking the neuronal nitric oxide synthase. 1128 76

Acute lung injury is an important feature of sepsis and increased iNOS expression and NO production contribute to the pathogenesis of this syndrome. We generated bone marrow-transplanted chimeric mice with iNOS expression limited to either inflammatory or pulmonary parenchymal cells, and assessed pulmonary iNOS activity and systemic levels of NO metabolites in an endotoxemic model of sepsis. We found that while both pulmonary parenchymal cells and inflammatory cells contribute to the increased lung iNOS activity in endotoxemia, pulmonary parenchymal cells contribute to a significantly greater degree. Using measurement of plasma NO(-)(x), whole body NO production was assessed in this model. We found that the main source of NO(-)(x) was again, parenchymal cells and not inflammatory cells. This is the first study to demonstrate that most of the increased NO production in this model of endotoxemic sepsis derives from parenchymal cells rather than inflammatory cells.
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PMID:Relative contribution of hemopoietic and pulmonary parenchymal cells to lung inducible nitric oxide synthase (inos) activity in murine endotoxemia. 1134 81

Severe sepsis and probably most prolonged critical illnesses reflect a paradox of combined increased activation and depression of the immune apparatus. The increased activation of the inflammatory response is evidenced from the increased levels of circulating proinflammatory cytokines in the blood, increased endothelial activation with increased expression of inducible nitric oxide synthase, and increased de novo CD11b expression on circulating immune effector cells, such as PMNs, monocytes and lymphocytes. However, coexisting with this proinflammatory process is a profound anti-inflammatory state characterized by increased circulating levels of anti-inflammatory species that both directly block the binding of proinflammatory stimuli to their cell surface receptors (IL-1ra, soluble TNF receptors) and also induce an anti-inflammatory state on their own (IL-10, TFG-beta). This humoral anti-inflammatory state is mirrored at the cellular levels by decreased monocyte ability to process antigen, characterized by a reduced HLA-DR expression and impaired PMN upregulation in response to clearly proinflammatory stimuli. Accordingly, severe sepsis reflects a combined pro- and anti-inflammatory state. Both the pro- and anti-inflammatory arms have protective and destructive aspects, making their modulation by treatment less predictable than if their actions were purely beneficial or detrimental.
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PMID:Sepsis: a pro- and anti-inflammatory disequilibrium syndrome. 1139 3

The induction of inducible nitric oxide synthase (iNOS) serves an important immuno-protective function in inflammatory states, but ungoverned nitric oxide (NO) generation can contribute to a number of pathologic consequences. Delineation of the mechanisms that can downregulate iNOS-generated NO in inflammation could have therapeutic relevance. Here we show that agmatine, a metabolite of arginine, inhibits iNOS mediated nitric oxide generation in cytokine stimulated cell culture preparations. This effect was not cell type specific. Increased diamine oxidase (DAO) and decreased aldehyde dehydrogenase (AldDH) activities are also representative of inflammatory settings. Increasing the conversion of agmatine to an aldehyde form by addition of purified DAO or suppression of aldehyde breakdown by inhibition of AldDH activity increases the inhibitory effects of agmatine in an additive fashion. Inhibitors of DAO, but not monoamine oxidase (MAO), decreased the inhibitory effects of agmatine, as did the addition of AldDH or reacting aldehydes with phenylhydrazine. We examined rats given lipopolysaccharide (LPS) to evaluate the potential effects of agmatine in vivo. Endotoxic rats administered agmatine prevented the decreases in blood pressure and renal function normally associated with sepsis. Agmatine treatment also increased the survival of LPS treated mice. Our data demonstrate the capacity of agmatine aldehyde to suppress iNOS mediated NO generation, and indicate a protective function of agmatine in a model of endotoxic shock. How agmatine may aid in coordinating the early NO phase and the later repair phase responses in models of inflammation is discussed.
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PMID:Suppression of inducible nitric oxide generation by agmatine aldehyde: beneficial effects in sepsis. 1147 57

Leukocyte accumulation has been shown to be increased in sepsis. Moreover, in inducible nitric oxide synthase (iNOS) knockout mice, a further increase in leukocyte accumulation has been observed during sepsis, suggesting that nitric oxide (NO) may affect leukocyte/endothelial interaction. Accelerated peroxynitrite formation also occurs during sepsis. In the present study, the effect of peroxynitrite or NO on leukocyte adhesion to nitric oxide synthase (NOS)-inhibited or endotoxin-treated endothelium was examined. Bovine aortic endothelial cells were treated with either L-NAME or lipopolysaccharide (LPS) and interferon-gamma for 4 hr and subsequent leukocyte adhesion was measured. Both L-NAME and LPS treatment resulted in increased leukocyte adhesion compared with control. Neither a peroxynitrite donor, SIN-1, nor a direct NO donor, DETA-NO, had any effect on leukocyte adhesion to untreated endothelium. However, when the L-NAME or LPS-treated endothelial cells were treated simultaneously with either SIN-1 or DETA-NO, there was a significant reduction in leukocyte adhesion. Moreover, at the concentrations used in the present study, neither peroxynitrite nor NO showed harmful effects on normal cultured endothelial cells. These data demonstrating inhibition of leukocyte adhesion to endotoxin-treated endothelium suggest that peroxynitrite or NO may exert a beneficial effect during sepsis.
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PMID:Effects of nitric oxide and peroxynitrite on endotoxin-induced leukocyte adhesion to endothelium. 1147 60

Several natural flavonoids have been demonstrated to perform some beneficial biological activities, however, higher-effective concentrations and poor-absorptive efficacy in body of flavonoids blocked their practical applications. In the present study, we provided evidences to demonstrate that flavonoids rutin, quercetin, and its acetylated product quercetin pentaacetate were able to be used with nitric oxide synthase (NOS) inhibitors (N-nitro-L-arginine (NLA) or N-nitro-L-arginine methyl ester (L-NAME)) in treatment of lipopolysaccharide (LPS) induced nitric oxide (NO) and prostaglandin E2 (PGE2) productions, inducible nitric oxide synthase (iNOS) and cyclooxygenase-2 (COX-2) gene expressions in a mouse macrophage cell line (RAW 264.7). The results showed that rutin, quercetin, and quercetin pentaacetate-inhibited LPS-induced NO production in a concentration-dependent manner without obvious cytotoxic effect on cells by MTT assay using 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide as an indicator. Decrease of NO production by flavonoids was consistent with the inhibition on LPS-induced iNOS gene expression by western blotting. However, these compounds were unable to block iNOS enzyme activity by direct and indirect measurement on iNOS enzyme activity. Quercetin pentaacetate showed the obvious inhibition on LPS-induced PGE2 production and COX-2 gene expression and the inhibition was not result of suppression on COX-2 enzyme activity. Previous study demonstrated that decrease of NO production by L-arginine analogs effectively stimulated LPS-induced iNOS gene expression, and proposed that stimulatory effects on iNOS protein by NOS inhibitors might be harmful in treating sepsis. In this study, NLA or L-NAME treatment stimulated significantly on LPS-induced iNOS (but not COX-2) protein in RAW 264.7 cells which was inhibited by these three compounds. Quercetin pentaacetate, but not quercetin and rutin, showed the strong inhibitory activity on PGE2 production and COX-2 protein expression in NLA/LPS or L-NAME/LPS co-treated RAW 264.7 cells. These results indicated that combinatorial treatment of L-arginine analogs and flavonoid derivates, such as quercetin pentaacetate, effectively inhibited LPS-induced NO and PGE2 productions, at the same time, inhibited enhanced expressions of iNOS and COX-2 genes.
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PMID:Inhibition of nitric oxide synthase inhibitors and lipopolysaccharide induced inducible NOS and cyclooxygenase-2 gene expressions by rutin, quercetin, and quercetin pentaacetate in RAW 264.7 macrophages. 1150 Sep 31

Interleukin-1 (IL-1) plays an important role in host defenses against microbial pathogens. Excessive production of this cytokine, however, may be responsible in part for the lethality observed during sepsis. Our studies show that interferon-gamma (IFN-gamma) downregulates lipopolysaccharide (LPS)-induced interleukin-1beta (IL-1beta) transcription in primary macrophages. This phenomenon does not occur in splenocytes or bone marrow-derived macrophages from signal transducer and activator of transcription (Stat1)-deficient mice, suggesting that Stat1, a transcription factor involved in IFN signaling, plays a critical role in this process. Moreover, nitric oxide (NO) was also involved in the downregulation of LPS-induced IL-1 by IFN, as addition of the inducible nitric oxide synthase (iNOS) inhibitor L-N(6)-(1-iminoethyl)lysine (NIL) negated the effect. Kinetic analysis of IL-1 and IFN levels in LPS-treated mice in vivo suggests that IFN-mediated inhibition of IL-1 might be an important negative feedback mechanism for limiting IL-1 generation in vivo.
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PMID:IFN-gamma inhibits lipopolysaccharide-induced interleukin-1 beta in primary murine macrophages via a Stat1-dependent pathway. 1150 42

The activation of inducible form of nitric oxide (NO) synthase (iNOS, type II, or macrophage NOS) and subsequent production of free radical gas NO is an important anti-infectious and anti-tumor mechanism of innate immunity. On the other hand, high amounts of iNOS-derived NO have been implicated in self-tissue destruction during autoimmune diseases, allograft rejection, sepsis, and other disorders accompanied by excessive activation of the immune system. It is generally accepted that beneficial effects of some recently designed immunosuppressive agents primarily stem froin their ability to interfere with the function of T and/or B cells, thus preventing deleterious consequences of specific immunity-innate immunity positive feedback, with high NO production being one of them. However, it has been recently observed that drugs like cyclosporin A, FK506, leflunomide, mycophenolate mofetil, pentoxifylline, and linomide can directly modulate cytokine and/or LPS-induced NO production in various cell types in vitro, probably by interfering with iNOS gene transcription or catalytic activity of iNOS enzyme. Interestingly, some of these drugs exhibited cell-specific pattern of iNOS modulation, thus indirectly revealing distinct requirements for iNOS induction in different cell types. Possible impact of this direct and cell-selective interference with iNOS activation on the therapeutic effectiveness of immunosuppressive drugs is discussed.
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PMID:Modulation of inducible nitric oxide synthase activation by immunosuppressive drugs. 1151 33

Reye's syndrome virtually disappeared from much of the world after the use of salicylate in febrile children was successfully discouraged. This severe sepsis-like disease was thought to be caused by a hypersensitivity to salicylates in children with mild viral infections, although no mechanism consistent with this proposal was ever established. Salicylate toxicity in African children has been noted to have many clinical features in common with severe falciparum malaria, including acidosis, altered consciousness, convulsions, and hypoglycaemia. Salicylates are widely available in various formulations in many African countries, and are commonly used for initial treatment of the symptoms that malaria shares with other diseases. There is now experimental evidence that salicylate increases and prolongs the activity of key elements along the signalling pathway through which interferon gamma generates inducible nitric oxide synthase (iNOS), and we have shown that iNOS is strongly expressed in fatal malaria and other acute fevers in African children. We further propose that, in areas where salicyaltes are still used to treat the symptoms of febrile illnesses in children, this mechanism could exacerbate potentially serious infectious diseases, including falciparum malaria. In contrast, the absence of salicylate use in children in some Pacific islands could contribute to the milder outcome of falciparum malaria than is observed in Africa. Widespread expression of iNOS has also been seen in the tissues of a patient with fatal clinically defined Reye's syndrome. This finding suggests that Reye's syndrome can be mediated through salicylate enhancement of iNOS expression, the initial trigger in this instance usually being a viral infection.
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PMID:Salicylates, nitric oxide, malaria, and Reye's syndrome. 1150 38

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