UMLS:C0243026 - FACTA Search

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

Although the incidence of Gram-positive sepsis has risen strongly, it is unclear how Gram-positive organisms (without endotoxin) initiate septic shock. We investigated whether two cell wall components from Staphylococcus aureus, peptidoglycan (PepG) and lipoteichoic acid (LTA), can induce the inflammatory response and multiple organ dysfunction syndrome (MODS) associated with septic shock caused by Gram-positive organisms. In cultured macrophages, LTA (10 micrograms/ml), but not PepG (100 micrograms/ml), induces the release of nitric oxide measured as nitrite. PepG, however, caused a 4-fold increase in the production of nitrite elicited by LTA. Furthermore, PepG antibodies inhibited the release of nitrite elicited by killed S. aureus. Administration of both PepG (10 mg/kg; i.v.) and LTA (3 mg/kg; i.v.) in anesthetized rats resulted in the release of tumor necrosis factor alpha and interferon gamma and MODS, as indicated by a decrease in arterial oxygen pressure (lung) and an increase in plasma concentrations of bilirubin and alanine aminotransferase (liver), creatinine and urea (kidney), lipase (pancreas), and creatine kinase (heart or skeletal muscle). There was also the expression of inducible nitric oxide synthase in these organs, circulatory failure, and 50% mortality. These effects were not observed after administration of PepG or LTA alone. Even a high dose of LTA (10 mg/kg) causes only circulatory failure but no MODS. Thus, our results demonstrate that the two bacterial wall components, PepG and LTA, work together to cause systemic inflammation and multiple systems failure associated with Gram-positive organisms.
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PMID:The cell wall components peptidoglycan and lipoteichoic acid from Staphylococcus aureus act in synergy to cause shock and multiple organ failure. 747 84

Administration of the nitric oxide synthase inhibitor, NG-nitro-L-arginine methyl ester (5 mg/kg s.c.) provoked acute microvascular injury (assessed by the leakage of radiolabelled human serum albumin) in the rat colon within 1 h, when administered concurrently with endotoxin (Escherichia coli lipopolysaccharide, 3 mg/kg i.v.). Pretreatment with the selective inhibitor of 5-lipoxygenase, BW A137C (N-[4-benzyloxybenzyl] acetohydroxamic acid; 1-20 mg/kg s.c., 15 min before endotoxin) attenuated such damage in a dose-dependent manner. These findings suggest a balance between protective constitutive nitric oxide and the detrimental actions of 5-lipoxygenase products in the maintenance of vascular integrity in the early stage of sepsis.
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PMID:Colonic microvascular integrity in acute endotoxaemia: interactions between constitutive nitric oxide and 5-lipoxygenase products. 749 98

The objective of this study was to determine whether endothelium-derived nitric oxide (NO) production is reduced at the macrocirculatory and microcirculatory levels during sepsis. To examine this, rats were subjected to sepsis by cecal ligation and puncture (CLP). At 5 h after CLP (i.e., midpoint of hyperdynamic sepsis) or sham operation, the aorta and superior mesenteric artery were isolated. Responses to an endothelium-dependent vasodilator, acetylcholine (ACh), and an endothelium-independent vasodilator, nitroglycerin (NTG), were determined. In additional studies, the small intestine was isolated 5 or 20 h (hypodynamic sepsis) after CLP. Responses to ACh and NTG were determined in the isolated intestine. The results indicate that endothelium-dependent relaxation in both the aorta and superior mesenteric artery was depressed at 5 h after CLP. In contrast, there was no significant difference in the relaxation induced by NTG. Moreover, ACh-induced vascular relaxation in the isolated small intestine decreased at 5 and 20 h post-CLP without any significant alterations in NTG-induced relaxation. Since studies have shown that ACh-induced relaxation in the aorta is reduced at 20 h after CLP, it could be concluded that endothelium-derived NO release is depressed during hyperdynamic and hypodynamic stages of sepsis, not only in large arteries, but also at the microcirculatory level.
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PMID:Endothelium-dependent relaxation is depressed at the macro- and microcirculatory levels during sepsis. 750 27

Septic shock is the host's inflammatory response to infection. There are multiple endogenous mediators responsible for the pathogenesis of septic shock. Cytokines, nitric oxide and prostaglandins are some of the major mediators. The term sepsis syndrome allows for an earlier diagnosis and treatment. Management of septic shock is focused in maintaining hemodynamic stability and an adequate oxygen delivery and utilization. Careful attention to each organ-system is of paramount importance to prevent complications and improve outcome. Experimental therapies to modulate the inflammatory response are promising.
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PMID:Septic shock: pathogenesis and treatment. 750 55

Various cell types, including endothelial cells, can synthesize nitric oxide (NO). Three different isoforms of NO synthase have been characterized, purified and cloned. Isozyme I is present in neuronal cells of the brain (where NO may mediate synaptic plasticity), in peripheral non-adrenergic non-cholinergic (NANC) neurons (where NO acts as an atypical neurotransmitter relaxing vascular and non-vascular smooth muscle), and in various specialized epithelial cells. Macrophages can be induced with bacterial endotoxin and/or cytokines to express isozyme II. The high concentrations of NO produced by this isoform have cytostatic effects on parasitic microorganisms and tumour cells. A similar isozyme can be induced in the vascular wall (presumably in smooth muscle cells) in sepsis and during cytokine therapy. The large amounts of NO produced by this enzyme contribute to the symptoms of septic shock, such as vasodilatation and microvascular endothelial damage. Endothelial cells contain isoform III of NO synthase which seems to be unique for this cell type. Endothelium-derived NO is a physiologically significant vasodilator and inhibitor of platelet aggregation and adhesion. In addition, vascular NO can prevent leukocyte adhesion to the endothelium by interfering with the adhesion molecule CD11/CD18, and NO has also been shown to inhibit the proliferation of vascular smooth muscle cells. Hence, NO represents a protective factor against vascular damage and probably atherogenesis.
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PMID:Isoforms of nitric oxide synthase: functions in the cardiovascular system. 750 35

Nitric oxide (NO) has been proposed as a mediator of hypotension in septic shock. The aim of this study was to determine whether an inhibitor of NO production, NG-monomethyl-L-arginine (L-NMMA), was able to protect against death in two murine models of experimental gram-negative sepsis. L-NMMA (3-300 mg kg-1) did not improve survival in intravenous or intraperitoneal models of sepsis. Seven h after intravenous infection, L-NMMA (100 mg/kg-1) reduced serum nitrite plus nitrate levels (NO breakdown products) from 774 microM in control-treated animals to 282 microM in L-NMMA-treated animals (P < .001). This compared to a level of 103 microM in uninfected mice. L-NMMA produced little change in bacterial load following infection and did not increase hepatic damage, as measured by serum levels of ornithine carbamoyltransferase. Thus, while L-NMMA may reverse the hyporesponsiveness of peripheral circulation in sepsis, it was unable to prevent death in these models of gram-negative septic shock.
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PMID:Inhibition of nitric oxide synthase in experimental gram-negative sepsis. 750 68

Cytokine-inducible nitric oxide (NO) production has been implicated in the pathogenesis of septic shock. The present study was designed to determine which cytokines induce expression of the NO synthase gene in rat aortic vascular smooth muscle cells (VSMC) in vitro and whether NO synthase gene expression is inducible in vivo. NO synthase mRNA appeared after 4-h exposure to interleukin-1 beta (IL-1 beta), and levels continued to increase up to 24 h. Levels of NO synthase transcripts were greatest in VSMC treated with IL-1 beta (1 nM), lower in VSMC treated with Escherichia coli lipopolysaccharide (LPS; 100 micrograms/ml), and just detectable in VSMC treated with tumor necrosis factor-alpha (TNF-alpha; 1 nM). IL-1 beta, TNF-alpha, and LPS each induced NO synthase activity, assessed by release of nitrite, conversion of L-arginine to L-citrulline, and increased levels of guanosine 3',5'-cyclic monophosphate, whereas IL-2, IL-6, and interferon-gamma were ineffective. IL-1 beta was more potent and effective than TNF-alpha; however, submaximal concentrations of TNF-alpha acted synergistically with IL-1 beta to induce NO synthase gene expression and activity. Inducible NO synthase mRNA was present in aorta from rats 6 h after treatment with LPS (5 mg/kg), but not at 24 h. Synergistic activation of NO synthase gene expression in VSMC by IL-1 beta and TNF-alpha may contribute to hypotension in sepsis.
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PMID:Interleukin-1 beta and tumor necrosis factor-alpha synergistically induce NO synthase in rat vascular smooth muscle cells. 751 63

Nitric oxide (NO) is an important hemodynamic mediator of sepsis; however, its visceral microcirculatory effects are largely unknown. To determine the role of systemic nitric oxide synthase (NO-S) inhibition on the microcirculation of the small intestine (SI), an intact loop of SI was exteriorized from decerebrate rats into a controlled tissue bath. Videomicroscopy was used to measure arteriolar diameters (A1, A3) and optical Doppler velocimetry was used to quantitate flow. In nonbacteremic controls inhibition of NO-S by N omega-nitro-L-arginine methyl ester (L-NAME; 1 mg/kg IV) caused vasoconstriction (A1 = -7%; A3 = -24% baseline values) and reduced A1 flow by 26%. Bacteremic controls received 10(9) Escherichia coli IV, which resulted in arteriolar constriction and hypoperfusion (A1 = -16%; A3 = -21%; A1 flow = -44%), despite increased cardiac output (+33%). Treatment of bacteremic rats with L-NAME corrected the increased cardiac output (-3%), but exacerbated vasoconstriction (A1 = -24%; A3 = -27%) and did not improve A1 flow (-49%). These data indicate that (1) NO mediates basal microvascular tone of the SI; (2) hyperdynamic bacteremia causes arteriolar constriction and hypoperfusion of the SI; and (3) although systemic NO-S inhibition normalizes cardiac output and increases blood pressure, it aggravates vasoconstriction in the SI and does not improve hypoperfusion.
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PMID:Nitric oxide synthase inhibition aggravates intestinal microvascular vasoconstriction and hypoperfusion of bacteremia. 751 73

Endotoxinaemia stimulates the generation of cysteinyl leukotrienes (LT), potent mediators of inflammation which are preferentially eliminated into the bile. Nitric oxide (NO) is a mediator molecule that has a possible protective role in liver injury. As sepsis and shock often lead to the development of hypoxic regions in the liver, the influence of hypoxia on the metabolism of cysteinyl leukotrienes and the hepatic production of NO were investigated in the isolated perfused rat liver. Livers were perfused in a non-recirculating haemoglobin-free system from the portal to the caval vein. Perfusion medium was equilibrated with 95% O2/5% CO2. In hypoxia experiments, gassing was changed to 95% N2/5% CO2 for 20 min. Tritiated leukotrienes were infused to the portal vein and metabolites in effluent and bile were measured by HPLC. Hypoxia did not influence the uptake of 3H-LTC4 and 3H-LTE4 but biliary elimination was reduced by 50-60% compared to normoxic control experiments. In hypoxia, the metabolite pattern in bile was also significantly changed with a decrease of omega-oxidation products. Following reoxygenation larger amounts of leukotrienes were excreted from the liver into the bile. To induce NO synthase in the liver, rats were injected intraperitoneally with endotoxin 6 hours before livers were isolated for perfusion. In contrast to nontreated livers, nitrite and nitrate, the oxidation products of NO, were detectable in the effluent perfusate. Basal NO2(-)+NO3- release was 5.3 (1.2) nmol/g liver/min. NO2(-)+NO3- release was stimulated by L-arginine infusion, whereas hypoxia resulted in an almost complete inhibition.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Effect of hypoxia on nitric oxide formation and leukotriene metabolism in the perfused rat liver]. 751 4

Neutrophil accumulation in tissue is a hallmark of inflammation and is associated with a variety of pathological conditions. In bacterial infection neutrophils are selectively attracted in large numbers to phagocytose and kill invading microorganisms. However, activated neutrophils can also cause injury to tissues. To investigate functional alterations in liver recruited neutrophils (PMNs), we studied the functional characteristics of circulating blood and liver sequestered PMNs in terms of host defense mechanisms, such as nitric oxide (NO) and superoxide (SO) generation, beta 2 integrin expression, phagocytosis, and eicosanoid profile. Cells were isolated from rats infused with a nonlethal dose (320 micrograms/kg) of E. coli endotoxin (ET) or pyrogen-free saline for 90 min. Liver PMNs produced significantly more NO both in the absence and in the presence of an in vitro endotoxin challenge than did blood PMNs. No significant difference was observed in phorbol myristate acetate-stimulated SO generation. Endotoxin infusion significantly up-regulated the expression of CD11b/c in circulating and even more so in liver PMNs. Phagocytosis was significantly enhanced by in vivo ET treatment in blood PMNs, and liver PMNs showed even greater phagocytic activity than blood PMNs or Kupffer cells. The percent distribution of prostaglandins D2 and E2 of total 14C-eicosanoids was significantly higher and that of thromboxane B2 and 5-, 12-, and 15-HETEs was significantly lower in liver than in blood PMNs. Our study demonstrates several functional differences between liver-recruited and circulating PMNs in an acute endotoxic model. The implications of altered neutrophil function may extend to mechanisms of host defense and hepatotoxicity associated with sepsis and endotoxemia.
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PMID:Functional characterization of peripheral circulating and liver recruited neutrophils in endotoxic rats. 752 Sep 27

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