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)

Oral high-dose arginine supplementation is used for the experimental immunotherapy of tissue trauma and sepsis. Yet the adequate dosage required for immunomodulation has to be established and the toxicity of high-dose arginine has not been fully elucidated. Following a protocol for the treatment of diabetic long-term complications (oral daily doses of 30 mg/kg BW; blind, placebo-controlled prospective study with crossing-over design) we studied plasma levels of interleukins 1 alpha (IL-1 alpha) and 1 beta reflecting immunostimulation. Arginine supplementation in 29 patients with diabetes mellitus prompted a 2-fold increase of IL-1 alpha from baseline levels (P < 0.001) while IL-1 beta was unaffected. Implications for the treated panel of diabetic patients could be a reduction of collagen accumulation by enhanced collagenolysis and clearance of advanced-stage non-enzymatic glycosylation products. Based upon our data, low-dose arginine protocols for further immunotherapeutical studies should be discussed.
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PMID:Low-dose dietary L-arginine increases plasma interleukin 1 alpha but not interleukin 1 beta in patients with diabetes mellitus. 800 37

Nitric oxide (NO) is an important mediator of the hemodynamic response to sepsis; however, its visceral microcirculatory effects are largely unknown. To determine the role of NO in renal microvascular responses to bacteremia, rat hydronephrotic kidneys with intact neurovascular supplies were exteriorized into a tissue bath. Videomicroscopy was used to measure vessel diameters (interlobular artery, ILA; afferent arteriole, AFF; efferent arteriole, EFF) and optical Doppler velocimetry was used to quantitate ILA flow. In controls, topical L-arginine (L-Arg; 10(-4) M), the NO synthase (NO-S) substrate, resulted in mild pre- and postglomerular dilation and increased flow. Inhibition of NO-S by N omega-nitro-L-arginine methyl ester (L-NAME: 10(-4) M) caused preglomerular constriction (ILA = -22%; AFF = -20% from baseline) and reduced ILA flow by 39%, while postglomerular diameters (EFF) were unchanged. Bacteremic rats had similar alterations (ILA = -22%; AFF = -20%; flow = -56%). Topical L-NAME in bacteremic rats resulted in further constriction (ILA = -38%; AFF = -37%), decreased ILA flow (-75%) and constricted EFF (-30%). L-Arg ameliorated constriction (ILA = -11%; AFF = -7%) and flow (-34%) during bacteremia. We conclude that: (1) NO is important in basal preglomerular tone; (2) Escherichia coli causes selective preglomerular constriction and hypoperfusion; (3) maintenance of EFF tone during bacteremia is NO dependent; and (4) different pre- and postglomerular NO mechanisms exist during basal and bacteremic states. These data indicate that NO is an important mediator of renal microvascular responses to sepsis.
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PMID:Renal microvascular responses to sepsis are dependent on nitric oxide. 801 6

Recent studies have identified the induction of nitric oxide (NO) synthesis in many cell types as part of the host response to sepsis and inflammation. Induced NO can have a variety of effects which may be detrimental or beneficial during sepsis or inflammation, depending on amount, duration, and anatomic site of synthesis. As arginine is the only physiological nitrogen donor for NO synthesis, metabolism of this amino acid may play an important role in regulation of NO synthesis during sepsis. This review will discuss the roles NO plays in sepsis and the potential impact of arginine metabolism on NO synthesis.
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PMID:New insights into the regulation of inducible nitric oxide synthesis. 802 11

Nitric oxide (NO) and prostaglandins (PG) both possess the ability to induce vasodilatation and prevent the aggregation of platelets. The synthesis of these substances is increased following in vivo lipopolysaccharide (LPS) infusion, but their function during sepsis is incompletely understood. We studied the role of NO and PG in a murine model of chronic hepatic inflammation (Corynebacterium parvum injection), which is known to progress to sudden hepatic necrosis after LPS injection. NO synthesis, which is induced in hepatocytes by C. parvum treatment and in nonparenchymal cells by LPS treatment, was inhibited using NG-monomethyl-L-arginine (L-NMMA). High-dose aspirin (ASA) was used to block PG synthesis. Treatment with L-NMMA or ASA alone, in the absence of LPS, resulted in no increase in hepatic injury. C. parvum-treated mice that received both L-NMMA and ASA without LPS developed marked hepatic damage as reflected by increased hepatocellular enzyme release (aspartate aminotransferase and L-ornithine carbamoyl-transferase). Marked hepatic damage was seen after LPS administration, and ASA pretreatment alone had no effect on the LPS-induced hepatic injury, whereas L-NMMA markedly increased the hepatic damage. The combination of L-NMMA and ASA after LPS resulted in the greatest hepatocellular enzyme release, characterized histologically by intravascular thrombosis with diffuse infarction and necrosis. Simultaneous treatment with either PGI2 or L-arginine partially prevented this injury. These data demonstrate that NO and PG function synergistically to maintain hepatocellular integrity; thus increased synthesis of these mediators protects the liver from the pathophysiological effects of LPS in this model.
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PMID:Nitric oxide and prostaglandins interact to prevent hepatic damage during murine endotoxemia. 802 33

Effects of treatment in vivo and in vitro with lipopolysaccharide (LPS) on the responsiveness of rat thoracic aorta were examined. The endothelium-denuded aortic strips isolated 6 hr after intraperitoneal (i.p.) administration of LPS (20 mg/kg), which could produce hemodynamic changes, relaxed in response to L-arginine. The same amplitude of relaxation was produced by L-arginine in the aortic strips incubated with a lower dose of LPS (1 microgram/ml) in vitro for 6 hr. Both relaxing responses were inhibited by NG-nitro-L-arginine (L-NOARG). The contractile responses to phenylephrine and KCl were reduced by LPS treatment in vivo or in vitro, but the extent of inhibition was greater in vivo than in vitro. Further, the attenuation of contractile responses was completely reversed by L-NOARG in the strips treated in vitro, whereas the reversal by L-NOARG was incomplete in the strips treated with LPS in vivo. Endothelium-dependent relaxation induced by acetylcholine was attenuated by LPS in vivo but not in vitro. These results suggest that the hyporesponsiveness of rat thoracic aorta after treatment in vitro with LPS, which can produce hemodynamic changes, may be related to an enhanced NO production in the smooth muscle cells, while not only the NO pathway but also additional factors may be involved in the vascular hyporesponsiveness of the sepsis rats.
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PMID:Comparison between the effects of treatment in vitro and in vivo with lipopolysaccharide on responsiveness of rat thoracic aorta. 802 79

The manifestations of the septic syndrome are thought to be mediated by cytokines through their role in the production of nitric oxide (NO). It is hypothesized that the inhibition of NO production with an inhibitor such as NG-monomethyl-L-arginine (L-NMMA) may be beneficial in the treatment of septic shock. Sepsis was induced by the intravenous administration of Escherichia coli endotoxin (60 micrograms/kg) in six conditioned mongrel dogs (20-24 kg). Mean arterial pressure (MAP), heart rate (HR), central venous pressure (CVP), and pulmonary artery pressure (PAP) were continuously monitored. Cardiac output (CO), pulmonary capillary wedge pressure (PCWP), and arterial and mixed venous blood gases were obtained every 10 min. When the MAP decreased below 60 mm Hg, NO inhibitor L-NMMA was given by intravenous injection (25 mg/kg). Physiologic parameters were then measured at 2 and 5 min after L-NMMA injection. Subsequently, L-arginine (400 mg/kg), the substrate for the NO synthase enzyme, was administered and measurements were repeated at similar intervals. L-NMMA in septic canines produced a significant increase in MAP and SVR with a significant decrease in CO and tissue oxygenation (DO2 and VO2). These changes were reversed with the administration of L-arginine. There were no significant differences in the PCWP, CVP, PAP, or HR throughout the entire study. These results suggest that the inhibition of NO production by L-NMMA in a septic model produces elevated MAP and SVR at the expense of tissue oxygenation. Thus, its use, as a principal means of therapy for the septic syndrome, may not be appropriate because of detrimental effects on tissue oxygenation.
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PMID:Nitric oxide inhibition in the treatment of the sepsis syndrome is detrimental to tissue oxygenation. 804 Nov 56

Endotoxin and other bacterial products induce the release of mediators which alter the circulation and cellular metabolism. Recent evidence suggests nitric oxide (NO) is one such mediator. The proposed mechanism by which NO produces hypotension is the activation of guanylate cyclase with subsequent biosynthesis of 3':5' cyclic guanosine monophosphate (cGMP). We studied the production of cGMP during Escherichia coli-induced septic shock in two experiments; the first with sepsis alone and the second using NG-monomethyl-L-arginine (L-NMMA), a competitive inhibitor of nitric oxide synthase. Animals in both experiments experienced significant bacteremia (P < 0.05), endotoxemia (P < 0.05), and lactic acidosis (P < 0.03). Mean arterial blood pressure decreased (P < 0.03) and heart rate increased (P < 0.05) within both groups but did not differ between groups. A significant increase in the production of circulating whole blood cGMP occurred at 3-5 h (P < 0.03). There was significantly less cGMP produced by the L-NMMA-treated animals (P < 0.01). These results demonstrate an elevation in cGMP during septic shock which is attenuated by the addition of L-NMMA. This suggests that NO may be present during gram-negative septic shock and its effects mediated through cGMP.
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PMID:Modulation of cyclic guanosine monophosphate production during Escherichia coli septic shock. 804 98

Osteopontin (OPN), a secreted phosphoprotein, has been implicated in various biological phenomena (e.g. bone development, sepsis, tumor progression, and metastasis). Its role in any context is poorly understood. OPN contains a conserved Gly-Arg-Gly-Asp-Ser (GRGDS) sequence, and binds to cells via integrin-mediated mechanisms. Using recombinant human osteopontin-glutathione S-transferase fusion protein and our improved hybridoma fusion partner (Sp2/mIL6), we raised murine monoclonal antibodies against osteopontin. We characterized two antibodies that recognize not only recombinant but also native human osteopontin. These antibodies do not cross-react with mouse osteopontin (recombinant protein or that secreted by ras-transformed NIH 3T3 cells), or bovine bone osteopontin, suggesting that they recognize epitopes unique to human OPN. One antibody specifically inhibited adhesion of MDA-MB-435 human breast cancer cells and ras-transformed NIH 3T3 cells to human osteopontin. This antibody failed to recognize osteopontin cleaved by thrombin, which cleaves adjacent to the cell binding domain. We previously showed that thrombin cleavage reduces osteopontin cell binding activity. Thus we postulate that this monoclonal antibody recognizes and interferes with the function of the RGD/thrombin cleavage region of human OPN.
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PMID:Inhibition of Arg-Gly-Asp (RGD)-mediated cell adhesion to osteopontin by a monoclonal antibody against osteopontin. 808 34

Arginine and ornithine are precursors of nitric oxide and polyamines, respectively. These metabolites intimately participate in permeability and adaptive responses of the gut. The liver possesses high arginase activity as an intrinsic part of urea synthesis and would consume most of the portal supply of dietary arginine. The gut reduces this possibility by converting dietary arginine to citrulline, which effectively bypass the liver and is resynthesized to arginine in the kidney. Dietary ornithine supplementation, in the form of ornithine alpha-ketoglutarate (OKG) can be considered as an arginine precursor. Several supplement studies have shown both amino acids to promote growth hormone and insulin secretion with anabolic effects in postoperative patients. Their intermediary metabolites (for example, glutamine, proline) may also be of benefit in trauma metabolism. Specific effects of either amino acid on the gut are poorly reported. One recent animal study showed improved morphology after OKG administration, perhaps through increased polyamine secretion. Generation of nitric oxide from arginine has two facets. Excess production from high dose arginine potentiated the effects of experimentally induced sepsis, whereas low doses improved survival. These considerations suggest that the role of enteral diet supplementation with arginine or OKG should be urgently examined for any benefits it may have on mucosal barrier function.
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PMID:Can arginine and ornithine support gut functions? 812 89

Nitric oxide reacts with superoxide to form peroxynitrite, a potential mediator of oxidant-induced cellular injury. The endothelium is a primary target of injury in many pathological states, including acute lung injury, sepsis, multiple organ failure syndrome, and atherosclerosis, where enhanced production of nitric oxide and superoxide occurs simultaneously. It was hypothesized that stimulation of endothelial cell nitric oxide production would result in formation of peroxynitrite. Immediate oxidant production was detected by luminol- and lucigenin-enhanced chemiluminescence from cultured bovine aortic endothelial cells exposed to bradykinin or to the calcium ionophore A23187. Luminol-enhanced chemiluminescence was efficiently inhibited by the nitric oxide synthase inhibitor nitro-L-arginine methyl ester and by superoxide dismutase, implying dependence on the presence of both nitric oxide and superoxide for oxidant production. Inhibition of luminol-enhanced chemiluminescence by nitro-L-arginine methyl ester was partially reversed by L-arginine, but not by D-arginine. Cysteine, methionine, and urate, known inhibitors of peroxynitrite-mediated oxidation, inhibited luminol-enhanced chemiluminescence, while the hydroxyl radical scavengers, mannitol and dimethylsulfoxide, and catalase did not. Bicarbonate increased luminol-enhanced chemiluminescence in a concentration-dependent manner. Superoxide production, detected by lucigenin-enhanced chemiluminescence, was slightly increased in the presence of nitro-L-arginine methyl ester, suggesting that endothelial cell-produced superoxide was partially metabolized by reaction with nitric oxide. These results are consistent with agonist-induced peroxynitrite production by endothelial cells and suggests that peroxynitrite may have an important role in oxidant-induced endothelial injury.
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PMID:Agonist-induced peroxynitrite production from endothelial cells. 817 19

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