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)

The production of large amounts of nitric oxide (NO) by the inducible form of nitric oxide synthase (iNOS) and the subsequent production of peroxynitrite (OONO-) are believed to be major factors in the hemodynamic abnormalities of sepsis. This finding is based on data from rats and mice but has not been established in other species. Therefore, we examined the role of iNOS in lipopolysaccharide (LPS)-treated pigs, which have a hemodynamic pattern with sepsis that is more similar to humans than rats. Pigs were anesthetized, ventilated, and given LPS (n = 12), 20 microg/kg over 2 h, or saline (n = 7). They were killed after 2 (n = 8 LPS, 7 control) or 4 h (4 LPS). We measured cardiac output (CO), mean arterial (Part), and pulmonary and central venous pressures. We evaluated NO production by measuring expired NO, and plasma nitrate/nitrite concentration, NOS activity (in lung tissue), and iNOS protein by Western analysis, and immunohistochemistry (lung and liver), as well as iNOS mRNA by Northern analysis (liver and lung). We also measured nitrotyrosine as evidence of OONO- production by slot blot, Western analysis, and immunohistochemistry. By 2 h, Part fell and CO did not change so that systemic vascular resistance decreased from 21.5+/-2.9 to 12.7+/-3.1 mmHg x L(-1) x min (P < 0.05) and remained at 11.3+/-1.7 mmHg x L(-1) x min in the animals observed for 4 h. Plasma nitrate/nitrite, expired NO, and NOS activity did not change. We found no iNOS in tissues by Western analysis with 5 different antibodies but detected a small amount of iNOS by immunohistochemistry in inflammatory cells and small vessels. There was a small increase in iNOS mRNA in liver and lung. Despite the minimal increase in iNOS, nitrotyrosine was increased in small vessels and in inflammatory cells. In conclusion, caution should be used when extrapolating the septic response in rodents to other species, for the pattern of iNOS induction is very different.
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PMID:Presence of nitrotyrosine with minimal inducible nitric oxide synthase induction in lipopolysaccharide-treated pigs. 1158 Jan 15

Host defense mechanisms preventing bacterial invasion are particularly important in the gastrointestinal tract, since most gram-negative infections originate from there. Intraepithelial lymphocytes (IEL) seem to play an important role in this immune surveillance of the intestine, although their function in sepsis is not fully understood. To evaluate the characteristics of IEL in sepsis, C57BL/6 mice received a non-lethal dose of LPS and IEL were harvested at various time points thereafter. Although IEL displayed no phenotypic changes after endotoxemia, they displayed enhanced cytolytic activity and increased proliferation after LPS injection In addition, IEL from septic mice showed enhanced gamma interferon (IFN-gamma) production after LPS administration. The production of IFN-gamma may have induced the increased intestinal NOS-2 mRNA expression which was observed after endotoxemia. In conclusion, endotoxemia leads to functional activation of IEL without phenotypic changes. The activation of IEL and the subsequently increased NOS-2 expression may be important mechanisms in maintaining the mucosal barrier after sublethal LPS challenge.
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PMID:Upregulation of intraepithelial lymphocyte (IEL) function in the small intestinal mucosa in sepsis. 1177 44

We previously reported that a cytostatic protein that is found in ASC-17D Sertoli cell-conditioned media was Mycoplasma arginine deiminase (ADI), which hydrolyzes L-arginine into L-citrulline and ammonia. Here, we report the over-expression of recombinant ADI (rADI) in E. coli and the down-regulation of lipopolysaccharide (LPS) induced-nitric oxide (NO) production by rADI treatment. We cloned the ADI gene from Mycoplasma arginini genomic DNA by a polymerase chain reaction, and changed five TGA tryptophan codons (stop codon in E. coli) to TGG codons in the coding region by site-directed mutagenesis in order to express in E. coli. The rADI was purified to apparent homogeneity by DEAE-Sepharose and arginine-affinity chromatography. The rADI expressed in E. coli was identified as 45 kDa on SDS-PAGE and 90 kDa on native PAGE, implying that it exists as a dimer like ADI of M. arginini. The Km for arginine of rADI was approximately 370+/-50 microM. Its optimal temperature and pH were 41 degrees C and pH 6.4, respectively, and enzyme activity remained > or = 50% for 5 d at physiological temperature and pH. Treatment of purified rADI suppressed NO production in macrophage-like RAW 264.7 and primary glial cells that were exposed to LPS. Furthermore, an intraperitoneal injection of rADI significantly suppressed the rise of blood nitrite/nitrate levels that were induced by the systemic administration of bacterial endotoxin LPS to mice, resulting in an improvement in their survival rate. These results suggest that the depletion of blood arginine with an arginine-metabolizing enzyme, such as ADI, could suppress excessive production of NO that is caused by inducible NOS (iNOS) during the endotoxemia. Also, rADI may be used as a new approach to control NO-related diseases, such as sepsis.
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PMID:Characterization of mycoplasma arginine deiminase expressed in E. coli and its inhibitory regulation of nitric oxide synthesis. 1191 65

Induction of inducible nitric oxide synthase (iNOS) expression is likely important in the pathogenesis of sepsis. However, the sepsis-mediated induction of iNOS is associated with a decrease in constitutive NO synthase (cNOS) activity (which is reversible following acute but not chronic sepsis). Whether this decreased cNOS activity is due to functional inhibition of cNOS by the high concentrations of NO produced by iNOS or to downregulation of cNOS expression is not clear. Thus, we tested the hypothesis that sepsis produces a reversible iNOS/NO-mediated inhibition of cNOS activity. Using a rat cecal ligation and perforation (CLP) model of sepsis, we examined the time course of the changes in iNOS and cNOS activities in lung and thoracic aortae. Reversibility of the sepsis-induced decrease in cNOS activity was assessed in vitro by enzyme activity determination following selective inhibition of iNOS. iNOS and endothelial cNOS protein concentrations were determined by Western blotting. In all septic tissues, cNOS activity was depressed at 6, 12, 24, and 48 hours post-CLP. Inhibition of the increased iNOS activity with aminoguanidine, in vitro, partially restored cNOS activity following acute (6-12 hours) but not chronic sepsis (24-48 hours post-CLP). Consistent with the irreversible depression of cNOS activities in tissues following chronic sepsis, endothelial NOS protein concentrations declined progressively during the time course of sepsis. We have demonstrated the restoration of cNOS activity following in vitro inhibition of iNOS, early, and the downregulation of endothelial NOS, later, in a rat CLP model of sepsis. This suggests that further study is required before iNOS-selective inhibition can be considered in human sepsis.
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PMID:Functional inhibition of constitutive nitric oxide synthase in a rat model of sepsis. 1201 7

The family of homodimeric nitric oxide synthases (NOS I-III) catalyzes the generation of the cellular messenger nitric oxide (NO) by oxidation of the substrate L-arginine. The rational design of specific NOS inhibitors is of therapeutic interest in regulating pathological NO levels associated with sepsis, inflammatory, and neurodegenerative diseases. The cofactor (6R)-5,6,7,8-tetrahydrobiopterin (H(4)Bip) maximally activates all NOSs and stabilizes enzyme quaternary structure by promoting and stabilizing dimerization. Here, we describe the synthesis and three-dimensional (3D) quantitative structure-activity relationship (QSAR) analysis of 65 novel 4-amino- and 4-oxo-pteridines (antipterins) as inhibitors targeting the H(4)Bip binding site of the neuronal NOS isoform (NOS-I). The experimental binding modes for two inhibitors complexed with the related endothelial NO synthase (NOS-III) reveal requirements of biological affinity and form the basis for ligand alignment. Different alignment rules were derived by building other compounds accordingly using manual superposition or a genetic algorithm for flexible superposition. Those alignments led to 3D-QSAR models (comparative molecular field analysis (CoMFA) and comparative molecular similarity index analysis (CoMSIA)), which were validated using leave-one-out cross-validation, multiple analyses with two and five randomly chosen cross-validation groups, perturbation of biological activities by randomization or progressive scrambling, and external prediction. An iterative realignment procedure based on rigid field fit was used to improve the consistency of the resulting partial least squares models. This led to consistent and highly predictive 3D-QSAR models with good correlation coefficients for both CoMFA and CoMSIA, which correspond to experimentally determined NOS-II and -III H(4)Bip binding site topologies as well as to the NOS-I homology model binding site in terms of steric, electrostatic, and hydrophobic complementarity. These models provide clear guidelines and accurate activity predictions for novel NOS-I inhibitors.
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PMID:Structural requirements for inhibition of the neuronal nitric oxide synthase (NOS-I): 3D-QSAR analysis of 4-oxo- and 4-amino-pteridine-based inhibitors. 1208 80

The role of NOS and/or COX induction on sympathetic nerve activation induced by sepsis was investigated in pentobarbital anesthetized rats. Sepsis was induced by i.v. administration of lipopolysaccharide (LPS) in control experiments and during treatment with anti-inflammatory drugs or inhibitors of NOS and COX (five to six rats per group). Mean arterial blood pressure (MBP), rectal temperature (RT) and renal sympathetic nerve activity (RSNA) were recorded for up to 6 h after LPS infusion. LPS administration induced profound increases in RSNA and decreases in MBP. The corticosteroid anti-inflammatory drug dexamethasone had a potent protector effect on blood pressure and survival of the LPS-treated animals and inhibited the RSNA increase. The nonsteroid anti-inflammatory compound indomethacin inhibited the sympathetic activation but did not alter the hypotensive action of LPS. The nonselective NOS inhibitor nitroarginine methyl ester (L-NAME) accelerated the fall in MBP and death of the animals while the inducible NOS inhibitor L-NIL delayed the fall in MBP and reduced the sympatho-activation without affecting survival time in LPS rats. The neuronal NOS inhibitor 7-nitroindazole (7-NINA) did not improve the hypotensive effect and survival of the LPS animals but potentiated the RSNA increase. The COX-1 inhibitor SC560 accelerated hypotension and death of the LPS animals without affecting the RSNA increase. The COX-2 inhibitor NS398 did not modify the effect of LPS on blood pressure but reduced its sympatho-excitatory effect; NS398 also abolished the LPS-induced increase in RT. The results indicate that different mechanisms are involved in the effects of sepsis on MBP, sympathetic activation and fever. Sympathetic nerve activation during sepsis appears to depend on the induction of NOS and COX; the COX pathway is involved in the elevation of temperature and in the activation of sympathetic nerve activity but not in the hypotension. The potent effect of dexamethasone suggests that a NOS- and COX-independent arachidonic acid pathway also plays a role.
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PMID:Involvement of COX and NOS induction in the sympatho-activation during sepsis. 1214 36

Lipopolysaccharide (LPS, endotoxin)-induced diaphragmatic contractile dysfunction and sarcolemmal injury in animals has been identified. However, the precise nature of sepsis-related alterations in diaphragm myofiber function and the activity of Ca(2+) release from sarcoplasmic reticulum of skeletal muscle remain unclear. The present study investigated the in vivo effects of LPS on the Ca(2+)-dependent mechanical activity and ryanodine response in mouse diaphragm and Ca(2+) release from isolated sarcoplasmic reticulum membrane vesicles, and aimed to examine the role of nitric oxide (NO) in these responses. When diaphragms were bathed in a solution that was Cl(-)-free, Na(+)-free, but contained high K(+), a Ca(2+)-induced contracture was elicited. Increases in external Ca(2+) concentration produced increases in peak tension of Ca(2+)-induced contracture in control diaphragm, while a decrease was seen in endotoxemic diaphragm. Ryanodine induced a marked contracture in control diaphragms, which was diminished after endotoxemia. This finding is correlated with the decrease of ryanodine-induced Ca(2+) release and the suppression of [(3)H]ryanodine binding on the isolated SR of the skeletal muscle from LPS-treated rats. In mice treated with LPS significantly increased levels of plasma nitrite and serum TNF-alpha were observed, changes inhibited by aminoguanidine [an inhibitor of inducible NO synthase (iNOS)] and pentoxifylline (an inhibitor of tumor necrosis factor-alpha formation), respectively. Moreover, LPS treatment resulted in a significant expression of mRNA for iNOS in mouse diaphragms. The inhibitory effects on Ca(2+)- and ryanodine responses by LPS could be prevented by treatment with polymyxin B (LPS neutralizer) and pentoxifylline, but not by treatment with dexamethasone, N(G)-nitro- L-arginine or aminoguanidine (NOS inhibitors). These results imply that the NO-related pathway may not be involved in the dysfunction of the Ca(2+) release mechanism in the sarcoplasmic reticulum of mouse diaphragm during endotoxemia.
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PMID:Nitric oxide is not involved in the endotoxemia-induced alterations in Ca2+ and ryanodine responses in mouse diaphragms. 1223 46

The decrease in glomerular filtration rate (GFR) that is characteristic of sepsis has been shown to result from inhibition of glomerular endothelial nitric oxide synthase (eNOS) by nitric oxide (NO) generated from the inducible isoform of NOS (iNOS). Although l-arginine is the sole precursor for NO biosynthesis, its intracellular availability in glomeruli from septic animals has never been investigated. Arginine uptake was measured in freshly harvested glomeruli from the following experimental groups: 1) untreated rats; 2) rats pretreated with LPS (4 mg/kg body wt, 4 h before experiments); 3) rats treated with LPS as above with either l-N(6)-(1-iminoethyl)lysine hydrochloride (l-NIL), a selective iNOS antagonist, or 7-nitroindazole, a selective neuronal NOS antagonist; and 4) rats treated with l-NIL only. Both glomeular and mesangial arginine transport characteristics were found compatible with a y(+) system. Arginine uptake was augmented in glomeruli from LPS-treated rats. Treatment with l-NIL completely abolished this effect whereas l-NIL alone had no effect. Similar results were obtained when primary cultures of rat mesangial cells were preincubated with LPS (10 microg/ml for 24 h) with or without l-NIL. Using RT-PCR, we found that in vivo administration of LPS resulted in a significant increase in glomerular cationic amino acid transporter-2 (CAT-2) mRNA expression whereas CAT-1 mRNA was undetected. Northern blotting further confirmed a significant increase in glomerular CAT-2 by LPS. In mesangial cells, the expression of both CAT-1 and CAT-2 mRNA was augmented after incubation with LPS. In conclusion, in vivo administration of LPS augments glomerular arginine transport through upregulation of steady-state CAT-2 mRNA while downregulating CAT-1 mRNA. These results may correspond to the changes in glomerular iNOS and eNOS activity in sepsis.
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PMID:Differential regulation of glomerular arginine transporters (CAT-1 and CAT-2) in lipopolysaccharide-treated rats. 1247 43

Mitochondrial nitric oxide synthase (mtNOS) is expressed constitutively, although it might be induced. Nitric oxide (NO) is a physiological regulator of mitochondrial respiration. Melatonin prevents mitochondrial oxidative damage and inhibits iNOS expression induced by bacterial lipopolysaccharide (LPS). The loss of melatonin with age may be related to the age-dependent mitochondrial damage. Thus, we examined the protective role of melatonin against the effects of LPS on mtNOS and on respiratory complexes activity in liver and lung mitochondria from young and old rats. The activity of mtNOS in control lung was low and did not change with age. LPS administration (10 mg/kg, i.v.) significantly increased mtNOS expression and activity and NO production in lung mitochondria, and the effect was greater in old rats. LPS administration also reduced the age-dependent decrease of the respiratory complexes I and IV. Melatonin administration (60 mg/kg, i.p.) prevented the LPS toxicity, decreasing mitochondrial NOS activity and NO production. Melatonin also counteracted LPS-induced inhibition of complexes I and IV. In general, the actions of melatonin were stronger in older animals than in younger ones. The results suggest that an inducible component of mtNOS, together with mitochondrial damage, occurs during sepsis, and melatonin prevents the mitochondrial failure that occurs during endotoxemia.
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PMID:Melatonin counteracts lipopolysaccharide-induced expression and activity of mitochondrial nitric oxide synthase in rats. 1267 Aug 78

Superficial vein pathology involves both mechanical (hyperpressure and distension) and inflammatory mechanisms. Conflicting results exist about the role of NO in the venous hyporeactivity induced by inflammation. In order to clarify this point, we aimed to investigate the effects of sepsis on cutaneous vein responsiveness in vivo and the possible contributions of constitutive and inducible NOS to the changes of venous contractility. Saphenous vein diameter was recorded by an ultrasonic echo-tracking device in pentobarbital-anaesthetised rabbits. Bacterial lipopolysaccharide (LPS) was administered i.v. at 20 mg/kg/15 min, inducing a progressive fall in mean arterial blood pressure after 2-3 h. The effects of LPS on saphenous vein responsiveness to noradrenaline (2 microg/kg i.v.) were measured simultaneously. In some rabbits, veins were removed for immunochemistry to detect iNOS staining. The venoconstriction to noradrenaline was already significantly reduced at 30 min after LPS (6+/-1% instead of 19+/-1% before LPS) and was completely abolished 3 h after LPS. A reduction of the venoconstriction induced by sumatriptan, a 5-HT(1B/D) agonist, (100 microg/kg, 11+/-1% after saline n=5) was also observed 180 min after LPS infusion (3+/-1%, n=4). The venodilatations induced by acetylcholine or sodium nitroprusside injected locally into the vein were not altered by LPS. When administered 90 min after LPS infusion, the NOS inhibitor L-NAME but not the selective iNOS inhibitor L-NIL (10 mg/kg) induced a recovery of the venoconstriction. Preventive perfusion with L-NAME (10 mg/kg/2 h) reduced the initial hyporeactivity to noradrenaline (30 to 60 min), but accelerated the lethal fall in MAP. L-NIL (10 mg/kg/2 h), to a lesser extent than L-NAME, also reduced the initial hyporeactivity to noradrenaline; in contrast to L-NAME, L-NIL also delayed the complete loss of noradrenaline constriction and improved animal survival. In control animals, neither L-NAME nor L-NIL modified the venoconstriction induced by noradrenaline. iNOS staining was observed in the saphenous vein endothelium after LPS. The experimental model developed in these experiments allows the study of venous responsiveness during sepsis in vivo. Our results show that LPS administration reduces saphenous vein contractility to both adrenergic and serotoninergic constrictor agents. The data suggest that both endothelial and inducible NO are involved in the loss of venous reactivity but these enzymes exert contrasting effects on blood pressure changes.
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PMID:Cutaneous venous dysfunction studied in vivo in the LPS-treated rabbit: implication of NO in saphenous vein hyporeactivity. 1267 58

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