UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have examined the role of soluble guanylyl cyclase and possible mediators of its activation in the vascular hyporeactivity caused by bacterial endotoxin (lipopolysaccharide, LPS) ex vivo. Treatment of rats with E. coli LPS (10 mg/kg, i.v. for 3h) resulted in a significant reduction in the contractions elicited by norepinephrine (NE; 10(-9)-10(-6) M) in endothelium-denuded aortic rings ex vivo. Methylene blue or LY-83583, inhibitors of soluble guanylyl cyclase, completely restored contractions to NE, whereas the nitric oxide synthase (NOS) inhibitor, N omega-nitro-L-arginine methyl ester (L-NAME), caused only a partial restoration. Zinc protoporphyrin-IX, an inhibitor of heme oxygenase, did not enhance NE-induced contraction in rings from LPS-treated rats, indicating that the production of carbon monoxide (CO) does not contribute to this vascular hyporeactivity. Indomethacin, an inhibitor of cyclooxygenase, further suppressed the contractions in rings from LPS-treated rats. These results suggest that hyporesponsiveness to NE caused by LPS is due to the activation of soluble guanylyl cyclase, which is partially mediated by N(O), but not by CO. Moreover, LPS may induce the production of another mediator(s) that activate soluble guanylyl cyclase in the vascular smooth muscle.
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PMID:Activation of soluble guanylyl cyclase by a factor other than nitric oxide or carbon monoxide contributes to the vascular hyporeactivity to vasoconstrictor agents in the aorta of rats treated with endotoxin. 791 Oct 15

Nitric oxide (NO) synthesized from L-arginine is an endogenous vasodilator and inhibitor of platelet adhesion and aggregation. Gram-negative lipopolysaccharide (LPS) can induce NO synthesis, which may mediate the pathophysiologic effects of endotoxemia. In addition, our previous studies suggested that LPS-induced NO may protect against thrombosis in rats. In the present study, male Sprague-Dawley rats given LPS (0.1 mg/kg) i.p. increased their urinary excretion of NO2 + NO3 (stable end-products of NO) by 4.3-fold. Rats given 10 micrograms/kg/hr i.v. of nitroglycerin (GTN), an exogenous NO donor, showed a similar increase. L-NAME, an inhibitor of NO synthesis, abrogated the increase in urinary NO2 + NO3 in LPS-treated rats but not in rats given GTN. Glomerular thrombosis developed in rats given LPS + L-NAME (thrombosis score = 3.02 +/- 0.4), while those given LPS + L-NAME + GTN were largely protected (thrombosis score = 1.37 +/- 0.5, P < 0.05). Atrial natriuretic peptide (ANP), an NO-independent vasodilator, neither increased urinary NO2 + NO3 nor prevented glomerular thrombosis (thrombosis score = 2.68 +/- 0.5, NS). Hydralazine, another vasodilator without effects on NO or platelets, also failed to prevent glomerular thrombosis in rats given LPS + L-NAME. We conclude that in endotoxemia, the antithrombogenic properties of endogenously synthesized NO are important in preventing alomerular thrombosis. The exogenously NO donor, GTN, can substitute for the antithrombogenic effect of endogenous NO. Clinically, administration of NO synthesis inhibitors to treat endotoxic shock may need to be combined with concomitant administration of exogenous NO donors to prevent microvascular thrombosis.
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PMID:Exogenous nitric oxide prevents endotoxin-induced glomerular thrombosis in rats. 799 92

In an analysis of nitric oxide (.NO) production and toxicity, chicken macrophage-generated .NO inhibited mitochondrial activity in both .NO-producing macrophages themselves and lymphoid tumor targets. However, differences in targeting of mitochondrial toxicity were observed among these cells. Two chicken macrophage cell lines, HD11 and MQ-NCSU, produced .NO (measured as nitrite) dependent upon concentrations of L-arginine and bacterial endotoxin (lipopolysaccharide). Mitochondrial activity was negatively correlated with the amount of .NO produced. Using a modified MTT assay, .NO induced suppression in two mitochondrial complexes. Mitochondrial activity was significantly suppressed among HD11 cells receiving LPS alone (complex I, 63.0 +/- 5.5% suppression; complex II, 27.9 +/- 5.2%). In contrast, mitochondrial activities in samples receiving LPS plus inhibitor, NG-nitro-L-arginine methyl ester (NAME; 5 mM) or 2,4-diamino-6-hydroxypyrimidine (DAHP; 5 mM), were not significantly different from control values. When HD11 macrophages were cocultured with lymphoblastoid tumor targets, RECC-CU60 (T cell) or LSCC-RP9 (B cell), adding LPS (1 microgram/ml), tumor cell mitochondrial activity was significantly suppressed. In the generator macrophages, complex I was more suppressed than complex II, whereas in lymphoid targets no such difference was observed. These results indicate that .NO inhibits complex I and II mitochondrial activity but that differential targeting can occur among chicken leukocyte populations.
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PMID:Nitric oxide (.NO)-induced mitochondrial injury among chicken .NO-generating and target leukocytes. 802 70

Nitric oxide (NO) synthase (NOS), the enzyme responsible for NO formation, is found in hypothalamic neurons containing oxytocin (OT), vasopressin (VP), and to a lesser extent corticotropin-releasing factor (CRF). Because NO is reported to modulate endocrine activity, we have investigated the hypothesis that endogenous NO participates in ACTH released by various secretagogues in the rat. In the adult male rat, the intravenous injection of interleukin-1 beta (IL-1 beta; 0.2-0.3 micrograms/kg), VP (0.3-0.9 micrograms/kg), and OT (30 micrograms/kg) significantly increased plasma ACTH and corticosterone levels. Pretreatment with the L-form, but not the D-form, of N omega nitro-L-arginine-methylester (L-NAME; a specific inhibitor of NOS) markedly augmented the effects of these secretagogues whether it was injected acutely or over a 4 d period. Blockade of NOS activity also caused significant (P < 0.01) extensions of the duration of action of IL-1 beta, VP, and OT. In contrast, L-NAME did not significantly alter the stimulatory action of peripherally injected CRF, or centrally administered IL-1 beta. Administration of L-arginine, but not D-arginine (100 mg/kg), used as a substrate for basal NO synthesis and which did not by itself alter the activity of the hypothalamic-pituitary-adrenal (HPA) axis, blunted IL-1-induced ACTH secretion, and reversed the interaction between L-NAME and IL-1 beta. The stimulatory action of endotoxin, a lipopolysaccharide that releases endogenous cytokines, was also augmented by inhibition of NO formation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In the rat, endogenous nitric oxide modulates the response of the hypothalamic-pituitary-adrenal axis to interleukin-1 beta, vasopressin, and oxytocin. 815 53

Nitric oxide, a known scavenger of toxic oxygen-derived radicals, has been shown to have a protective effect against tissue injury in endotoxemia. Based on the hypothesis that under normal physiological conditions, a balance between superoxide and nitric oxide exists in vivo, this work examines hepatic superoxide release after nitric oxide formation is inhibited in vivo. Male Sprague-Dawley rats were treated intravenously with N omega-nitro-L-arginine methyl ester (L-NAME; 50 mg/kg body wt), an inhibitor of nitric oxide synthase. One hour later, superoxide anion release by the perfused liver was determined. Results show that a significant amount of superoxide was released after L-NAME treatment. Likely sources of this radical are the Kupffer cells. Inhibition of nitric oxide formation in vivo did not enhance superoxide release by hepatocytes or sinusoidal endothelial cells. The effect of L-NAME treatment on superoxide release in endotoxemic rats was also examined 12 h after lipopolysaccharide treatment, when toxic oxygen-derived radical formation could not be detected. Inhibition of nitric oxide release in vivo in these rats enhanced the formation of superoxide anion. The interaction between nitric oxide and superoxide anion under normal conditions may represent an important protective mechanism of the host against free radical damage.
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PMID:Inhibition of nitric oxide formation in vivo enhances superoxide release by the perfused liver. 820 25

1. The effects of bacterial lipopolysaccharide (Escherichia coli 0111-B4; LPS) on coronary vascular tone were examined in the isolated perfused heart of the rat. The role of nitric oxide and/or prostaglandin products of the cyclo-oxygenase pathway in mediating the actions of LPS were also investigated. 2. Coronary vascular tone was raised and maintained by a continuous perfusion of the thromboxane-mimetic U46619 (5 nM). LPS perfusion (0.1-100 micrograms ml-1) caused a concentration-dependent fall in coronary tone without any significant change in the force of cardiac contractility. 3. At 5 micrograms ml-1, LPS reduced perfusion pressure by 38 +/- 9 mmHg. This effect was rapid in onset, maximal within the first 5 min and sustained for 90 +/- 10 min (n = 6). 4. The vasodilatation induced by LPS was dependent on the presence of an intact endothelium and abolished following endothelial damage caused by air embolism. 5. NG-nitro-L-arginine methylester (L-NAME; 50 microM) or NG-nitro-L-arginine (L-NOARG; 50 microM) blocked the vasodilatation induced by LPS (5 micrograms ml-1). The inhibition caused by these arginine analogues was partially reversed by 1 mM L- but not D-arginine. 6. The vasodilator action of LPS was also completely blocked by the glucocorticoid, dexamethasone (10 microM) but unaffected by indomethacin (10 microM). 7. These results suggest that LPS evokes rapid release of nitric oxide (NO) in the microvasculature of the rat isolated heart presumably via activation of the constitutive L-arginine-NO pathway in the endothelium. Furthermore, the lack of effect of indomethacin suggests that prostaglandins released via the cyclo-oxygenase pathway are not involved in mediating this action of LPS.
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PMID:Bacterial endotoxin rapidly stimulates prolonged endothelium-dependent vasodilatation in the rat isolated perfused heart. 840 52

1. The dependence on extracellular L-arginine of vascular hyporeactivity induced by bacterial lipopolysaccharide (LPS) was studied in vivo in rats infused with LPS and in vitro in endothelium-denuded rat thoracic aortic rings exposed to LPS. 2. Infusion of LPS during 50 min at a dose of 10 mg kg-1 h-1 produced a significant impairment of the pressor effect of noradrenaline, while in tissues collected 60 min after the start of LPS infusion, no significant alteration in either plasma arginine concentration or aortic arginine content was found compared to saline-infused controls (where plasma arginine was 78.5 +/- 7 microM and aortic arginine 394 +/- 124 nmol g-1 tissue). 3. Incubation of isolated, endothelium-denuded aortic rings with LPS (10 micrograms ml-1) in the absence of L-arginine for 4 h at 37 degrees C produced a 6 fold (P < 0.01) rightward shift in the noradrenaline concentration-effect curve compared to polymyxin B (1 micrograms ml-1, a LPS neutralizing agent) and reduced by 15% the maximum observed tension. 4. The presence of L-arginine (100 microM) during the incubation with LPS and throughout the following contraction experiments caused a 15 fold (P < 0.01) increase in the EC50 of noradrenaline and greater depression (45%) of the maximum observed tension compared to polymyxin B-treated controls. Responses in control, non LPS-treated rings were unaffected by the presence of L-arginine. 5. The addition of L-arginine to rings incubated with LPS in the absence of L-arginine and maximally precontracted with noradrenaline (10 microM) induced a dose-dependent relaxation. The EC50 of L-arginine was 8.0+/-0.3mu.6. The reactivity of LPS-treated rings to noradrenaline both in the absence and presence of L-arginine was restored to control levels by N0-nitro-L-arginine methyl ester (L-NAME, 300 mu), an inhibitor of NO production and by methylene blue (3 JAM), an inhibitor of guanylate cyclase.7. Incubation of isolated aortae in the absence of L-arginine did not significantly decrease the tissue arginine content, whether LPS (10 fg ml-') was present or not. Similarly, the presence of L-arginine(100 mu) in the incubation medium did not modify the tissue arginine content.8. These results show that the LPS-induced impairment of vasoconstriction elicited by noradrenaline is dependent on extracellular L-arginine, although the tissue arginine content is not depleted after LPS pretreatment, and that circulating L-arginine is sufficient to activate maximally the vascular L-arginine/NO pathway in endotoxaemic rats.
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PMID:Dependence of endotoxin-induced vascular hyporeactivity on extracellular L-arginine. 842 12

The nitric oxide (NO) production by porcine aortic valve endothelial cells was estimated in cusps incubated at 37 degrees C by measuring their cyclic GMP content and the nitrite levels of the incubation medium. After a stabilization period, incubation for 5 min with acetylcholine, bradykinin, ADP and bovine thrombin resulted in a receptor-mediated increase in cyclic GMP which could be blocked by EGTA, N-omega-nitro-L-arginine methyl ester (L-NAME) and NG-monomethyl-L-arginine (L-NMMA). Incubation with lipopolysaccharide (endotoxin) from E. coli O111:B4 or bovine for 5 h, dose-dependently increased nitrite production as well as cyclic GMP content. The elevated nitrite production was completely abolished in the presence of the protein synthesis inhibitor cycloheximide, was reduced by more than 50% by dexamethasone but was not affected by EGTA. L-NMMA dose-dependently reduced the increased nitrite production and cyclic GMP content. These results suggest that besides the presence of a constitutive NO synthase in porcine aortic valve endothelial cells thrombin, like lipopolysaccharide, triggers the de novo expression of an inducible Ca(2+)-independent NO synthase.
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PMID:Thrombin triggers the de novo expression of an inducible NO synthase in porcine aortic valve endothelial cells. 856 77

We have evaluated the role of nitric oxide (NO) on the cyclooxygenase pathway in mouse glial cells. Exposure of primary cultures of neonatal mouse cortical astrocytes to bacterial lipopolysaccharide (LPS; 1 microgram/ml, 18 h) caused an increase in the release of both nitrite (NO2-) and prostaglandin E2 (PGE2), products of NO synthase (NOS) and cyclooxygenase, respectively. Production of both, NO2- and PGE2 by astrocytes, was inhibited by the exposure of the NOS inhibitor Nw-nitro-L-arginine methyl ester (L-NAME: 1, 10, and 100 microM) in a dose related manner. Besides, other NOS inhibitors such as Nitro L-arginine (NNA: 10(-3) M) prevented the increase in PGE2 release from LPS-stimulated astrocytes. Sodium nitroprusside (SNP; 100-200 microM) used as a NO donor caused a dose-related enhancement in the accumulation of PGE2 induced by LPS and the presence of hemoglobin blocked the SNP effects. The exposure to SNP counteracted the decrease of PGE2 production in LPS-treated astrocytes in which NO synthesis was blocked by L-NAME. In addition, SNP also enhanced the synthesis of PGE2 following exogenous arachidonic acid astrocytes exposure. Interestingly, this effect was blocked by indomethacin. Treatment of astrocytes cultures with dexamethasone (0.1, 1 microM) blocked dose-relatedly the LPS-induced release of both NO2- and PGE2. As expected, the presence of indomethacin (1, 10, and 20 microM) prevented in a dose related fashion, PGE2 production by astrocytes following exposure to LPS. These results strongly indicate that in astroglial cells, NO is able to activate the cyclooxygenase pathway.
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PMID:Evidence for cyclooxygenase activation by nitric oxide in astrocytes. 856 68

We recently demonstrated that stimulation of inducible nitric oxide synthase (iNOS) activity reduced the accumulation of collagen and fibronectin in cultured rat mesangial cells. Therefore, we examined whether nitric oxide (NO) influenced the activity of a 72 kDa neutral matrix metalloproteinase by these cells in vitro. Enzyme activity was assessed in a biotin-avidin ELISA and by zymography. Exposure of mesangial cells to the cytokines, interferon (IFN)-gamma and lipopolysaccharide (LPS), increased gelatinolytic activity by 325 +/- 60% (P < 0.025). Co-incubation with 20 mM L-arginine caused a further increase in matrix metalloproteinase levels. Addition of L-NAME, an inhibitor of iNOS, reversed the IFN-gamma/LPS-induced rise in gelatinolytic activity. Incubation with the exogenous NO donor, S-nitroso-N-acetyl-D,L-penicillamine (SNAP), resulted in a dose dependent increase in metalloproteinase activity (P < 0.01). The NO-induced changes in metalloproteinase activity were also demonstrable by zymography. These data indicate that NO modulates the activity of a 72 kDa neutral matrix metalloproteinase and suggest that altered NO production may contribute to the development of glomerulosclerosis and tubulointerstitial fibrosis in chronic renal disease states.
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PMID:Nitric oxide stimulates the activity of a 72-kDa neutral matrix metalloproteinase in cultured rat mesangial cells. 857 77

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