UMLS:C0406810 - FACTA Search

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Query: UMLS:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The capacity of nitric oxide to activate or inhibit metalloprotein-containing enzymes underlies many of its biological actions. Heme oxygenase, involved in a variety of biological processes, does not contain heme but utilises it as a substrate. The substrate for nitric oxide, L-arginine (0.1-10mM), but not D-arginine, decreased heme oxygenase activity in rat brain homogenates. The arginine analogue L-NAME (0.1-10mM) increased activity in the same tissue. In spleen homogenates where endogenous nitric oxide activity is lower than in brain, these compounds had no effect. The nitric oxide donor sodium nitroprusside (0.001mM-10mM) reduced heme oxygenase activity in both brain and spleen. These results suggest that biological effects attributed to modulation of nitric oxide synthase may act via heme oxygenase.
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PMID:Modulation of heme oxygenase activity in rat brain and spleen by inhibitors and donors of nitric oxide. 757 23

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

The purpose of this study was to gain direct insights into mechanisms by which myoglobin induces proximal tubular cell death. To avoid confounding systemic and hemodynamic influences, an in vitro model of myoglobin cytotoxicity was employed. Human proximal tubular (HK-2) cells were incubated with 10 mg/ml myoglobin, and after 24 hours the lethal cell injury was assessed (vital dye uptake; LDH release). The roles played by heme oxygenase (HO), cytochrome p450, free iron, intracellular Ca2+, nitric oxide, H2O2, hydroxyl radical (-OH), and mitochondrial electron transport were assessed. HO inhibition (Sn protoporphyrin) conferred almost complete protection against myoglobin cytotoxicity (92% vs. 22% cell viability). This benefit was fully reproduced by iron chelation therapy (deferoxamine). Conversely, divergent cytochrome p450 inhibitors (cimetidine, aminobenzotriazole, troleandomycin) were without effect Catalase induced dose dependent cytoprotection, virtually complete, at a 5000 U/ml dose. Conversely, -OH scavengers (benzoate, DMTU, mannitol), xanthine oxidase inhibition (oxypurinol), superoxide dismutase, and manipulators of nitric oxide expression (L-NAME, L-arginine) were without effect. Intracellular (but not extracellular) calcium chelation (BAPTA-AM) caused approximately 50% reductions in myoglobin-induced cell death. The ability of Ca2+ (plus iron) to drive H2O2 production (phenol red assay) suggests one potential mechanism. Blockade of site 2 (antimycin) and site 3 (azide), but not site 1 (rotenone), mitochondrial electron transport significantly reduced myoglobin cytotoxicity. Inhibition of Na, K-ATPase driven respiration (ouabain) produced a similar protective effect. We conclude that: (1) HO-generated iron release initiates myoglobin toxicity in HK-2 cells; (2) myoglobin, rather than cytochrome p450, appears to be the more likely source of toxic iron release; (3) H2O2 generation, perhaps facilitated by intracellular Ca2+/iron, appears to play a critical role; and (4) cellular respiration/terminal mitochondrial electron transport ultimately helps mediate myoglobin's cytotoxic effect. Formation of poorly characterized toxic iron/H2O2-based reactive intermediates at this site seems likely to be involved.
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PMID:Myoglobin toxicity in proximal human kidney cells: roles of Fe, Ca2+, H2O2, and terminal mitochondrial electron transport. 906 5

A microdialysis method combined with a sensitive radioimmunoassay was used to monitor cGMP release in the frontal cortex of the anesthetized rats in vivo. We assessed the relative contribution of endogenous nitric oxide (NO), and effects of exogenous carbon monoxide (CO) and phosphodiesterase activity, as possible regulators of cortical CGMP levels. Perfusion with CO-saturated aCSF (approximately 1 mM CO) failed to significantly stimulate cortical cGMP levels. For comparison, cerebellar cGMP levels increased by 2-fold during CO stimulation, followed by a prolonged response that was fully reversible with the NO synthase inhibitor N(G)-nitro-L-arginine methyl ester (L-NAME). Cortical perfusion with zinc protopophyrin-IX (100 microM), a widely used inhibitor of the CO-generating enzyme heme oxygenase, suppressed cGMP levels by 50%, a response that spontaneously recovered in spite of the continuous presence of the metalloporphyrin. Perfusion with isobutylmethyl xanthine IBMX (1 mM) resulted in 5-fold increase in cortical cGMP levels, as compared to basal levels without IBMX. In the presence of IBMX, L-NAME suppressed basal cortical cGMP levels by 70% indicating that NO synthase activity generates the bulk of cGMP in this brain region, as previously shown for basal cGMP production in the hippocampus and the cerebellum. These data also emphasize a crucial role for phosphodiesterase activity in the maintenance of cGMP levels in vivo in the frontal cortex. The relatively weak responses to exogenous CO lend little support for a role of this gas in regulating basal cortical cGMP levels in vivo.
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PMID:Regulation of cyclic GMP levels in the rat frontal cortex in vivo: effects of exogenous carbon monoxide and phosphodiesterase inhibition. 917 94

Nitric oxide (NO), a gaseous mediator that accounts for the biological activity of endothelium-derived relaxing factor, has been shown to play an important role in the reduction of basal vascular tone in multiple vascular beds, including the hepatic circulation. On the other hand, recent studies have provided first evidence that endogenously generated carbon monoxide (CO) may exert vasodilatory effects in the hepatic portal vein and within sinusoids. Thus, we defined the differential role of NO and CO in the regulation of vascular resistance in the two inflows to the liver in the normal rat in vivo. Male Sprague-Dawley rats were anesthetized with pentobarbital sodium and surgically instrumented in order to study the change in hepatic arterial (Rha) and portal venous vascular resistance (Rpv) in response to intravenous bolus administration of either the NO-synthase inhibitor N(omega)-nitro-L-arginine methyl ester (L-NAME) (1 mg/kg; n = 7 animals) or of tin protoporphyrin-IX (SnPP-IX) (50 micromol/kg), a specific inhibitor of the CO-generating enzyme heme oxygenase (n = 8 animals). While L-NAME caused a substantial increase in Rha, Rpv increased only slightly under these conditions. In sharp contrast, SnPP-IX did not affect Rha, but caused a profound increase in Rpv. In conclusion, Rha and Rpv are differentially regulated by NO and CO in the normal rat liver in vivo, i.e., NO serves as a potent vasodilator in the hepatic arterial circulation, but exerts only a minor vasodilatory effect in the portal venous vascular bed. In contrast, while there is no intrinsic CO-mediated vasodilation in the hepatic artery, CO acts to maintain portal venous vascular tone in a relaxed state.
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PMID:Differential regulation of hepatic arterial and portal venous vascular resistance by nitric oxide and carbon monoxide in rats. 962 1

The enzyme heme oxygenase, which exists in inducible (HO-1) and constitutive (HO-2) isoforms, catalyzes the degradation of heme to biliverdin and CO in mammalian tissues. CO has been implicated in the control of vascular tone in a manner similar to that for NO. In the present study, we investigated the contribution of the heme oxygenase/CO pathway to the modulation of acute hypertensive responses in vivo induced by (1) alphaalphaHb, a chemically modified hemoglobin known to scavenge NO, and (2) NG-nitro-L-arginine methyl ester (L-NAME), a competitive NOS inhibitor. Experiments were carried out in conscious rats in which femoral arteries and veins were surgically catheterized 1 or 5 days before treatment with the vasoconstrictor agents. Intravenous infusion of alphaalphaHb (8% solution) or L-NAME (30 micromol/kg) [corrected] produced an acute and significant increase in mean arterial pressure (P<0.05) in rats at 5 days after catheter implantation. In contrast, no change in blood pressure was observed when alphaalphaHb or L-NAME was infused 1 day after the surgical intervention. The suppression of the hypertensive response observed at 1 day after surgery correlated with a significant (P<0.05) HO-1 expression in aorta, heart, and liver as well as increased aortic CO production and cGMP levels. At 1 day after surgery, pretreatment of animals with the heme oxygenase inhibitor zinc protoporphyrin IX (50 micromol/kg IP) markedly decreased aortic CO and cGMP levels and completely restored the vasoconstrictor effects of both alphaalphaHb and L-NAME. These results provide evidence for a crucial role of the heme oxygenase/CO pathway in the regulation of blood pressure under stress conditions in vivo.
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PMID:Heme oxygenase-1-derived carbon monoxide contributes to the suppression of acute hypertensive responses in vivo. 973 80

We determined whether the gas carbon monoxide (CO) altered the adrenocorticotropin hormone (ACTH) response to mild inescapable electrofootshocks, and whether it interacted with nitric oxide (NO). Peripheral injection of the NO synthase (NOS) inhibitor Nwnitro-L-arginine-methylester (L-NAME), a compound which readily crosses the blood-brain barrier, produced the expected blunting of the ACTH response to the shocks. This effect was mimicked by other arginine analogues such as L-nitroarginine (L-NNA) and NG-methyl-L-arginine (NMMA). The subcutaneous (s.c.) administration of the heme oxygenase (HO) blockers tin mesoporphyrin (SnMP) or tin protoporphyrin (SnPP) significantly decreased brain HO levels, indicating that both compounds had penetrated the brain. Blood pressure showed a modest increase in response to SnMP, and no change after SnPP. SnMP and SnPP both decreased shock-induced ACTH release, though the magnitude of this effect was slightly less than that of L-NAME. The influence of SnPP was further augmented in rats with concomitant blockade of NO formation, which suggests that both NO and CO are necessary for the full response of this axis to electrofootshocks. Finally, the ability of SnPP to significantly blunt the expression of the mRNA for the immediate early gene NGFI-B in the paraventricular nucleus (PVN) of rats exposed to shocks, indicates that the influence of CO was exerted on hypothalamic neuronal activity. Collectively, our results show that NO and CO exert a stimulatory effect on the HPA axis response to mild electrofootshocks, and that at least part of this influence takes place on hypothalamic neurons and/or their afferents.
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PMID:Influence of carbon monoxide, and its interaction with nitric oxide, on the adrenocorticotropin hormone response of the normal rat to a physico-emotional stress. 979 31

Recent reports indicate the presence of two carbon monoxide (CO)-inducing enzymes, heme oxygenase (HO)-1 and -2 in airway smooth muscle. Generally HO-2 is considered to be a constitutive enzyme associated with various neuronal structures, whereas HO-1 can be induced by several factors, including hypoxia. Recent functional data indicate that exogenous CO can induce bronchodilation via a NO-independent, cyclic GMP-related mechanism. The aim of the present study was to investigate the potential role of CO as an endogenously produced airway messenger using an in vivo model of airway hypoxia. HO-1 and HO-2-like immunoreactivities were seen in airway smooth muscle along the bronchus and in the respiratory epithelium. The staining for HO-1 was relatively weak but consistent in all animals investigated. In contrast, the HO-2 staining was intense at all locations. After hypoxic stimulation, the staining for HO-1 and HO-2 was equally intense, indicating an up-regulation of the HO-1 expression. In another set up, anaesthetized, ventilated guinea-pigs were given a continuous infusion of histamine to increase total pulmonary resistance (R1). Hypoxic stimulation, induced by inhalation of 180 breaths of pure nitrogen (N2), resulted in a subsequent reduction in R1. Pretreatment with Rp-8Br-cGMPs, a cyclic GMP antagonist abolished more than 75% of this reduction, whereas L-NAME, an antagonist of NO synthesis, was without effect. Zinc protoporphyrin-IX (ZnPP), an inhibitor of HO, mimicked the effects of Rp-8Br-cGMPS. In conclusion, the present findings suggest a possible role for CO in the hypoxic regulation of airway tone.
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PMID:Carbon monoxide, a cyclic GMP-related messenger, involved in hypoxic bronchodilation in vivo. 1010 49

We tested the hypothesis that nitric oxide and carbon monoxide, which are produced in the brain by nitric oxide synthase (NOS) and heme oxygenase (HO), modulate the hypothalamic-pituitary-adrenal response to physico-emotional stressors by acting at the hypothalamus. Accordingly, we determined 1) whether the intracerebroventricular (icv) injection of NOS or HO inhibitors at doses that were confined to the brain attenuated electroshock-induced ACTH release; and 2) whether the decreases in this ACTH response were concurrent with decreases in NOS or HO activity levels at the hypothalamus. Icv injection of the NOS inhibitor Nomega-nitro-L-arginine-methylester (L-NAME; 50 microg) or the HO inhibitor tin protoporphyrin (SnPP; 20-25 microg) significantly blunted the plasma ACTH response to a 45-min session of intermittent electroshocks. Importantly, in these same animals there were concurrent decreases in hypothalamic NOS or HO activities, respectively. There were little or no effects of these inhibitors on anterior pituitary NOS or HO activities, indicating that there was only minimal leakage of the drug from the brain after icv administration. The specificity of action of these inhibitors was confirmed by the fact that SnPP did not affect NOS activity, and L-NAME did not affect HO activity. Finally, L-NAME produced no effect, whereas SnPP produced only transient increases in blood pressure, suggesting that these inhibitors do not affect activity indirectly through alterations in blood pressure. These data support the hypothesis that in the whole animal, both NO and CO exert a stimulatory influence on the acute ACTH response to physico-emotional stressors, and that the hypothalamus is the critical site of their actions.
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PMID:Nitric oxide and carbon monoxide have a stimulatory role in the hypothalamic-pituitary-adrenal response to physico-emotional stressors in rats. 1083 Mar 14

Islet production of nitric oxide (NO) and CO in relation to islet hormone secretion was investigated in mice given the NO synthase (NOS) inhibitor N(G)-nitro-L-arginine methyl ester (L-NAME) in their drinking water. In these mice, the total islet NO production was paradoxically increased, reflecting induction of inducible NOS (iNOS) in background of reduced activity and immunoreactivity of constitutive NOS (cNOS). Unexpectedly, normal mice fasted for 24 h also displayed iNOS activity, which was further increased in L-NAME-drinking mice. Glucose-stimulated insulin secretion in vitro and in vivo was increased in fasted but unaffected in fed mice after L-NAME drinking. Glucagon secretion was increased in vitro. Control islets incubated with different NOS inhibitors at 20 mM glucose displayed increased insulin release and decreased cNOS activity. These NOS inhibitors potentiated glucose-stimulated insulin release also from islets of L-NAME-drinking mice. In contrast, glucagon release was suppressed. In islets from L-NAME-drinking mice, cyclic nucleotides were upregulated, and forskolin-stimulated hormone release, CO production, and heme oxygenase (HO)-2 expression increased. In conclusion, chronic NOS blockade evoked iNOS-derived NO production in pancreatic islets and elicited compensatory mechanisms against the inhibitory action of NO on glucose-stimulated insulin release by inducing upregulation of the islet cAMP and HO-CO systems.
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PMID:Chronic blockade of NO synthase paradoxically increases islet NO production and modulates islet hormone release. 1089 28

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