Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The production of hydroperoxides is rapidly increased and remains at 200-280% of the control 1-24 h after the second daily application of 17 nmol of 12-O-tetradecanoylphorbol-13-acetate (TPA) to mouse skin in vivo. The levels of hydroperoxides are increased 1.63-, 2.64-, 4.07-, and 4.31-fold 18 h after one, two, three, or four applications of TPA at 24-h intervals, respectively. The hydroperoxide response to TPA observed in whole skin reflects almost entirely the increased hydroperoxide-producing activity of the epidermis. Such hydroperoxide responses are triggered to various degrees by the anthrone derivatives and the phorbol esters and diterpene with complete and/or stage 2 tumor-promoting activities but not by the agents with only inflammatory, hyperplastic or stage 1 tumor-promoting activities. However, the Ca2+ ionophores A23187 and ionomycin are potent inducers of hydroperoxide formation. Several discrepancies are observed between the hydroperoxide response to TPA and the known effects of the tumor promoter on ornithine decarboxylase (ODC) induction. In contrast to the refractory state against ODC induction caused by TPA treatments repeated at intervals of less than 48 h, the time interval required for recovery of the hydroperoxide response to TPA in TPA-pretreated skins is only 5 h. The stimulatory effects of A23187, ionomycin and various diacylglycerols (DAGs) on hydroperoxide production do not correlate with their ODC-inducing activities. The increasing susceptibilities of C57BL/6, CF-1, and SEN-CAR mice to skin tumor promotion correlate with their hydroperoxide responses but not with their ODC responses to TPA. alpha-Difluoromethylornithine (DFMO) and other inhibitors of TPA-induced ODC activity fail to alter hydroperoxide production whereas the compounds that inhibit the hydroperoxide response to TPA, such as fluocinolone acetonide, have no or only minimal inhibitory activity against ODC induction. This would suggest that the hydroperoxide response to TPA does not require ODC induction and may not be essential for ODC induction. The hydroperoxide response to TPA is mimicked, but to a lesser degree, by the activator of protein kinase C, 1,2-dioctanoyl-sn-glycerol, and inhibited by verapamil, trifluoperazine, and palmitoylcarnitine. Populations of TPA-treated keratinocytes, therefore, may be responsible not only for ODC activation but also for hydroperoxide production. However, these two responses, which involve, at least in part, Ca2+ mobilization and protein kinase C activation and play important roles in the mechanism of skin tumor promotion, do not appear to be correlated.
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PMID:Characterization of the hydroperoxide response observed in mouse skin treated with tumor promoters in vivo. 250 65

The contribution of the intracellular messengers nitric oxide, arachidonic acid and protein kinase C to persistent nociception in response to tissue injury in rats was examined following the subcutaneous injection of formalin into the hindpaw. Formalin injury-induced nociceptive behaviours were reduced by intrathecal pretreatment with inhibitors of nitric oxide synthase (NG-nitro-L-arginine methyl ester, L-NAME), arachidonic acid (dexamethasone) or protein kinase C [protein kinase C (19-26) and 1-95-(isoquinolinesulphonyl)-2-methylpiperazine dihydrochloride, H-7]. Each of these agents affected the tonic, but not the acute, phase of the formalin response. Furthermore, none of these agents affected mechanical or thermal flexion reflex thresholds in rats not injected with formalin. Conversely, formalin-induced nociceptive responses were enhanced by stimulators of nitric oxide (sodium nitroprusside), arachidonic acid metabolism (arachidonic acid) or protein kinase C [(+/-)-1-oleoyl-2-acetyl-glycerol], and were slightly reduced by inositol trisphosphate. Mechanical flexion reflexes were also reduced by arachidonic acid, while thermal flexion reflexes were reduced after treatment with sodium nitroprusside, arachidonic acid or [(+/-)-1-oleoyl-2-acetyl-glycerol]. The enhancement of formalin nociceptive behaviours (hyperalgesia) in rats treated with L-glutamate or substance P was reversed by pretreatment with inhibitors of nitric oxide (L-NAME), arachidonic acid (dexamethasone) or protein kinase C (H-7). The results suggest that central sensitization and persistent nociception following formalin-induced tissue injury, and the hyperalgesia in the formalin test induced by L-glutamate and substance P, are dependent on the intracellular messengers nitric oxide, arachidonic acid and protein kinase C.
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PMID:Intracellular messengers contributing to persistent nociception and hyperalgesia induced by L-glutamate and substance P in the rat formalin pain model. 752 41

1. Trilinolein, a triacylglycerol with linoleic acid as the only fatty acid residue in all three esterified positions of glycerol, was recently reported to have an inhibitory effect on adrenaline-induced platelet aggregation. In the present study, we found that trilinolein at concentrations ranging from 0.01 to 1 microM increased cyclic GMP formation and decreased cyclic AMP formation in washed human platelets. Both NG-nitro-L-arginine methyl ester (L-NAME) and methylene blue attenuated the trilinolein-induced increase in cyclic GMP. 2. Adrenaline decreased not only the production of cyclic AMP but also that of cyclic GMP. Trilinolein antagonized the inhibitory effect of adrenaline on cyclic GMP formation, but potentiated the inhibitory effect of adrenaline on cyclic AMP accumulation. 3. Both trilinolein and adrenaline enhanced intracellular calcium but the increment of intracellular calcium induced by them was much less than that produced by thrombin. 4. We propose that the anti-platelet effect of trilinolein is mediated through an increase in cyclic GMP, and that the change in cyclic GMP results from stimulation of nitric oxide synthesis in platelets. 5. We also propose that reduction of both cyclic AMP and cyclic GMP are involved in adrenaline-induced platelet aggregation.
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PMID:Effect of trilinolein on cyclic nucleotide formation in human platelets: relationship with its antiplatelet effect and nitric oxide synthesis. 856 31

Calcitonin gene-related peptide (CGRP) added to the internal fluid bathing the isolated skin of Rana esculenta strongly stimulates the active sodium absorption. This action is dose-dependent, the dose eliciting the maximal effect being 2 . 10(-7) M; alpha and beta CGRP exhibit the same potency. The CGRP action on sodium transport is mainly due to its interaction with CGRP1 receptors, since it is inhibited by CGRP8-37, its specific antagonist. The second messengers probably involved in the action of CGRP are cAMP and Ca+2, since this action is reduced by SQ22536 and W7, which are inhibitors of adenyl cyclase and calmodulin respectively. On the contrary, inhibitors of protein kinase C (1-O-hexadecyl-2-O-methyl-sn-glycerol) and nitric oxide synthase (L-NAME) do not modify the action on sodium transport. ETYA, an inhibitor of all the metabolic pathways of arachidonic acid, decreases the CGRP action by 38%. In order to search for the arachidonic acid metabolites involved in the CGRP action, the effect of the following inhibitors was tested: aspirin and naproxen (for cyclooxygenases), NDGA (for cyclooxygenases), NDGA (for lipoxygenases) clotrimazole (for epoxygenases). None of these substances is able to inhibit the CGRP action on sodium transport. Moreover, adding arachidonic acid inhibits the CGRP action, but this effect was also obtained by another unsaturated fatty acid, oleic acid. Since unsaturated fatty acids are able to inhibit the protein kinase A, these results indirectly support the role of cAMP as a second messenger of the CGRP action on sodium transport.
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PMID:Effect of calcitonin gene-related peptide on sodium absorption through isolated skin of Rana esculenta. 881 96

Peroxynitrite (1-100 microM) induced a concentration-dependent relaxation of rat aortic rings; the logEC50 and maximum relaxation on endothelium-denuded rings were -5.31 +/- 0.03 and 105 +/- 5%, n = 6, respectively. The presence of the endothelium significantly impaired this relaxation (logEC50, -4.41 +/- 0.04; maximum relaxation, 71 +/- 4%; n = 6); an effect which was reversed by the inhibitor of nitric oxide synthase, N(G)-nitro-L-arginine methyl ester (L-NAME; 100 microM). Incubation with a high concentration of peroxynitrite (1 mM, 10 min followed by washout) had no effect on subsequent relaxation to acetylcholine (0.01-1 microM). It did, however, significantly depress subsequent contraction to phenylephrine (1-300 nM). This depression was dependent upon the presence of D-glucose in the Krebs solution, could be reversed by the inhibitor of soluble guanylate cyclase, methylene blue (10 microM) and reversed spontaneously after 2 h. When peroxynitrite (1 mM) was mixed with D-glucose (11 mM) and subsequently neutralised to remove unreacted peroxynitrite, a new more potent relaxant was formed. Despite this, the ability of peroxynitrite (1-100 microM) to produce relaxation of endothelium-denuded rings was similar in normal and glucose-free Krebs. Glycerol (22 mM), which like D-glucose is membrane permeant, also reacted with peroxynitrite (1 mM) to form a new more potent relaxant. L-cysteine (1 mM) had no effect by itself on the tone of aortic rings and when present in the tissue bath had no effect on the ability of peroxynitrite or neutralised peroxynitrite (1-100 microM) to produce relaxation. It did, however, potentiate the relaxant actions of the products formed from the reaction of peroxynitrite with D-glucose or glycerol. The membrane impermeant sugars, mannitol and sorbitol (each 11 mM) also reacted with peroxynitrite (1 mM), but expression of the vasorelaxant properties of their respective derivatives was seen only in the presence of L-cysteine (1 mM). Membrane permeance cannot, however, explain why peroxynitrite reacts with D-glucose and glycerol, but not mannitol or sorbitol to form products with intrinsic relaxant activity, as the product formed from the impermeant sugar, L-glucose (11 mM), also has intrinsic activity. The relaxant potency of this product was equipotent to that formed from D-glucose and was also potentiated by L-cysteine (1 mM). These result confirm that peroxynitrite can react with glucose and other compounds with alcohol functional groups to form vasorelaxant species. The relaxation induced when peroxynitrite is added to rat aortic rings is not, however, dependent upon this reaction since it occurs in glucose-free Krebs.
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PMID:The effects of peroxynitrite on rat aorta: interaction with glucose and related substances. 940 2

In the glycerol model of renal injury we describe an acute rise in systemic arterial pressure which is attended by a reduced vasodilatory response to acetylcholine in vivo; vasodilatory responses to verapamil, however, were not impaired. Neither arginine nor sodium nitroprusside diminished this rise in blood pressure; N(omega)-nitro-L-arginine methyl ester (L-NAME) elevated basal mean arterial pressure and markedly blunted the rise in mean arterial pressure following the administration of glycerol. Aortic rings from the glycerol-treated rat demonstrate an impaired vasodilatory response to acetylcholine, an effect not repaired by arginine; the vasodilatory responses to nitric oxide donors, sodium nitroprusside and SIN-1, were also impaired; 8-bromo-cGMP, at higher doses, evinced a vasodilatory response comparable to that observed in the control rings. This pattern of responses was not a nonspecific effect of aortic injury, since aortic rings treated with mercuric chloride, a potent oxidant, displayed an impaired vasodilatory response to acetylcholine but not to sodium nitroprusside. We conclude that in the glycerol model of heme protein-induced tissue injury, there is an acute elevation in mean arterial pressure attended by impaired endothelium-dependent vasodilatation in vitro and in vivo. We suggest that the acute scavenging of nitric oxide by heme proteins depletes the blood vessel wall of its endogenous vasodilator and permeation of heme proteins into the blood vessel wall may contribute to such sustained effects as observed in vitro.
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PMID:Characterization of acute reversible systemic hypertension in a model of heme protein-induced renal injury. 1040 98

Myoglobinuric acute renal failure remains one of the least understood clinical syndromes and the mediators involved remain obscure. The aim of the present study was to assess the role of nitric oxide in glycerol-induced acute renal failure under normal conditions and after uninephrectomy. Acute renal failure was induced in rats by injection of 50% glycerol (10 mL x kg(-1) body weight). Half of the animals were subjected to uninephrectomy two days before glycerol injection. Two days after the induction of acute renal failure, glomeruli from some animals were isolated and glomerular nitrite production was measured. Another group of animals was used for acute clearance studies. In this case, the effect of infusing either L-NAME or L-arginine was assayed. Glomerular nitrite production was significantly decreased in glycerol-induced acute renal failure. Glomeruli from uninephrectomized animals showed an increase in nitrite production, both in normal conditions and after glycerol injection, as compared with glomeruli from non-nephrectomized animals. L-NAME infusion worsened renal function in all the study groups, but more slowly in animals with glycerol-induced acute renal failure than in control rats. In uninephrectomized animals L-NAME reduced renal function more than in animals with two kidneys. In conclusion, in this model of acute renal failure the decrease in glomerular nitric oxide production plays an important role in the decrease in renal function. After uninephrectomy, an increase in glomerular nitric oxide synthesis plays a protective role against glycerol-induced acute renal failure.
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PMID:Role of glomerular nitric oxide in glycerol-induced acute renal failure. 1091 37

The pharmacological physiological effects of the endogenous cannabinomimetic (endocannabinoid) anandamide have been well characterized. Another endocannabinoid, 2-arachidonoyl-glycerol (2-AG), has been less-widely studied. 2-AG occurs in vertebrate and invertebrate tissues and binds to both cannabinoid receptors (CB1 and CB2). In the current study, 2-AG was found to cause human monocytes and immunocytes from Mytilus edulis to become round and immobile, which may correlate with decreased production of cytokines and adhesion molecules, i.e. an immunosuppressive response. In addition, exposure of these cells to 2-AG results in nitric oxide (NO) release, which is blocked by the nitric oxide synthase inhibitor, l-NAME and a CB1 antagonist, but not by a CB2 antagonist. The results obtained in the human vascular system were similar to those obtained in immune cells. Treatment of human saphenous veins and atria with 2-AG stimulated basal NO release, which was antagonized by l-NAME and a CB1 antagonist. Taken together these results indicate that 2-AG exerts immune and vascular actions similar to those observed with anandamide.
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PMID:2-arachidonyl-glycerol stimulates nitric oxide release from human immune and vascular tissues and invertebrate immunocytes by cannabinoid receptor 1. 1098 90

Nitric oxide (NO) may be an important modulator of sympathetic tone. We used im and sc microdialysis in humans to characterize the interaction of NO synthase inhibition and adrenoreceptor stimulation on tissue perfusion, metabolism, and norepinephrine release. Microdialysis probes were perfused with L- or D-nitro-L-arginine-methyl-ester (100 micromol/L) followed by incremental doses of isoproterenol, epinephrine, or nitroprusside. Blood flow was estimated based on the ethanol dilution technique. In muscle, the increase in blood flow with isoproterenol was abolished by L-NAME. The ethanol ratio was 0.03 +/- 0.011 with D-NAME and 0.075 +/- 0.014 with L-NAME during isoproterenol treatment (1 micromol/L). The effect was less pronounced in adipose tissue. The vasodilatory effect of nitroprusside was similar with D- and L-NAME. L-NAME augmented isoproterenol- and epinephrine-induced glycerol release. Dialysate glycerol during 1 micromol/L isoproterenol was 47 +/- 6.7 micromol/L with D-NAME and 72 +/- 15 micromol/L with L-NAME. In skeletal muscle, dialysate norepinephrine during 1 micromol/L isoproterenol treatment was 0.73 +/- 0.17 and 1.3 +/- 0.15 nmol/L with D- and L-NAME, respectively. We conclude that NO synthase inhibition attenuates beta(2)-adrenoreceptor-mediated vasodilation and enhances beta-adrenoreceptor-mediated lipolysis. These effects are in part mediated through an increase in interstitial norepinephrine concentrations. The data are consistent with the idea that in humans, NO is important in modulating and ameliorating sympathetic effects in peripheral tissues.
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PMID:Interaction between beta-adrenergic receptor stimulation and nitric oxide release on tissue perfusion and metabolism. 1139 91

1. In the present study, endothelium-derived relaxing factor (EDRF/nitric oxide (NO)), conversion of big endothelin (ET)-1 to endothelin-1 (ET-1) and the role of reactive oxygen species were investigated in kidneys isolated from glycerol (GLY)-pretreated rabbits. 2. Acetylcholine (ACh)-induced vasodilation that is due to the release of EDRF/NO is significantly decreased, whereas big ET-1-induced vasoconstriction was increased in kidneys isolated from GLY-pretreated rabbits. 3. Pretreatment of rabbits with the xanthine oxidase inhibitor allopurinol and the NO precursor L-arginine reversed the inhibition of ACh-induced vasodilation due to GLY and protects the kidney vasculature. 4. Big ET-1, but not ET-1, responses were found to be significantly increased in kidneys isolated from GLY-pretreated rabbits. This increase is attributed to the higher conversion rate of big ET-1 to ET-1 because the ET-converting enzyme (ECE) inhibitor phosphoramidon, at a concentration of 10(-6) mol/L, causes an inhibition in the response to big ET-1 by 52.6% in normal kidneys, whereas this inhibition with the same concentration of phosphoramidon was found to be significantly decreased in kidneys isolated from GLY-pretreated rabbits. 5. The non-selective NO synthase inhibitor N(G)-nitro-L- arginine methyl ester (L-NAME) caused a significant potentiation in the vasoconstrictor response to ET-1 in normal isolated perfused rabbit kidneys. However, L-NAME did not alter the responses to ET-1 in GLY-pretreated kidneys. 6. These results indicate that accumulation of reactive oxygen species causes an inhibition in NO bioavailability. Increased conversion of big ET-1 to ET-1 may also contribute to the mechanism of vascular damage due to GLY.
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PMID:Effect of glycerol on endothelium-derived factors in the vasculature of the rabbit kidney. 1209 99


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