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)

We examined whether Ca(2+) mobilizers induce endothelium-dependent contraction and relaxation (EDC and EDR) in isolated rabbit intrapulmonary arteries. Ionomycin (10(-7) M) and A-23187 (10(-7) M), both Ca(2+) ionophores, and thapsigargin (10(-6) M), an endoplasmic reticulum Ca(2+)-ATPase inhibitor, caused a contraction in the non-contracted preparations, and a transient relaxation followed by a transient contraction and sustained relaxation in the precontracted preparations. Endothelium-removal abolished the contraction and transient relaxation (EDC and EDR) but not sustained relaxation (endothelium-independent relaxation, EIR). In the noncontracted preparations, ionomycin-induced EDC was significantly attenuated by quinacrine (10(-5) M), manoalide (10(-6) M), both phospholipase A(2) inhibitors, indomethacin (10(-5) M) and aspirin (10(-4) M), both COX inhibitors, and ozagrel (10(-5) M), a TXA(2) synthetase inhibitor. In the precontracted arteries, EDR was markedly reduced by L-NAME (10(-4) M), a NOS inhibitor, and methylene blue (10(-6) M), a guanylate cyclase inhibitor, and was enhanced by indomethacin, aspirin and ozagrel, probably due to inhibition of EDC. ZM230487, a 5-lipoxygenase inhibitor, had no effect on EDR. EIR was not affected by L-NAME, indomethacin or ZM230487. Arachidonic acid (10(-6) M) evoked EDC sensitive to indomethacin and ozagrel. L-Arginine (10(-3) M) caused EDR sensitive to L-NAME in the ionomycin-stimulated preparations. In conclusion, Ca(2+) mobilizers cause EDC and EDR via production of TXA(2) and NO, respectively.
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PMID:Role of intracellular Ca2+ in endothelium-dependent contraction and relaxation of rabbit intrapulmonary arteries. 1258 21

This study was undertaken in order to investigate the possible interactions between nitric oxide and arachidonic acid (AA) in Venus verrucosa oocytes. We perifused isolated oocytes to determine the effect of the following substances on [3H]arachidonic acid release ([3H]AA): (1) A 23187, a calcium ionophore; (2) nitric oxide (NO) donors; (3) 1,1,1-trifluoromethyl-6,9,12,15 heicosatetraen-2-one (AACOCF(3)), a specific phospholipase A(2) (PLA(2)) inhibitor; (4) [5'-hydroxymethyl-2'-furyl]-1-benzyl indazole (YC-1) and 1H-[1,2,4]oxadiazolo[4,3-alpha]quinoxalin-1-one (ODQ), specific soluble guanylyl cyclase activator and inhibitor, respectively; (5) L-arginine, the substrate of nitric oxide synthase; (6) L-nitroarginine methyl esther (L-NAME), an inhibitor of nitric oxide synthase. Our results demonstrated that: (a) the calcium ionophore dose-dependently increased [3H]arachidonic acid release; (b) the NO donors sodium nitroprusside (SNP) and linsidomine (SIN-1) highly increased [3H]arachidonic acid output, while S-nitroso-N-acetylpenicillamine (SNAP) was without effect; (c) AACOCF(3) completely blocked the [3H]arachidonic acid release induced by SNP and SIN-1; (d) YC-1 increased [3H]arachidonic acid release, while ODQ completely counteracted SNP response; (e) [3H]arachidonic acid output was also increased by L-arginine; (f) a similar effect was, paradoxically, obtained in the presence of L-NAME. Furthermore, using RT-PCR we demonstrated in the same cells the presence of a nitric oxide synthase (NOS) mRNA, whose expression was not modulated by interleukin 1beta (IL-1beta). These results demonstrate the presence of a both calcium-dependent and NO-sensitive PLA(2) and of nitric oxide synthase in V. verrucosa oocytes. Our data also suggest a co-action of the two pathways in the control of reproduction in this bivalve.
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PMID:Nitric oxide-mediated arachidonic acid release from perifused Venus verrucosa oocytes. 1260 64

The mechanisms of fenretinide-induced cell death of neuroblastoma cells are complex, involving signaling pathways mediated by free radicals or reactive oxygen species (ROS). The aim of this study was to identify mechanisms generating ROS and apoptosis of neuroblastoma cells in response to fenretinide. Fenretinide-induced ROS or apoptosis of SH-SY5Y or HTLA 230 neuroblastoma cells were not blocked by Nitro l-argenine methyl ester (l-NAME), an inhibitor of nitric oxide synthase. Flavoprotein-dependent superoxide-producing enzymes such as NADPH oxidase were also not involved in fenretinide-induced apoptosis or ROS generation. Similarly, ketoconazole, a cytochrome P450 inhibitor, and inhibitors of cyclooxygenase (COX) were also ineffective. In contrast, inhibition of phospholipase A(2) or lipoxygenases (LOX) blocked the induction of ROS and apoptosis in response to fenretinide. Using specific inhibitors of LOX, blocking 12-LOX but not 5- or 15-LOX inhibited both fenretinide-induced ROS and apoptosis. The effects of eicosatriynoic acid, a specific 12-LOX inhibitor, were reversed by the addition of the 12-LOX products, 12 (S)-hydroperoxyeicosatetraenoic acid and 12 (S)-hydroxyeicosatetraenoic acid. The targeting of 12-LOX in neuroblastoma cells may thus be a novel pathway for the development of drugs inducing apoptosis of neuroblastoma with improved tumor specificity.
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PMID:Mechanisms of free-radical induction in relation to fenretinide-induced apoptosis of neuroblastoma. 1285 36

Our in vivo assay for thrombolysis consisted of recording the weight of platelet-rich thrombi adhering to a collagen strip that was superfused with arterial blood in extracorporal circulation of anaesthetised Wistar rats. Immediate thrombolysis occurred in response to intravenously administrated angiotensin-converting enzyme inhibitor (ACE-I) at non-hypotensive doses of 3-30 microg kg(-1) (captopril<perindopril<quinapril). The thrombolytic response lasted up to 3 h with maximum reduction of the weight of thrombus by 75%. Pretreatment with COX-1 and COX-3 inhibitors (aspirin at a low dose of 1 mg kg(-1), SC 560 and acetaminophen, 0.3-3 mg kg(-1)) slightly augmented thrombolysis by ACE-I, while COX-2 inhibitors (nimesulide and coxibs at doses <1 mg kg(-1) and aspirin at a high dose of 50 mg kg(-1)) or a kinin B2 receptor antagonist (icatibant) abolished it. NOS inhibition by L-NAME blunted and delayed thrombolysis by ACE-I. In parallel to maximum thrombolysis by quinapril (30 microg kg(-1)), plasma levels of 6-keto-PGF1alpha rose significantly from 40 +/- 7 to 554 +/- 91 pg ml(-1) (n=5, mean +/- S.D.), while basal levels of PGE2 (12 +/- 3 pg ml(-1)) and TXB2 (47 +/- 11 pg ml(-1)) remained essentially unchanged. Pretreatment with celecoxib (0.1-1.0 mg kg(-1)) abolished not only thrombolysis by quinapril but also the quinapril-induced rise in plasma 6-keto-PGF1alpha. In cultured bovine aortic endothelial cells, perindoprilate (30 microM) increased cytosolic free calcium [Ca2+]i, but this effect was by three to four orders of magnitude weaker than that of bradykinin (Bk). In aortas of Wistar rats, the transcripts of COX-2 and PGI-S were overexpressed as compared to COX-1. Thus, in blood vessels of Wistar rats, the preferable route of the PGI2 generation might lead through the COX-2 pathway. We conclude that in Wistar rats, ACE-I induces thrombolysis via accumulation of endogenous kinins over the endothelium and a subsequent activation of B2 receptors followed by the release of prostacyclin and nitric oxide. Thrombolysis by ACE-I seems to be mediated mainly through prostacyclin that is made by COX-2. It may well be that an increase in endothelial [Ca2+]i by ACE-I activates phospholipase A2, which supplies COX-2 with the substrate for making thrombolytic prostacyclin.
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PMID:Mechanisms of angiotensin-converting enzyme inhibitor induced thrombolysis in Wistar rats. 1459 56

Clara cell 10-kDa protein (CC10) is a major component of bronchoalveolar lavage fluid and is suggested to be a natural regulator of airway inflammation, possibly through its effects on the proinflammatory enzyme(s), phospholipase A2. We examined the effect of recombinant human (rh) CC10 on endotoxin-induced airway contraction and cytokine release in isolated perfused rat lungs. We found that rhCC10 added to the lung perfusate abolished the endotoxin-induced airway contraction, and that it inhibited both the release of interleukin-1 beta and interleukin-6 into the lung perfusate and the release of tumor necrosis factor-alpha into the pulmonary lavage fluid. By contrast, the levels of interferon-gamma were unaffected by CC10 administration. Rutin, a phospholipase A2 inhibitor, and N omega-nitro-L-arginine methyl ester (L-NAME), a nitric oxide synthase inhibitor, also attenuated the contraction induced by endotoxin. These findings demonstrate that rhCC10 inhibits endotoxin-induced airway contraction and the release of proinflammatory cytokines (interleukin-1 beta, interleukin-6, and tumor necrosis factor-alpha) in isolated perfused rat lungs. The results also indicate that phospholipase A2 and nitric oxide are involved in the airway contraction in this model, possibly through their influence on the production of eicosanoids.
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PMID:Clara cell 10-KDA protein inhibits endotoxin-induced airway contraction in isolated perfused rat lungs. 1471 Apr 38

This study investigated interactions between nitric oxide synthesis and phospholipase A2 (PLA2) activation in lung epithelial cells. Nitrite formation, inducible nitric oxide synthase expression, and [3H]arachidonic acid (AA) release were determined following treatment with: (1) the nitric oxide synthase inhibitors N(G)-nitro-L-arginine methyl esther (L-NAME) and aminoguanidine; (2) arachidonyl trifluoromethyl ketone (AACOCF3), a specific cytosolic PLA2 inhibitor; (3) S-morpholinosydnonimine (SIN-1), a nitric oxide donor which provokes peroxynitrite formation; (4) trolox, a free radical scavenger, and (5) the AA release agonists calcium ionophore, phorbol 12-myristate 13-acetate, and sodium vanadate. The results demonstrated that (1) L-NAME and aminoguanidine inhibited agonist-induced AA release by 40 and 65%, respectively; (2) AACOCF3 inhibited nitrite formation and inducible nitric oxide synthase expression in a dose-dependent manner; (3) SIN-1, together with AA release agonists, significantly increased the AA output, and (4) trolox counteracted the SIN-1 effects. Our results demonstrate cross talk between nitric oxide synthase and PLA(2) pathways, with a possible intermediary role for peroxynitrite and superoxide.
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PMID:Interactions between nitric oxide and arachidonic acid in lung epithelial cells: possible roles for peroxynitrite and superoxide. 1557 79

The formation of reactive oxygen species (ROS) has been suggested to be associated with excitotoxicity but the involvement of cytoplasmic enzymes in ROS formation is not clearly known. In the present study, we examined the role of xanthine oxidase (XO), nitric oxide synthase (NOS) and phospholipase A(2) (PLA(2)) in glutamate-induced oxidative stress in rat cortical slices. Glutamate-induced ROS formation and mitochondrial depolarization were measured in rat cortical slices in presence of allopurinol, L-NAME and 4-bromophenacylbromide, the specific inhibitors of XO, NOS and PLA(2), respectively. Upon stimulation of slices with glutamate, a significant increase in ROS formation and mitochondrial depolarization was observed. However, pretreatment of slices with allopurinol, L-NAME and 4-bromophenacylbromide inhibited the glutamate-induced ROS formation and mitochondrial depolarization. The glutamate-induced ROS formation was dependent on the concentration of these inhibitors and also on the duration of the treatment. Allopurinol was found to be less effective as compared to L-NAME and 4-bromophenacylbromide. The combined treatment of slices with these enzyme inhibitors showed further inhibition in ROS formation and mitochondrial depolarization. The inhibition in ROS formation as well as mitochondrial depolarization by allopurinol, L-NAME and 4-bromophenacylbromide clearly suggests that the activation of XO, NOS and PLA(2) by calcium during glutamate receptor stimulation may release some chemicals which depolarize mitochondria resulting in ROS formation.
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PMID:Xanthine oxidase, nitric oxide synthase and phospholipase A(2) produce reactive oxygen species via mitochondria. 1577 70

We show that rat neonatal cardiac myocytes exposed to 1 micromol/l of the calcium ionophore A23187 respond with an enhanced production of reactive oxygen species (ROS). This dose is not cytotoxic to the myocytes. A higher concentration (10 micromol/l) evokes less ROS production and is significantly cytotoxic 24 h after exposure, but not immediately after removal of the A23187, when ROS are measured. Both cell death and the decrease in mitochondrial potential are only partially sensitive to MPT inhibitor cyclosporin A. Experiments performed to elucidate the sources of ROS included use of the nitric oxide synthase (NOS) inhibitor L-NAME; NOS involvement was excluded. Experiments with the oxidative phosphorylation uncoupler CCCP revealed that mitochondria are at least partially responsible for the observed effect. Further studies with cyclooxygenase (COX) and lipoxygenase (LOX) inhibitors (indomethacin and MK886, respectively) showed that these enzymes could also be sources of ROS when the calcium level is elevated. Their effect appeared to be independent of phospholipase A(2) inhibition, suggesting that COX and LOX stimulation is not due to elevated substrate (arachidonic acid) concentration but rather to a direct effect of calcium.
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PMID:Calcium ionophore A23187 action on cardiac myocytes is accompanied by enhanced production of reactive oxygen species. 1594 18

We checked the hypothesis whether the non-classical estrogen receptor modulators genistein and raloxifene could affect platelet aggregation through their direct effect on vascular tissue by regulating the synthesis of vasoactive compounds. In rat aortic strips, 10nM genistein or 10nM raloxifene significantly increased nitric oxide synthesis, event prevented by ICI182780. Both agents exhibited an antiaggregatory action, dependent on the nitric oxide release from vascular tissue, since preincubation of aortic strips with L-NAME partially and completely suppressed the inhibition of platelet aggregation induced by genistein or raloxifene respectively. The phytoestrogen enhanced phospholipase A(2) and prostacyclin release into the incubation medium. Indomethacin reduced in half the inhibition of platelet aggregation elicited by genistein. Finally, genistein or raloxifene also inhibited platelet aggregation in aortic strips from ovariectomized rats. In conclusion, genistein and raloxifene exhibit an antiplatelet activity through their direct action on vascular tissue, in rats with or without ovarian activity.
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PMID:Effect of genistein and raloxifene on vascular dependent platelet aggregation. 1730 49

We studied lipid metabolism and the antioxidant defense system in plasma and liver of rats fed diets supplemented with L(omega)-nitro-L-arginine methyl ester (L-NAME), isosorbide dinitrate (DIS), L-arginine (Arg), or the associations of these drugs. Liver hydroperoxide and thiobarbituric-acid-reactive substance (TBARS) levels were decreased by Arg and increased by L-NAME or DIS treatments. Oxidized glutathione and conjugated dienes were increased by DIS. Nitrate + nitrite levels and serum calcium ([Ca(++)]) were incremented by Arg or DIS and reduced by L-NAME. Superoxide dismutase and catalase activities decreased under Arg treatment, while L-NAME or DIS caused stimulation. Liver high-density lipoprotein (HDL) cholesterol was increased by DIS or NAME (alone or associated with Arg). Free fatty acids and neutral and polar lipids were increased by Arg, L: -NAME, and DIS. However, predominating phospholipid synthesis increased the neutral/polar ratio. Decreased levels of nitric oxide (NO) (low [Ca(++)]) was directly associated with increased fatty acid synthetase, decreased phospholipase A(2), carnitine-palmitoyl transferase, and fatty acid desaturase activities. Raised NO (high [Ca(++)]) inversely correlated with increased phospholipase-A(2) and acyl-coenzyme A (CoA) synthetase and decreased fatty acid synthetase and beta-oxidation rate. Arg or DIS produced changes that were partially reverted by association with L-NAME. Based on these observations, prolonged therapeutical approaches using drugs that modify NO availability should be carefully considered.
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PMID:Lipid metabolism in rats is modified by nitric oxide availability through a Ca++-dependent mechanism. 1739 27


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