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)

Chronic reduction in substrate delivery to the fetus may induce redistribution of fetal cardiac output to maintain nutrient delivery to vital organs, including the brain. Reduced vasoconstriction, in conjunction with increased local synthesis of nitric oxide may contribute to "brain sparing." The authors hypothesized that maternal undernutrition would reduce vasoconstrictor responses in fetal carotid arteries due to increased nitric oxide. Timed pregnant Sprague-Dawley rats were randomized on day 0 of pregnancy to control (C) or nutrient restricted (NR) diet. Dams were killed on day 20 of pregnancy. Fetal carotid artery responses were assessed using a pressurized myograph system. Fetal body weight was reduced by NR diet. In NR fetuses, liver, lung, kidney, and heart weights were lower, whereas proportional brain weight was greater. Carotid artery constriction to endothelin-1 was similar in both groups; however, phenylephrine-induced constriction was decreased in NR arteries. Arteries from control fetuses constricted in response to increasing concentrations of L-NAME, whereas arteries from NR did not. There was also no effect of L-NAME on constriction to phenylephrine in arteries from NR fetuses. Our study indicates that the reduced carotid artery vasoconstriction to phenylephrine in NR fetuses, which is consistent with the maintenance of fetal brain blood flow, was not mediated by enhanced nitric oxide. Reduced phenylephrine but not endothelin-1-induced constriction suggests specific effects on adrenergic carotid artery function, which may implicate this pathway in the vascular adaptation to fetal undernutrition.
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PMID:Maternal nutrient restriction reduces carotid artery constriction without increasing nitric oxide synthesis in the late gestation rat fetus. 1618 25

Angiotensin (Ang) II type 2 (AT(2)) receptors are believed to counteract Ang II type 1 (AT(1)) receptor-mediated effects. Here, we investigated AT(2) receptor-mediated effects on coronary and cardiac contractility in C57BL/6 mice. Hearts were perfused according to Langendorff. Baseline coronary flow (CF) and left ventricular systolic pressure (LVSP) were 2.7 +/- 0.1 ml min(-1) and 111 +/- 3 mmHg (n = 50), respectively. Ang II (n = 14) concentration dependently decreased CF and LVSP, by maximally 41 +/- 4 and 25 +/- 3%, respectively (pEC(50)s 7.41 +/- 0.12 and 7.65 +/- 0.12). The AT(1) receptor antagonist irbesartan (n = 4) abolished all Ang II-induced changes, whereas the AT(2) receptor antagonist PD123319 (n = 6) enhanced (P < 0.05) the effect of Ang II on CF (to 59 +/- 1%) and LVSP (to 44 +/- 2%), without altering its potency. A similar enhancement was observed in the presence of nitric oxide (NO) synthase inhibitor N(omega)-nitro-L-arginine methyl ester HCl (L-NAME; n = 4). On top of L-NAME, PD123319 no longer affected the response to Ang II (n = 4). The AT(2) receptor agonist CGP42112A (n = 4) did not affect CF or LVSP, nor did CGP42112A (n = 4) alter the constrictor response to the alpha(1)-adrenoceptor agonist phenylephrine. Furthermore, Ang II exerted no effects in hearts of AT(1A)(-/-) mice (n = 5), whereas its effects in hearts of AT(1A)(+/+) wild-type control mice (n = 7) were indistinguishable from those in hearts of C57BL/6 mice. In conclusion, Ang II exerts opposite effects on coronary and cardiac contractility in the mouse heart via activation of AT(1A) and AT(2) receptors. AT(2) receptor-mediated effects depend on NO and occur only in conjunction with AT(1A) receptor activation.
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PMID:AT2 receptor-mediated vasodilation in the mouse heart depends on AT1A receptor activation. 1668 62

Cytochrome P450 (P450) enzymes play a significant role in promoting myocardial ischemia-reperfusion (I/R) injury. CYP2C9, an isoform of P450, is known to generate superoxide radicals in the reperfused heart. Sulfaphenazole (SPZ), a CYP2C9 inhibitor, has been shown to decrease I/R injury; however, the mechanism of cardioprotection by SPZ is not well elucidated. The objective of this study was to test whether SPZ mitigates myocardial I/R injury by scavenging reactive oxygen species (ROS). Isolated rat hearts were subjected to 30 min of global ischemia followed by 45 min of reperfusion. Hearts were perfused with SPZ and/or N(omega)-nitro-L-arginine methylester (L-NAME). Coronary flow (CF), left-ventricular developed pressure (LVDP), and rate-pressure product (RPP) were monitored. Superoxide and nitric oxide (NO) generation in the reperfused tissue was determined using fluorescence methods. Myocardial infarct size was measured using triphenyltetrazolium chloride staining. The SPZ-treated group showed a significant recovery of cardiac function compared with the untreated I/R group (CF, 53 versus 45%; LVDP, 48 versus 22%; RPP, 51 versus 20%). The infarct size was significantly reduced in the SPZ-treated group (15%) compared with the I/R control (42%). Coadministration of L-NAME with SPZ significantly attenuated the beneficial effects of SPZ. In addition, SPZ treatment showed significantly decreased superoxide levels and enhanced NO bioavailability in the reperfused heart. In conclusion, the protective effect of SPZ against I/R-mediated myocardial damage appears to be due to a reduction in the superoxide level caused by its inhibition of CYP2C9, as well as scavenging of oxygen free radicals generated in the reperfused heart.
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PMID:Cardioprotection by sulfaphenazole, a cytochrome p450 inhibitor: mitigation of ischemia-reperfusion injury by scavenging of reactive oxygen species. 1787 4

1. The present study was conducted to investigate whether hydroxysafflor yellow A (HSYA) has a protective effect against heart injury after ischaemia-reperfusion and to determine the possible mechanism involved. 2. Hearts isolated from male Sprague-Dawley rats were perfused on a Langendorff apparatus and subjected to 30 min global ischaemia, followed by 120 min reperfusion. Infarct size and the level of lactate dehydrogenase (LDH) in the coronary effluent were determined. In mitochondria from isolated perfused hearts, Ca(2+)-induced swelling was observed. In isolated ventricular myocytes, depolarization of the mitochondrial membrane was determined by tetramethyl-rhodamine ethyl ester (TMRE) fluorescence. Furthermore, levels of phosphorylated endothelial nitric oxide synthase (eNOS) protein were measured by western blot. 3. Pretreatment with HSYA for 5 min before ischaemia reduced infarct size and the release of LDH. Administration of 20 micromol/L atractyloside, an opener of the mitochondrial permeability transition pore, and 10 micromol/L N(G)-nitro-L-arginine methyl ester (L-NAME), an inhibitor of NOS, attenuated the protective effects of HSYA. In mitochondria isolated from hearts pretreated with 0.1 mmol/L HSYA for 5 min, a significant inhibition of Ca(2+)-induced swelling was observed and this inhibition was attenuated by l-NAME. In isolated ventricular myocytes, pretreatment with HSYA prevented ischaemia-induced cell death and depolarization of the mitochondrial membrane, whereas atractyloside or l-NAME attenuated the effects of HSYA. Levels of phosphorylated eNOS protein were significantly enhanced in the HSYA-treated group. 4. The findings of the present study indicate that HSYA protects the myocardium against ischaemia-reperfusion injury by inhibiting mitochondrial permeability transition pore opening. The effect of HSYA on mitochondrial permeability transition pore opening may be mediated through enhanced nitric oxide production by eNOS activation.
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PMID:Evidence that hydroxysafflor yellow A protects the heart against ischaemia-reperfusion injury by inhibiting mitochondrial permeability transition pore opening. 1794 91

Activation of the NO/cGMP pathway modulates smooth muscle cells relaxation and hence vasoconstriction, a major hindrance for the use of cell-free haemoglobin (Hb) as blood substitute, despite conjugation with 5-kDa maleimide poly(ethylene)-glycol (PEG) reduces vasoconstriction in vivo. We aimed at assessing how a recently developed PEGylated-Hb (Deoxy-PEGHb) and manipulation of the NO/cGMP pathway enable modulation of vasoconstriction in isolated rat hearts. Hearts were Langendorff-perfused with oxygenated Krebs-Henseleit (15 ml/min) while monitoring the coronary pressure (CPP) after injection (1 min) of 50 nM norepinephrine followed by a 1 microM Hb or Deoxy-PEGHb bolus, without altering the flow. Deoxy-PEGHb induced less vasoconstriction than Hb. Although the presence of PEG could contribute to vasoconstriction, Deoxy-PEGHb did not contain appreciable amounts of free PEG. Whereas reducing endothelial NO release by 0.2 mM L-NAME increased vasoconstriction, abolishing NO scavenging by Hb using its cyanomet derivative almost completely blunted it. Furthermore, maintaining intracellular cyclic GMP by inhibiting phosphodiesterase-5 with 0.02 mM sildenafil enabled control of Hb-induced vasoconstriction. We conclude that, although PEG-Hb represents a possible approach to limit Hb-induced vasoconstriction, manipulating the NO/cGMP pathway may provide a powerful way to circumvent this problem.
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PMID:Modulation of the NO/cGMP pathway reduces the vasoconstriction induced by acellular and PEGylated haemoglobin. 1824 81

Hearts from Sprague-Dawley rats were perfused at constant flow and then exposed to 30 min global zero-flow ischemia followed by 15 min reperfusion. After ischemia-reperfusion, coronary arteries were dissected from the heart and segments 2 mm long were prepared for isometric tension recording in organ baths. Stimulation of the arteries with 5-hydroxytryptamine (10(-6) M) produced contraction, which was potentiated by treatment with endothelin-1 (3x10(-10); 10(-9) M). This potentiation was lower in the arteries from hearts after ischemia-reperfusion (for 3x10(-10) M, 15+/-5%; P>0.05; for 10(-9) M, 37+/-7%, P<0.01, n=5) than after control (for 3x10(-10) M, 34+/-4%; P<0.01; for 10(-9) M, 50+/-6%, P<0.01, n=5), and the potentiation was reduced by the inhibitor of nitric oxide synthesis l-NAME (10(-4) M), the antagonist of endothelin ET(A) receptors BQ123 (10(-6) M) and the antagonist of endothelin ET(B) receptors BQ788 (10(-6) M), but not by the cyclooxygenase inhibitor meclofenamate (10(-5) M). These results suggest that endothelin-1 at low concentrations potentiates coronary vasoconstriction, and this effect is reduced after ischemia-reperfusion, mediated by endothelin ET(A) and ET(B) receptors and dependent on nitric oxide release.
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PMID:Endothelin-1 potentiation of coronary artery contraction after ischemia-reperfusion. 1826 52

Lithium is widely used for the management of neuropsychiatric symptoms in bipolar disorders. A variety of hypotheses have been invoked to explain the mechanism of action of lithium. To determine if lithium exerts direct cardiac protection, in the present study perfused rat heart model was used. The mechanism of lithium-mediated cardioprotection was explored by combined use of lithium and nitro-L-arginine methyl ester (L-NAME, a non-selective nitric oxide synthase inhibitor) or indomethacin (a non-selective cyclooxygenase pathway inhibitor). Rat isolated hearts were used for Langendorff perfusion. Hearts were either non-preconditioned or preconditioned with acute lithium (3 mM) or chronic lithium (600 mg/l in tap water for 4 weeks, 0.265 +/- 0.023 mM in serum) before 30 min global ischemia followed by 90 min reperfusion. Within each of these protocols, hearts were divided into two groups; one group was exposed to L-NAME (0.1 mM) and another group was exposed to indomethacin (10 microM). Infarct size was measured by the triphenyltetrazolium chloride method. Left ventricular function was assessed by left ventricular developed pressure (LVDP), heart rate and coronary flow (CF). In our experiment acute and/or chronic administration of lithium before prolonged ischemia offered significant myoprotective effects in terms of infarct size reduction and improved cardiac function against ischemia/reperfusion injury. The effects of lithium pretreatment were prevented by the administration of indomethacin but not L-NAME. In conclusion, our results demonstrate that preconditioning with acute and/or chronic lithium administration improves recovery of the ventricular function and reduces infarct size via cyclooxygenase (COX) pathway in isolated rat heart.
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PMID:Preconditioning with acute and chronic lithium administration reduces ischemia/reperfusion injury mediated by cyclooxygenase not nitric oxide synthase pathway in isolated rat heart. 1878 20

Leptin has previously been shown to stimulate fatty acid oxidation independent of AMP-activated protein kinase (AMPK). Nitric oxide and p38 mitogen activated protein kinase (MAPK) are known effectors of leptin signaling. The aim of the present study was to determine whether nitric oxide and p38 MAPK mediate the stimulation of leptin by MAPK. Hearts from male Sprague-Dawley rats were mounted on the isolated perfused working heart in the presence or absence of leptin (1.9 nM), N-Nitro-L-Arginine Methyl Ester (L-NAME) (3 microM), the specific p38 MAPK inhibitor 4-[4-(4-Fluorophenyl)-5-(4-pyridinyl)-1H-imidazol-2-yl] phenol (SB202190, 2 microM) and the specific STAT-3 inhibitor (E)-2-Cyano-3-(3,4-dihydrophenyl)-N-(phenylmethyl)-2-propenamide (AG490, 5 microM) for the measurement of substrate metabolism and function. AMPK and carnitine palimitoyltransferase-1 activity, nitrate/nitrite levels, STAT-3 phosphorylation and p38 MAPK phosphorylation were measured. To assess mitochondrial function, hearts were perfused with or without leptin prior to the isolation of mitochondria. Leptin stimulated fatty acid oxidation and decreased cardiac function, associated with the activation of STAT-3 and p38 MAPK and an increase in tissue nitrate/nitrite levels; the effect on function was ameliorated and the effect on fatty acid oxidation was prevented by L-NAME, B202190 and AG490. L-NAME lowered tissue nitrate/nitrite levels, and prevented the phosphorylation of p38, whereas SB202190 had no effect on tissue nitrate/nitrite levels. AG490 also lowered tissue nitrate/nitrite levels. Leptin had no effect on fatty acid-dependent mitochondrial respiration or uncoupling activity, but, surprisingly, stimulated pyruvate-dependent mitochondrial respiration. These data indicate that leptin stimulates fatty acid oxidation by a STAT-3-nitric oxide-p38 MAPK-dependent mechanism. The target of the pathway is upstream of the mitochondria.
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PMID:Stimulation of cardiac fatty acid oxidation by leptin is mediated by a nitric oxide-p38 MAPK-dependent mechanism. 1957 26

Identifying agents that block tumor initiation is a goal of cancer prevention. The ability of a chemically varied group of agents to induce various drug metabolizing genes in livers of rats was examined. Sprague-Dawley rats were treated for 7 days with various agents in the diet or by gavage. The agents examined, which might be expected to respond via specific nuclear receptors (CAR, AhR) as well as antioxidant response elements (AREs), included Phase I/II inducers [5,6-benzoflavone (BF, 5000mg/kg diet), diallyl sulfide (DAS, 500mg/kg BW/day), ethoxyquin (EXO, 300mg/kg BW/day) and phenobarbital (PB, 500mg/kg diet)] or pure Phase II inducers [1,2-dithiol-3-thione (DTT, 500mg/kg diet), and cyclopentadithiolthione (CPDTT, 175mg/kg BW/day)]. Liver RNA expression was analyzed employing oligonucleotide microarrays. The agents yielded unique expression profiles. In genes with known AREs, the induction ratios (Levels Treated/Levels Controls) were: quinone oxidoreductase (BF, 8:1; DTT, 3.2:1; CPDTT, 3:1; DAS, 1.8:1; Exo, 1.7:1), glutatione transferase Pi (DTT, 36:1; CPDTT, 34:1; EXO, 8:1; DAS, 5:1; BF, 2.5:1), and aldehyde keto reductase 7A3 (AFAR) (DTT and CPDTT, 14:1; DAS, 6:1; EXO, 4:1; PB, 1.5:1). When the search included a wider variety of Phase II drug metabolizing enzymes, no clear pattern was observed. Agent induced gene expression and preventive activity in published carcinogen induced tumor models showed limited correlation; questioning whether measuring the induction of one or two genes (e.g., quinone reductase) is a surrogate for overall Phase II inducing (antioxidant) and potential anti-tumor activity.
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PMID:Induced expression of drug metabolizing enzymes by preventive agents: role of the antioxidant response element. 1969 38

The neutrophil elastase inhibitor sivelestat (ONO-5046) possesses unknown mechanisms of cardioprotection when infused following global ischemia, even in the absence of neutrophils. Since myocardial ischemia-reperfusion injury is strongly associated with endothelial dysfunction and reactive oxygen species (ROS) generation during reperfusion, we have tested the hypothesis that infusion of sivelestat during postischemic low flow would preserve endothelial and contractile function and reduce infarct size through an ROS-mediated mechanism. Isolated male rat hearts, subjected to global ischemia of 25 minutes, were reperfused with low flow with or without sivelestat followed by a full flow reperfusion. Hearts treated with sivelestat showed a significant improvement of LV contractile function and a reduction in infarct size. Infusion of L-NAME (nonspecific blocker of endothelial nitric oxide synthase (eNOS)) along with sivelestat during reperfusion reversed the preservation of contractile function and infarct size. In vitro EPR spin trapping experiments showed that sivelestat treatment decreased superoxide adduct formation in bovine aortic endothelial cells (BAECs) subjected to hypoxia-reoxygenation. Similarly, dihydroethidine (DHE) staining showed decreased superoxide production in LV sections from sivelestat-treated hearts. Taken together, these results indicate that sivelestat infusion during postischemic low flow reduces infarct size and preserves vasoreactivity in association with decreased ROS formation and the preservation of nitric oxide.
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PMID:Sivelestat attenuates myocardial reperfusion injury during brief low flow postischemic infusion. 2376 50


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