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)

Atrial natriuretic factor (ANF) promotes natriuresis and diuresis, increases vascular permeability and may induce peripheral vasodilatation. Endothelium-derived relaxing factor (EDRF), which is nitric oxide (NO), promotes local vasodilatation. ANF and EDRF-NO both cause vascular relaxation by generating cGMP via the activation of the particulate and soluble guanylate cyclases, respectively. This study examines the in vivo effect of exogenous ANF administration in normal Wistar rats, and of increased endogenous ANF in an experimental model of heart failure, on plasma and tissue cGMP concentrations. Low-dose ANF increased plasma and pulmonary cGMP concentrations, whereas 10-fold higher doses were necessary to increase aorta cGMP concentrations. Rats with a myocardial infarction had increased plasma ANF and cGMP and pulmonary cGMP concentrations, but aorta cGMP concentration remained similar to that of sham-operated rats. NG nitro L-arginine methyl ester (L-NAME) was administered chronically to sham-operated and myocardial infarction rats to block NO-synthase: soluble guanylate cyclase activity. L-NAME did not lower the increase in plasma ANF concentration or in urinary, plasma or pulmonary cGMP concentration. In contrast, L-NAME reduced the aorta cGMP concentration 6-fold, despite an increased level of circulating ANF. In summary, the pathophysiological range of plasma ANF concentrations greatly increases plasma and pulmonary cGMP concentrations (by activating particulate guanylate cyclase), but has little influence on the aorta cGMP concentration (which remains mainly dependent on NO-synthase: soluble guanylate cyclase activity).
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PMID:Atrial natriuretic factor influences in vivo plasma, lung and aortic wall cGMP concentrations differently. 839 39

To determine whether the extent of myocardial infarction differs in conscious baboons and pigs, both devoid of performed collaterals, the effects of 40 and 90 min of coronary artery (CA) occlusion (O) both followed by 4-7 days of CA reperfusion (R) were examined in both species. CAO reduced subendocardial and subepicardial blood flows similarly, almost to zero, in baboons and pigs for the entire CAO period. At 24 h of CAR, subendocardial blood flow had almost returned to pre-CAO control levels in baboons but remained significantly depressed in pigs. The major difference in hemodynamics during CAO and CAR was in left ventricular end-diastolic pressure, which rose by 6 +/- 1 mmHg in pigs over the initial 24-h reperfusion period but did not change significantly in baboons. These data on recovery of subendocardial blood flow and left ventricular end-diastolic pressure suggest larger infarcts in pigs than in baboons. Indeed, infarct size expressed as a function of area at risk (IF/AAR) was significantly greater (P < 0.05) in pigs (53 +/- 4.9%) than in baboons (17 +/- 2.9%) with 90 min of CAO and 4-7 days of CAR. With 40 min of CAO and 4-7 days of CAR, IF/AAR was 46 +/- 3.6% in pigs, whereas in baboons the IF/AAR was minimal, i.e., 2 +/- 0.6%. Thus pigs and baboons were characterized by minimal coronary collateral circulation, but infarct size was significantly less in conscious baboons than in conscious pigs. Potentially, these differences could be explained, in part, by natural protective mechanisms and/or less reperfusion injury in primates. These results in primates may also help explain the salutary effects of CAR in patients at intervals longer than have been demonstrated to be beneficial in other experimental animals.
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PMID:Innate protection of baboon myocardium: effects of coronary artery occlusion and reperfusion. 892 90

The long-term administration of captopril to patients with a left ventricular dysfunction after myocardial infarction reduces the rate of recurrent coronary thrombosis. Thus, in the present study we investigated the influence of angiotensin-converting enzyme inhibitors (ACE-Is) on experimental venous thrombosis in normotensive rats and the involvement of NO and PGI2 in this effect. Animals were treated with captopril (1.5, 5 or 25 mg/kg twice daily, CAP), enalapril (15 mg/kg once daily, ENA) or distilled water for 10 days, per os. After ligation of the vena cava the thrombus weight decreased in both CAP and ENA treated rats. The effect was most pronounced in animals given the highest dose of CAP (p<0.0001 vs. control) and was significantly stronger than observed in ENA treated animals (CAP vs. ENA p<0.01). The mean blood pressure measured by the "tail cuff" method and platelet aggregation were not altered by either of the ACE-Is. The antithrombotic activity of CAP was reduced by indomethacin (2.5 mg/kg, s.c.) and independently by the NO-synthase inhibitor N(G)-nitro L-arginine methyl ester (3 mg/kg i.v. bolus + 3 mg/kg/h i.v. infusion, L-NAME). In the latter case CAP regained its antithrombotic properties in rats pretreated with L-Arginine (300 mg/kg i.v. + 300 mg/kg/h i.v.) before administration of L-NAME (p<0.05 vs. control). Moreover, the concomitant administration of indomethacin and L-NAME failed to completely abolish the antithrombotic action of captopril. Similar effects were observed in respect to the incidence of venous thrombosis. Our study documents a novel and important effect of ACE-Is on the vein thrombotic process and demonstrates the involvement of NO and PGI2 in this phenomenon.
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PMID:Nitric oxide and prostacyclin are involved in antithrombotic action of captopril in venous thrombosis in rats. 965 49

After myocardial infarction (MI), nitric oxide (NO)-mediated vasorelaxation is attenuated in both conduit and resistance arteries. To determine if the attenuated vasorelaxation after MI is due to downregulation of eNOS protein, pharmacological, immunoblotting, and gene transfer of eNOS were performed in rats 3 weeks after MI. Gene transfer was accomplished using a "first-generation" serotype 5, replication-deficient, adenoviral vector (1.2 x 10(9) pfus) containing eNOS cDNA in the hindlimb vasculature for 30 min. Five days after infection, overexpression of eNOS protein was confirmed by immunohistochemical staining and immunoblotting. Recombinant gene expression was localized primarily to the vascular endothelial cells. After MI, eNOS protein level decreased (3.3 +/- 0.9 vs 2.1 +/- 0.8 intensity units/microg protein, n=6, P<0.05); after gene transfer it increased (P<0.05) two-fold to 4.3 +/- 1.2 intensity units/microg protein, n=5. There were no changes in hemodynamics in MI rats transfected with eNOS. Acetylcholine (ACh)-stimulated vasorelaxation was decreased (P<0.05) by 30% after MI and was restored to normal with eNOS transfection. Addition of 100 microm NG-nitro-L-arginine methyl ester (L-NAME) abolished the difference between sham, MI, and MI transfected rats. L-arginine (1 mm) restored the ACh-response in MI-transfected rats toward control, but it did not eliminate the difference between MI and sham rats. We conclude that the attenuated endothelial NO-mediated vasorelaxation in the hindlimb after MI is due to a downregulation of eNOS protein and overexpression of eNOS transgene restores normal endothelial NO-mediated vasorelaxation.
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PMID:Overexpression of endothelium nitric oxide synthase reverses the diminished vasorelaxation in the hindlimb vasculature in ischemic heart failure in vivo. 1037 98

This study was designed to investigate the relationship between apoptosis (programmed cell death) and coronary arterial remodeling in spontaneously hypertensive rats (SHR) following prolonged nitric oxide synthesis inhibition. In addition, we evaluated whether the development of coronary arterial smooth muscular cell apoptosis was related to hemodynamics or to vascular hypertrophy. Three groups of 20-week-old male SHR were investigated: controls, and two groups that received two doses of N(G)-nitro-L arginine (L-NAME, 50 mg/L and 80 mg/L) each for 3 weeks. Mean arterial pressure and total peripheral resistance index increased whereas cardiac index diminished with L-NAME. Pathohistological study demonstrated increased pericardiac fibrosis and coronary arterial injury score in the L-NAME group in a dose-dependent manner. The high dose of L-NAME (Group 3) produced myocardial infarction in 78% of the rats. The wall:lumen ratio of epicardial coronary arteries was greater in L-NAME treated SHR (0.23+/-0.02 versus 0.16+/-0.02; P<0.05) and was associated with markedly increased apoptosis (15.3+/-6 versus 1. 9+/-1; P<0.05) without smooth muscle cell proliferation (PCNA positive cells). Apoptosis occurred predominantly in hypertrophic coronary arterial smooth muscular cells; myocardial infarction and ventricular fibrosis were exacerbated by impaired hemodynamics induced by L-NAME. These data suggest that coronary endothelial dysfunction and myocardial ischemic disease induced by L-NAME were responsible for apoptosis of coronary arterial smooth muscle cells, myocardial fibrosis, and infarction, all pathological findings that are consistent with what may be found in clinical hypertensive heart disease.
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PMID:Apoptosis, coronary arterial remodeling, and myocardial infarction after nitric oxide inhibition in SHR. 1052 35

Adrenomedullin (ADM) is a vasodilator produced by vascular endothelium and smooth muscle cells. Although plasma ADM levels are increased in patients with hypertension, heart failure, and myocardial infarction, little information exists regarding the microvascular response to ADM in the human heart. In the present study we tested the hypothesis that ADM produces coronary arteriolar dilation in humans and examined the mechanism of this dilation. Human coronary arterioles were dissected and cannulated with micropipettes. Internal diameter was measured by video microscopy. In vessels constricted with ACh, the diameter response to cumulative doses of ADM (10(-12)-10(-7) M) was measured in the presence and absence of human ADM-(22-52), calcitonin gene-related peptide-(8-37), N(omega)-nitro-L-arginine methyl ester (L-NAME), indomethacin (Indo), (1)H-[1,2,4]oxadiazolo-[4,3-a]quinoxalin-1-one, SQ-22536, or KCl (60 mM). ADM dilated human coronary arterioles through specific ADM receptors (maximum dilation = 69 +/- 11%). L-NAME or N-monomethyl-L-arginine attenuated dilation to ADM (for L-NAME, maximum dilation = 66 +/- 7 vs. 41 +/- 13%, P < 0.05). Thus the mechanism of ADM-induced dilation involves generation of nitric oxide. However, neither (1)H-[1,2,4]oxadiazolo-[4, 3-a]quinoxalin-1-one, SQ-22536, nor Indo alone altered dilation to ADM. High concentrations of KCl blocked dilation to ADM. The magnitude of ADM dilation was reduced in subjects with hypertension. We propose that, in human coronary arterioles, ADM elicits vasodilation in part through production of nitric oxide and in part through activation of K(+) channels, with little contribution from adenylyl cyclase. The former dilator mechanism is independent of the more traditional pathway involving activation of soluble guanylate cyclase.
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PMID:Human coronary arteriolar dilation to adrenomedullin: role of nitric oxide and K(+) channels. 1108 13

L-Arginine crosses the cell membrane primarily through the system y(+) transporter. The aim of this study was to investigate the role of L-arginine transport in nitric oxide (NO) production in aortas of rats with heart failure induced by myocardial infarction. Tumor necrosis factor-alpha levels in aortas of rats with heart failure were six times higher than in sham rats (P < 0.01). L-Arginine uptake was increased in aortas of rats with heart failure compared with sham rats (P < 0.01). Cationic amino acid transporter-2B and inducible (i) nitric oxide synthase (NOS) expression were increased in aortas of rats with heart failure compared with sham rats (P < 0.05). Aortic strips from rats with heart failure treated with L-arginine but not D-arginine increased NO production (P < 0.05). The effect of L-arginine on NO production was blocked by L-lysine, a basic amino acid that shares the same system y(+) transporter with L-arginine, and by the NOS inhibitor N(G)-nitro-L-arginine methyl ester (L-NAME). Treatment with L-lysine and L-NAME in vivo decreased plasma nitrate and nitrite levels in rats with heart failure (P < 0.05). Our data demonstrate that NO production is dependent on iNOS activity and L-arginine uptake and suggest that L-arginine transport plays an important role in enhanced NO production in heart failure.
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PMID:Increased L-arginine uptake and inducible nitric oxide synthase activity in aortas of rats with heart failure. 1115 87

Nitric oxide (NO) donors are known to induce both delayed cardioprotection and myocardial heat stress protein (HSP) expression. Moreover, heat stress (HS), which also protects myocardium against ischaemic damages, is associated with a NO release. Therefore, we have investigated the implication of NO in HS-induced resistance to myocardial infarction, in the isolated rat heart model. Rats were divided in six groups (n=10 in each group), subjected or not to heat stress (42 degrees C internal temperature, 15 min) and treated or not with nitro-L-arginine-methylester (L-NAME) a non-selective inhibitor of NO synthase isoforms, or L-N(6)-(1-imino-ethyl)lysine (L-NIL), a selective inhibitor of the inducible NO synthase. Twenty-four hours after heat stress, their hearts were isolated, retrogradely perfused, and subjected to a 30-min occlusion of the left coronary artery followed by 120 min of reperfusion. Infarct-to-risk ratio was significantly reduced in HS (18.7+/-1.6%) compared to Sham (33.0+/-1.7%) hearts. This effect was abolished in L-NAME-treated (41.7+/-3.1% in HS+L-NAME vs 35.2+/-3.0% in Sham+L-NAME ) and L-NIL-treated (36.1+/-3.4% in HS+L-NIL vs 42.1+/-4.6% in Sham+L-NIL) groups. Immunohistochemical analysis of myocardial HSP 27 and 72 showed an HS-induced increase of these proteins, which was not modified by L-NAME pretreatment. We conclude that NO synthases, and in particular the inducible isoform, appear to play a role in the heat stress-induced cardioprotection, independently of HSP 27 and 72 levels. Further investigations are required to elucidate the precise role of HSPs in this adaptive response.
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PMID:Role of nitric oxide synthases in the infarct size-reducing effect conferred by heat stress in isolated rat hearts. 1130 57

Cardiac endothelin-1 (ET-1) levels and ET receptor expression are increased in congestive heart failure (CHF). In order to determine whether this results in increased responsiveness of ET-A or ET-B receptors to ET-1, we evaluated the contractile effects of ET-1 in isolated papillary muscles isolated from hearts of control rats and from rats 4 weeks post myocardial infarction (MI) having received no therapy or chronic quinapril therapy. The ET-1 dose-response was biphasic in normal muscles. The use of the selective ET-A receptor antagonist BQ123 and the selective ET-B receptor antagonist BQ788 revealed that the initial decrease in tension was the result of ET-B receptor stimulation. Blockade of nitric oxide (NO) production with L-NAME abolished the initial decrease in tension. MI resulted in CHF that was partially reversed by quinapril. In MI, the positive inotropic effects of ET-1 were enhanced due to the loss of the initial ET-B receptor mediated decrease in tension, as well as an increase in the positive inotropic effects of ET-A receptors. This was associated with an increase in ET-A and ET-B receptor mRNA and a decrease in cardiac ecNOS protein. Four weeks of therapy with quinapril attenuated the positive inotropic effects of ET-1 and prevented the increase in ET-A receptor mRNA. Although quinapril did not restore the effects of ET-B receptor stimulation or prevent the increase in ET-B mRNA, it did restore cardiac ecNOS protein expression. Thus, the inotropic response to ET-1 is biphasic due to an overall positive inotropic effect of ET-A receptor stimulation and an ET-B receptor mediated decrease in contractility at low ET-1 concentrations which appears to be mediated by cardiac ecNOS (NO). In post-MI CHF, responsiveness to ET-A receptors increases and the ET-B mediated negative inotropic response is lost despite an increase in both receptor subtypes. Quinapril therapy attenuates these effects and normalises cardiac ecNOS protein.
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PMID:Myocardial contractile responsiveness to endothelin-1 in the post-infarction rat model of heart failure: effects of chronic quinapril. 1170 46

Hyperhomocysteinemia (HHcy) is a newly recognized risk factor for myocardial infarction, however, the effect of HHcy on endothelium-dependent flow-induced dilation of coronary arteries is not known. Thus, changes in diameter of small intramural coronary arteries (diameter, approximately 145 microm) isolated from control rats and rats with methionine diet-induced HHcy were investigated by videomicroscopy. Increases in intraluminal flow (from 0 to 40 microl/min) elicited dilations of control vessels (maximum, 25 +/- 2 microm), responses that were absent in HHcy arteries. The nitric oxide (NO) synthase inhibitor L-NAME inhibited flow-induced dilation of control coronaries, whereas it had no effect on responses of HHcy arteries. Dilations of control and HHcy arteries to the NO donor sodium nitroprusside were not different. Responses to flow in HHcy coronary arteries were unaffected by administration of L-arginine or the prostaglandin H(2)/thromboxane A(2) receptor antagonist SQ 29,548. However, in the presence of superoxide dismutase (plus catalase) or the superoxide scavenger Tiron increases in flow elicited L-NAME-sensitive dilations of HHcy coronaries (maximum, 18 +/- 5 microm). Also, superoxide dismutase significantly reduced the enhanced superoxide production of HHcy coronaries (measured by the lucigenin chemiluminescence method). Single vessel Western blotting showed an increased tyrosine nitrosation (a stable biomarker of tissue peroxynitrite formation) in HHcy coronaries. Also, extensive prevalence of 3-nitrotyrosine immunoreactivity was observed in HHcy coronaries that was confined primarily to the subendothelial layers of smooth muscle. We propose that in HHcy an increased level of superoxide scavenges NO forming peroxynitrite, which increases protein nitrosation. The reduced bioavailability of NO impairs flow-induced dilations of coronary arteries, which may contribute to the development of coronary atherosclerosis and ischemic heart disease.
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PMID:Impaired nitric oxide-mediated flow-induced coronary dilation in hyperhomocysteinemia: morphological and functional evidence for increased peroxynitrite formation. 1210 99


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