UMLS:C0406810 - FACTA Search

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)

1. Myocardial dysfunction during septic shock is associated with enhanced production of cytokines such as interleukin-1 beta (IL-1 beta) and tumour necrosis factor-alpha (TNF-alpha). These cytokines depress cardiac mechanical function by a mechanism which is not well defined. 2. Bacterial endotoxin or cytokines cause the expression of Ca(2+)-independent nitric oxide (NO) synthase in cardiac myocytes, vascular endothelial cells and endocardial endothelial cells, causing enhanced production of NO. As NO has negative inotropic actions on cardiac muscle, we tested the sum effects of IL-1 beta plus TNF-alpha in the intact heart to determine whether enhanced expression of NO synthase activity in the cells that comprise the heart is involved in cardiac depression associated with cytokine stimulation. 3. Rat isolated working hearts perfused with IL-1 beta plus TNF-alpha showed a markedly greater depression in contractile function, measured as cardiac work, after 2 h of perfusion compared with time-matched control hearts. The depressant action of IL-1 beta plus TNF-alpha was first apparent after 1 h of perfusion; no early (15 min) cardiac depressant actions were seen. 4. The competitive inhibitor of Ca(2+)-dependent and Ca(2+)-independent NO synthases, NG-nitro-L-arginine methyl ester (L-NAME, 3 microM) when given concurrently with IL-1 beta plus TNF-alpha prevented the loss in contractile function such that these hearts after 2 h of perfusion had similar function to time-matched controls. L-NAME did not acutely reverse the loss of contractile function in hearts exposed for 2 h to IL-1 beta plus TNF-alpha. The protective action of L-NAME in the presence of cytokines was concentration-dependent and was not seen at a higher concentration (10 micro M) due to the significant reduction in coronary flow observed at this concentration.5. In contrast, when L-NAME (3 micro M) was given in the absence of IL-l beta plus TNF-alpha it depressed contractile function over the 2 h perfusion period by significantly reducing coronary flow.6. Inhibition of protein synthesis with cycloheximide (Cx) abolished the loss in function that occurred over 2h in both control and IL-1 beta plus TNF-a-treated hearts.7. Inducible, Ca2+-independent NO synthase activity was not observed in freshly isolated hearts but was observed in control hearts perfused for 2 h in vitro and was doubled in hearts perfused with IL-1 beta plus TNF-a. Cx prevented the expression of Ca2+-independent NO synthase in both control and cytokine-treated hearts.8. In summary, these results suggest that the depression of myocardial function by IL-l beta plus TNF-alpha is mediated, at least in part, by induction of Ca2+-independent NO synthase activity in the heart.
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PMID:The role of nitric oxide in cardiac depression induced by interleukin-1 beta and tumour necrosis factor-alpha. 753 96

Endocardial cells, like endothelial cells, release nitric oxide (NO) and may play a role in modulating the contractility of cardiac muscle. We have studied the effects of NG-nitro-L-arginine methyl ester (L-NAME), a selective NO synthase inhibitor, on basal and volume expansion-induced secretion of two cardiac hormones, atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP), in vivo. In conscious chronically cannulated rats, bolus injection of L-NAME at doses of 1, 3, and 10 mg/kg, iv, caused a dose-dependent increase in mean arterial pressure and sustained bradycardia, whereas right atrial pressure remained unchanged. The hemodynamic effects of L-NAME were reversed by simultaneous administration of L-arginine, a precursor of NO. Administration of 3 and 10 mg/kg L-NAME alone increased plasma levels of immunoreactive ANP (IR-ANP) from 30 +/- 5 to 52 +/- 9 pmol/liter and from 38 +/- 6 to 91 +/- 16 pmol/liter (P < 0.01), respectively, but had no effect on plasma levels of immunoreactive BNP (IR-BNP). The increase in plasma IR-ANP concentration in response to L-NAME infusions showed a positive linear correlation (P < 0.01) with the increase in mean arterial pressure and a negative correlation (P < 0.01) with the changes in heart rate. Acute volume expansion with 0.9% saline in conscious animals resulted in a 3.2-fold increase in plasma IR-ANP levels (from 35 +/- 7 to 113 +/- 15 pmol/liter; P < 0.01), but plasma IR-BNP levels did not change. In the rats pretreated with L-NAME, the relation between the changes from control in plasma IR-ANP and right atrial pressure shifted to the left; the absolute increases corresponding to the 3 mm Hg increase in right atrial pressure were 66 +/- 13, 76 +/- 15, 135 +/- 33, and 148 +/- 24 pmol/liter in the control and 1 mg/kg L-NAME, 3 mg/kg L-NAME-, and 10 mg/kg L-NAME-treated groups, respectively. The combined infusion of L-NAME and L-arginine attenuated the L-NAME-induced increase in ANP release. Our results show that L-NAME increases basal plasma IR-ANP levels and enhances stretch-induced ANP release, suggesting that secretion of ANP in response to volume load may be modulated by the locally released nitric oxide from the endothelium. Further, acute regulation of BNP secretion in response to inhibition of nitric oxide synthase and volume load differs from that of ANP.
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PMID:Role of nitric oxide on cardiac hormone secretion: effect of NG-nitro-L-arginine methyl ester on atrial natriuretic peptide and brain natriuretic peptide release. 786 78

1. Coronary vascular tone is a vital factor that regulates the delivery of oxygen to cardiac muscle. We tested the hypothesis that basal coronary tone may depend on the release of an endogenous vasoconstrictor peptide, endothelin (ET). 2. Using an isolated, Krebs solution-perfused rat heart we measured the changes in coronary flow following the administration over a 30 min period of the ET antagonists Ro61-0612 (mixed ETA/ETB), PD155080 (ETA) and BQ788 (ETB). 3. In a second series of experiments, hearts were randomly assigned to perfusion with plain Krebs solution, or with Krebs solution to which L-NAME and/or indomethacin had been added. The effect on coronary flow following the addition of Ro61-0612 was then measured. 4. Perfusion with Ro61-0612 (10-4 M) alone increased coronary flow by 57.8 % vs. control (P = 0.00001). PD155080 (10-4 M) increased coronary flow by 28.9 % (P = 0.009), whereas BQ788 had no effect on coronary flow. 5. In the second series of experiments, Ro61-0612 increased coronary flow by 6.6 +/- 0.8 ml min-1 in hearts perfused with plain Krebs solution, by 3.8 +/- 0.8 ml min-1 in hearts to which both L-NAME and indomethacin had been added, by 3.3 +/- 0.7 ml min-1 in hearts to which L-NAME had been added, and by 6. 9 +/- 0.5 ml min-1 in hearts to which indomethacin had been added to the Krebs buffer. 6. In hearts perfused with Krebs solution alone, nitric oxide (NO) release into the coronary sinus increased from 219. 8 to 544.9 pmol min-1 g-1 following the addition of Ro61-0612 (P = 0. 06). There was no detectable release of NO from hearts perfused with L-NAME alone or in combination with indomethacin either before or after the addition of Ro61-0612. 7. We conclude that endogenous ET plays a role in coronary tone mediated via ETA receptors. This vasodilatation is partially due to an increase in endogenous NO release. However, a significant vasodilatation is still seen following the inhibition of NO synthesis. We propose that basal coronary tone depends on a balance between the endogenous release of vasodilators such as NO and vasoconstrictors such as ET.
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PMID:Role of endogenous endothelin in the regulation of basal coronary tone in the rat. 970 30

Insulin-like growth factor-1 (IGF-1) and insulin stimulate cardiac growth and contractility. Recent evidence suggests a relationship between essential hypertension, left ventricular hypertrophy, and circulating IGF-1 levels. Advanced age alters cardiac function in a manner similar to hypertension. The aim of this investigation was to evaluate the effects of IGF-1 and insulin on the force generating capacity of cardiac muscle in hypertension and the influence of age on this response. Contractile responses to IGF-1 and insulin were examined using papillary muscles from Wistar-Kyoto rats (WKY) and spontaneously hypertensive rats (SHR) at 10 and 25 weeks of age. Muscles were electrically stimulated at 0.5 Hz, and contractile properties, including peak tension development (PTD), time-to-peak tension, time-to-90% relaxation, and the maximal velocities of contraction and relaxation, were evaluated. PTD was similar in WKY and SHR myocardium at both age groups. At 10 weeks of age, IGF-1 (1-500 ng/ml) caused a dose-dependent increase in PTD in WKY but not SHR myocardium, whereas insulin (1-500 nM) had no effect on PTD in either group. At 25 weeks of age, the positive inotropic effect of IGF-1 was attenuated in the WKY group, and IGF-1 exerted no inotropic action in the SHR group. Pretreatment with the nitric oxide synthase inhibitor, N-omega-nitro-L-arginine methyl ester (L-NAME, 100 microM), did not alter the IGF-1-induced positive inotropic response in 10-week-old WKY myocardium, whereas it unmasked a positive inotropic action in muscles from age-matched SHR animals. At 25 weeks of age, L-NAME abolished IGF-1-induced a positive inotropic response in WKY myocardium, and did not unmask an IGF-induced inotropic response in SHR myocardium. Our results suggest that alterations in nitric oxide modulation of IGF-1-induced contraction may underlie resistance to this inotropic peptide with advancing age, and/or hypertension.
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PMID:Influence of age on inotropic response to insulin and insulin-like growth factor I in spontaneously hypertensive rats: role of nitric oxide. 1032 Jun 31

Recent studies have shown that NO acts as a negative inotrope and chronotrop in cardiac muscle. In the present study, we investigated the effects of the chronic administration of L-NAME and L -arginine on 14-week streptozotocin (STZ)-diabetic rat atria. To study these effects, we compared the alterations of inotropic and chronotropic responses to isoprenaline (ISO) on electrically-driven left atria and spontaneously beating right atria. In addition, we compared the blood pressures of rats in all groups. The chronic administration of L-arginine resulted in a significant reduction in blood pressure of the diabetic rats. On the other hand, the chronic nitric oxide synthase inhibition resulted in a significant increase in blood pressure of diabetic animals. To our findings, maximum positive inotropic responses of ISO diminished in STZ-diabetic, L-arginine and L-NAME treated diabetic groups relative to controls but neither the basal contractility of the left atria nor the pD(2)values were altered significantly in all groups. The basal atrial rate and maximum positive chronotropic responses to ISO were found to be significantly lower in treated and untreated diabetic groups, no significant changes were observed in pD(2)values. Our results demonstrate that the changes in inotropic and chronotropic responses in diabetic rat atria were not influenced by the chronic administration of L-arginine and L-NAME treatments.
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PMID:The effects of chronic L-name and L-arginine administration on beta-adrenergic responsiveness of STZ-diabetic rat atria. 1075 56

Angiogenesis is known to be triggered by various stimuli including hypertension. It was previously found that NO-deficient hypertension is accompanied by structural remodeling of the cardiac muscle and large coronary arteries. This study was aimed to examine the qualitative subcellular alterations of capillaries in the heart of the rats treated with L-NAME (40 mg/kg/day for 4 weeks). The results showed that long-lasting inhibition of NO production induced an apparent activation of fibroblast function. This was associated with enhancement of fibrotization as well as with the induction of angiogenesis. Accordingly, fibroblasts were frequently located in the vicinity of capillary pericytes, which was followed by their detachment and migration. Moreover, besides inactive or even injured capillaries, the other ones exhibited extensive proteosynthetic activity linked to capillary growth, proliferation and migration of endothelial cells. The results strongly indicate enhanced triggering of the angiogenesis in L-NAME-induced NO-deficient hypertension.
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PMID:Induction of angiogenesis in NO-deficient rat heart. 1080 7

Short-chain acyl-CoA dehydrogenase deficiency is an inherited metabolic disorder biochemically characterized by tissue accumulation of ethylmalonic (EMA) and methylsuccinic (MSA) acids and clinically by severe neurological symptoms. In the present study we investigated the in vitro effects of EMA and MSA on the activity of creatine kinase (CK) in homogenates from cerebral cortex, skeletal and cardiac muscle of rats. EMA significantly inhibited CK activity from cerebral cortex, but did not affect this activity in skeletal and cardiac muscle. Furthermore, MSA had no effect on this enzyme in all tested tissues. Glutathione (GSH), ascorbic acid and alpha-tocopherol, and the nitric oxide synthase inhibitor L-NAME, did not affect the enzyme activity per se, but GSH fully prevented the inhibitory effect of EMA when co-incubated with EMA. In contrast, alpha-tocopherol, ascorbic acid and L-NAME did not influence the inhibitory effect of the acid. The data suggest that inhibition of brain CK activity by EMA is possibly mediated by oxidation of essential groups of the enzyme, which are protected by the potent intracellular, endogenous, naturally occurring antioxidant GSH.
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PMID:Inhibition of creatine kinase activity in vitro by ethylmalonic acid in cerebral cortex of young rats. 1251 16

Short-chain acyl-CoA dehydrogenase (SCAD) deficiency is an inherited metabolic disorder biochemically characterized by tissue accumulation of predominantly ethylmalonic acid (EMA) and clinically by neurological dysfunction. In the present study we investigated the in vitro effects of EMA on the activity of the mitochondrial (Mi-CK) and cytosolic (Cy-CK) creatine kinase isoforms from cerebral cortex, skeletal muscle, and cardiac muscle of young rats. CK activities were measured in the mitochondrial and cytosolic fractions prepared from whole-tissue homogenates of 30-day-old Wistar rats. The acid was added to the incubation medium at concentrations ranging from 0.5 to 2.5 mM. EMA had no effect on Cy-CK activity, but significantly inhibited the activity of Mi-CK at 1.0 mM and higher concentrations in the brain. In contrast, both Mi-CK and Cy-CK from skeletal muscle and cardiac muscle were not affected by the metabolite. We also evaluated the effect of the antioxidants glutathione (GSH), ascorbic acid, and alpha-tocopherol and the nitric oxide synthase inhibitor L-NAME on the inhibitory action of EMA on cerebral cortex Mi-CK activity. We observed that the drugs did not modify Mi-CK activity per se, but GSH and ascorbic acid prevented the inhibitory effect of EMA when co-incubated with the acid. In contrast, L-NAME and alpha-tocopherol could not revert the inhibition provoked by EMA on Mi-CK activity. Considering the importance of CK for brain energy homeostasis, it is proposed that the inhibition of Mi-CK activity may be associated to the neurological symptoms characteristic of SCAD deficiency.
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PMID:Ethylmalonic acid inhibits mitochondrial creatine kinase activity from cerebral cortex of young rats in vitro. 1271 29

AMP-activated protein kinase (AMPK) independently increases glucose and long-chain fatty acid (LCFA) utilization in isolated cardiac muscle preparations. Recent studies indicate this may be due to AMPK-induced phosphorylation and activation of nitric oxide synthase (NOS). Given this, the aim of the present study was to assess the effects of AMPK stimulation by 5-aminoimidazole-4-carboxamide-1-beta-D-ribofuranoside (AICAR; 10 mg.kg(-1).min(-1)) on glucose and LCFA utilization in cardiac muscle and to determine the NOS dependence of any observed effects. Catheters were chronically implanted in a carotid artery and jugular vein of Sprague-Dawley rats. After 4 days of recovery, conscious, unrestrained rats were given either water or water containing 1 mg/ml nitro-L-arginine methyl ester (L-NAME) for 2.5 days. After an overnight fast, rats underwent one of four protocols: saline, AICAR, AICAR + L-NAME, or AICAR + Intralipid (20%, 0.02 ml.kg(-1).min(-1)). Glucose was clamped at approximately 6.5 mM in all groups, and an intravenous bolus of 2-deoxy-[(3)H]glucose and [(125)I]-15-(p-iodophenyl)-3-R,S-methylpentadecanoic acid was administered to obtain indexes of glucose and LCFA uptake and clearance. Despite AMPK activation, as evidenced by acetyl-CoA carboxylase (Ser(221)) and AMPK phosphorylation (Thr(172)), AICAR increased cardiac LCFA but not glucose clearance. L-NAME + AICAR established that this effect was not due to NOS activation, and AICAR + Intralipid showed that increased cardiac LCFA clearance was not LCFA-concentration dependent. These results demonstrate that, in vivo, AMPK stimulation increases LCFA but not glucose clearance by a NOS-independent mechanism.
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PMID:AMPK stimulation increases LCFA but not glucose clearance in cardiac muscle in vivo. 1526 60

The role of metabolic factors derived from cardiac muscle in the development of reactive hyperemia after brief occlusions of the coronary circulation seems to be well established. However, the contribution of occlusion-induced changes in hemodynamic forces to eliciting reactive hyperemia is less known. We hypothesized that in isolated coronary arterioles changes in intraluminal pressure and flow, during and after release of occlusion (O/R), themselves via activating intrinsic mechanosensitive mechanisms, elicit release of vasoactive factors resulting in reactive dilations. Thus in isolated coronary arterioles (diameter: 88 +/- 8 microm) changes in diameter to changes in pressure or pressure plus flow (P+F) during and after a brief period (30, 60, and 120 s) of O/R of cannulating tube were measured by videomicroscopy. In response to both types of O/R, diameter first decreased, then, subsequently increased during occlusions. When only pressure was changed (from 80-10-80 mmHg), after release of occlusion, peak dilations increased as a function of the duration of occlusions. After flow was established (30 microl/min), O/R elicited changes in both pressure and flow (from 80-10-80 mmHg and from 0 to 30 microl/min). In these conditions, after the release of occlusions, not only the peak but also the duration of reactive dilation increased significantly as a function of the length of occlusions. The dilations during, and peak dilations after occlusions both in pressure and P+F protocols were significantly reduced by the inhibition of NO synthase with Nomega-nitro-L-arginine-methyl-ester (L-NAME) or by endothelium removal, whereas duration of postocclusion dilations were reduced by L-NAME or by endothelium removal only in P+F protocols. Furthermore, in both protocols, catalase significantly reduced the peak but not the duration of reactive dilations. Thus, mechanosensitive mechanisms that are sensitive to deformation, pressure, stretch, and wall shear stress elicit release of NO and H2O2, resulting in reactive dilation of isolated coronary arterioles.
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PMID:Nitric oxide and H2O2 contribute to reactive dilation of isolated coronary arterioles. 1531 7

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