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)

To evaluate whether maximal oxygen consumption (VO2 max) measured by cardiopulmonary exercise test (CAR-PET) reflects cardiac reserve in patients with congestive heart failure (CHF), supine bicycle CAR-PET and exercise hemodynamic measurements were performed simultaneously in 12 patients with CHF of NYHA II-IV. With increasing workload, VO2 and cardiac output elevated gradually, then plateaued, demonstrating that patients with CHF could reach VO2max. According to VO2max, patients were divided into 4 classes: including 2 patients of class A (VO2max: 24.5 +/- 2.29 ml.min-1/kg, mean +/- s mean), 3 of B (17.6 +/- 1.37 ml.min-1/kg), 5 of C (13.6 +/- 0.66 ml.min-1/kg) and 2 of D (6.5 +/- 1.64 ml.min-1/kg). Maximal cardiac indices were 8.79 +/- 2.35 L.min-1/m2 in class A, 5.82 +/- 0.97 L.min-1/m2 in B, 3.53 +/- 0.95 L.min-1/m2 in C and 2.21 +/- 1.56 L.min-1/m2 in D. No significant correlation between supine resting hemodynamic parameters and VO2max/kg was found, suggesting that exercise tolerance could not be predicted by the measurement of resting cardiac performance. Furthermore, VO2max correlated poorly with NYHA classification in these patients. However, cardiac output correlated linearly with VO2 during exercise, suggesting that VO2 max/kg is a good predictor for cardiac reserve in CHF(CI = 0.6809 +/- 0.2748 VO2/kg, n = 40, r = 0.84, P < 0.0001; CO = 1.1618 +/- 7.9065 VO2, n = 40, r = 0.84, P < 0.0001). The results also showed that VO2max/kg did not correlate with the changes of pulmonary capillary wedge pressure (PCWP), indicating that exercise tolerance in CHF depends more on cardiac output than on ventilatory consequence of pulmonary congestion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Cardiopulmonary exercise test for evaluating cardiac reserve in chronic congestive heart failure]. 128 27

Neurohumoral changes influencing peripheral vascular resistance play a major role in congestive heart failure (CHF). We studied vascular function in 1-year-old cardiomyopathic syrian hamsters with pulmonary congestion and age-matched control hamsters. Aorta and mesenteric resistance arteries were suspended in organ chambers and myographs, respectively, for isometric tension recording. In aorta and mesenteric resistance arteries, contractile responses to norepinephrine (NE) were comparable in cardiomyopathic hamsters and controls. After inhibition of nitric oxide (NO) formation with nitro-L-arginine methylester (L-NAME), contractions to NE were enhanced in aorta of cardiomyopathic hamsters (p < 0.05); no effect was noted in controls or mesenteric resistance arteries. Low doses of endothelin-1 (ET-1 10(-10)-10(-9) M) caused stronger contractions in aorta of cardiomyopathic hamsters as compared with controls (p < 0.05). The sensitivity and maximal contraction to ET were more pronounced in mesenteric resistance arteries as compared with aorta in both cardiomyopathic and control hamsters (p < 0.05-0.001). In both aorta and mesenteric resistance arteries, acetylcholine (ACh 10(-9)-10(-5) M) induced concentration-dependent relaxation, which was prevented by L-NAME (p < 0.001). Maximal endothelium-dependent relaxation was more pronounced in aorta of cardiomyopathic hamsters (p < 0.05), but not different in mesenteric resistance arteries.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activity of the L-arginine/nitric oxide pathway and endothelin-1 in experimental heart failure. 752 83

The arterial wall is structurally and functionally compartmentalized. Each compartment is characterized by a specific cell type and by specific interactions. The endothelial compartment interacts with circulating blood, and the adventitial compartment with the surrounding tissue. The media, which contains the effector smooth muscle cells, perceives centrifugal messages from the endothelium and centripetal messages from metabolically active tissues, from adventitial nerve endings, and from peptides produced in the interstitium. The degree of contraction or relaxation of the vascular smooth muscle cells characterizes the general vasomotor tone, which governs the local blood pressure level and distributes the flow according to metabolic needs. The main physiologic vasoactive agent is nitric oxide (NO) and is produced by the endothelium. In disease states, other agents can become predominant in centrifugal parietal messages. NO is produced by type 3 NO synthase, an enzyme that is constitutively expressed by endothelial cells. The activity of this enzyme on its substrate, arginine, is regulated by the concentration of free calcium and by intracellular phosphorylations. Several peptides, including receptors, are coupled to the phospholipase C pathway in the endothelial cell; endothelial growth factors such as FGF and VEGF, enhance the activity of endothelial NO synthase. However, the main physiologic factor responsible for endothelial NO synthase activation is the shearing stress produced by friction of the flowing blood against the immobile vessel wall. This shearing stress constantly adjusts the diameter of conductance vessels to peripheral metabolic needs. Expression of endothelial NO synthase is modulated by the chronic effects of the same agents. NO has a vasodilating effect that is mediated by the generation of cyclic GMP. Cyclic GMP and cyclic AMP are the main second messengers in smooth muscle cell relaxation. NO binds to a heme-protein, soluble guanylate cyclase, that converts GMP to cyclic GMP. Kinase-G is the main target for cyclic GMP in the smooth muscle cell. Kinase-G phosphorylates phospholambans and releases the repumping activity of calcium ATPase. More importantly, kinase-G phosphorylates the protein G that links seven-domain membrane-spanning receptors to phospholipases, thus inhibiting coupling between the ligand-receptors interaction and the intracellular signaling process that leads to contraction. NO can relax the smooth muscle cell only in the presence of a preexisting contractile tone. Conversely, absence of NO enhances the preexisting contractile tone. All these notions can be analyzed via the experimental model of L-NAME-induced chronic NO synthase blockade in rats. The decrease in parietal cyclic GMP seen in this model is associated with an increase in contractile tone that translates into systemic arterial hypertension. The increase in contractile tone can be blocked by renin-angiotensin system inhibitors. Chronic blockade of NO production rapidly induces vascular wall phenotype changes that lead to renal failure, ischemic stroke, and fibrosis of target organs. These phenotype changes may be related to the increase in the oxidative potential of the various types of parietal cells, as suggested by the abnormal presence of inflammatory cells and by the increased expression of inflammation mediators including cyclooxygenase II, inducible NO synthase, and adhesion molecules such as ICAM and VCAM. This model therefore holds promise for elucidating interactions between NO and arteriosclerosis. NO system dysfunction is also seen in other cardiovascular disorders, including congestive heart failure.
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PMID:[Role of endothelial nitric oxide in the regulation of the vasomotor system]. 976 14

The aim of the present study was to test the hypothesis that a decrease in central nitric oxide (NO) is involved in the enhancement of the central gain of the cardiac "sympathetic afferent" reflex (CSAR) in dogs with congestive heart failure (CHF). Thirteen dogs with pacing-induced CHF and sixteen sham dogs were anesthetized with alpha-chloralose and were baroreceptor denervated and vagotomized. The CSAR was evoked by stimulation of the left ventral ansa. A lateral cerebroventricular cannula was inserted to deliver sodium nitroprusside (SNP) and NG-nitro-L-arginine methyl ester (L-NAME). Arterial pressure, heart rate, and renal sympathetic nerve activity (RSNA) were recorded at baseline and during elicitation of the CSAR. We found that 1) the responses of RSNA to stimulation were augmented in dogs with CHF, 2) SNP depressed the increase in RSNA induced by the CSAR in CHF dogs but had no effect in sham dogs, and 3) L-NAME potentiated the CSAR-induced increase in RSNA in sham dogs but not in dogs with CHF. We conclude that reduced central NO is involved in the enhanced central gain of the CSAR in CHF dogs.
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PMID:Reduced NO enhances the central gain of cardiac sympathetic afferent reflex in dogs with heart failure. 988 12

Several studies have recently suggested a principal role of adenosine in the pathogenesis of radiocontrast media-induced nephropathy. In the present experiments, we therefore investigated the renal protective effects of 8-(noradamantan-3-yl)-1,3-dipropylxanthine (KW-3902), a potent and selective adenosine A1 receptor antagonist, on radiocontrast media-induced nephropathy in the model of the N-pi-nitro-L-arginine methyl ester (L-NAME) hypertensive, chronic nitric oxide (NO)-depleted rat. Chronic NO depletion was induced by pretreatment with L-NAME, 50 mg/ml, added to drinking water for 8 weeks. Clearance experiments were performed in anesthetized rats and glomerular filtration rate was assessed prior to and following the application of high osmolar radiocontrast media (sodium diatrizoate, 3 ml/kg, i.v.) or an equivalent volume of isoosmolar mannitol to examine the role of hyperosmolarity in radiocontrast media-induced nephropathy. Subgroups received KW-3902 (0.1 mg/kg, i.v.), 20 min prior to radiocontrast media administration. Age-matched, untreated rats served as controls. Radiocontrast media application induced a significant decline in glomerular filtration rate in L-NAME hypertensive animals, whereas no effects were observed in control rats. KW-3902 fully prevented the drop in glomerular filtration rate in response to radiocontrast media in L-NAME hypertensive rats. No renal hemodynamic alterations were observed in mannitol-infused animals. The present experiments demonstrate that the decrease in glomerular filtration rate following radiocontrast media occurred independently of the osmotic load, and that KW-3902 effectively prevented the radiocontrast media-induced deterioration in renal function. KW-3902 may be especially beneficial in patients at high risk for developing acute renal failure following radiocontrast media application or in patients in which extracellular fluid volume expansion is limited by clinical conditions such as congestive heart failure.
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PMID:The selective adenosine A1 receptor antagonist KW-3902 prevents radiocontrast media-induced nephropathy in rats with chronic nitric oxide deficiency. 1123 Oct

We investigated the role of nitric oxide (NO) in the modulation of renal O2 consumption in dogs with pacing-induced congestive heart failure (CHF). O2 consumption in the renal cortex (C) and medulla (M) of normal dogs and dogs with CHF was measured under control conditions and in the presence of increasing concentrations of three stimulators of NO production, bradykinin, ramiprilat, and amlodipine, or the NO donor S-nitroso-N-acetylpenicillamine (SNAP). Baseline O2 consumption (nmol O2/min per gram) was similar in the CHF group (C: 637+/-65; M: 618+/-83) and the control group (C: 601+/-58, M: 534+/-55). In normal dogs, bradykinin (10(-4) M), ramiprilat (10(-4) M), amlodipine (10(-5) M) and SNAP (10(-4) M) all significantly reduced O2 consumption in the cortex (-31.5+/-3.5%, -33+/-2.5%, -28.4+/-4.9%, -49.3+/-3.1%) and medulla (-26.9+/-2.2%, -31.4+/-2.2%, -23.1+/-1.3%, -48.3+/-4%), respectively. The responses to bradykinin, ramiprilat and amlodipine were significantly attenuated in dogs with CHF (C: -22.2+/-1.8%, -20.1+/-2.6%, -14.2+/-2.5%; M: -20.8+/-1.7%, -17.8+/-1.9%, -15.6+/-2.6%, respectively; p < 0.05). The responses in dogs with CHF were not altered by NO synthase blockade with L-NAME (10(-4) M). In contrast, in normal kidneys treatment with L-NAME significantly attenuated the response to all three stimuli of NO production. Responses to SNAP were not affected either by CHF or L-NAME. These data indicate that the role of NO production in the modulation of tissue O2 consumption in the kidney is impaired after the development of pacing-induced heart failure in dogs.
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PMID:Modulation of renal oxygen consumption by nitric oxide is impaired after development of congestive heart failure in dogs. 1124 20

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

It was previously demonstrated that administration of the nitric oxide synthase inhibitor NG-nitro-l-arginine methyl ester (l-NAME) aggravated viral myocarditis in mice. In the current study, the effects of l-arginine, a precursor of nitric oxide, on congestive heart failure (CHF) in myocarditis were evaluated. Dietary l-arginine and l-arginine plus l-NAME (l-arginine + l-NAME group) were administered to encephalomyocarditis virus-infected BALB/c mice over 4 weeks (experiment I) and to encephalomyocarditis virus-infected DBA/2 mice from the 4th through 12th weeks after the virus inoculation (experiment II). An infected control was prepared in each experiment. In experiment I, survival was higher in the l-arginine group compared with the other two groups, and cardiac damage was less, as was incidence of CHF. In addition, extravasated fibrin was less prominent in the l-arginine group. Plasma concentrations of l-arginine and nitric oxide were elevated in the l-arginine group. In experiment II, plasma cardiomyopathic lesions in the l-arginine group were less prominent and were associated with lower plasma catecholamine and lower myocardial collagen concentrations compared with the other two groups. l-arginine treatment may be effective in preventing the development of CHF in viral myocarditis by modifying postmyocarditic architectural remodeling.
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PMID:Oral administration of L-arginine prevents congestive heart failure in murine viral myocarditis. 1207 71

In clinical practice, interferon-alpha (IFN-alpha) has been widely used as an antiviral, antitumor and immunomodulatory agent. However, its intravenous administration at large doses is associated with significant cardiovascular side-effects such as congestive heart failure and myocardial infarction. But the direct cardiovascular effects of IFN-alpha and the underlying mechanisms are not clear. In this study, we investigated the effects of IFN-alpha on contractility in Langendorff perfused rat hearts and isolated rat papillary muscles. The results showed that IFN-alpha induced a concentration-dependent negative inotropic effect in the isolated heart and papillary muscle. Pretreatment with L-NAME, a nitric oxide synthase inhibitor, attenuated this inotropic effect. Furthermore, in isolated papillary muscles IFN-alpha decreased the responsiveness to the beta-agonist isoproterenol, which was also attenuated by pretreatment with L-NAME. In conclusion, these results show that IFN-alpha induced a negative inotropic effect in normal and beta-adrenergic activated cardiac muscle at least partly via nitric oxide (NO).
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PMID:Nitric oxide participates in the negative inotropic effect of interferon-alpha in rat cardiac muscle. 1728 57

Nuclear factor kappa B (NF-kappaB) is an important transcription factor that regulates a wide spectrum of genes including cytochrome P450 (CYP), the most important family of drug metabolizing enzymes. Therefore, in this review, we addressed the potential role of NF-kappaB in CYP regulation. We proposed three mechanisms by which NF-kappaB can regulate CYP expression and activity. First, NF-kappaB can directly regulate the expression of CYP1A1, CYP2B1/2, CYP2C11, CYP2D5, CYP2E1, CYP3A7, and CYP27B1 through binding to the promoter region of these genes. Second, NF-kappaB indirectly regulates the transcription of CYP genes through mutual repression with some nuclear receptors that are involved in CYP regulation such as AhR, CAR, GR, PXR, RXR, PPAR, FXR, and LXR. Finally, NF-kappaB can regulate CYP activity at post-transcriptional level by inducing heme oxygenase or by affecting the CYP protein stability. In addition, increased inflammatory mediators, oxidative stress, and subsequent NF-kappaB activation have been demonstrated in many conditions such as inflammatory bowel diseases, rheumatoid arthritis, psychological stress, diabetes, aging, cancer, renal diseases, and congestive heart failure. Meanwhile, there is a significant alteration of CYP expression and activity in these diseases. Therefore, we propose that NF-kappaB could be one of the links between inflammation, oxidative stress, and CYP regulation in these diseases. In conclusion, NF-kappaB plays a crucial role in the regulation of CYP through several mechanisms and this role can explain the altered CYP regulation in many conditions.
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PMID:Role of NF-kappaB in the regulation of cytochrome P450 enzymes. 1927 51


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