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:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Brain natriuretic peptide (BNP) gene expression and chronic activation of the sympathetic nervous system are characteristics of the development of heart failure. We studied the role of the beta-adrenergic signaling pathway in regulation of the human BNP (hBNP) promoter. An hBNP promoter (-1818 to +100) coupled to a luciferase reporter gene was transferred into neonatal cardiac myocytes, and luciferase activity was measured as an index of promoter activity. Isoproterenol (ISO), forskolin, and cAMP stimulated the promoter, and the beta(2)-antagonist ICI 118,551 abrogated the effect of ISO. In contrast, the protein kinase A (PKA) inhibitor H-89 failed to block the action of cAMP and ISO. Pertussis toxin (PT), which inactivates Galpha(i), inhibited ISO- and cAMP-stimulated hBNP promoter activity. The Src tyrosine kinase inhibitor PP1 and a dominant-negative mutant of the small G protein Rac also abolished the effect of ISO and cAMP. Finally, we studied the involvement of M-CAT-like binding sites in basal and inducible regulation of the hBNP promoter. Mutation of these elements decreased basal and cAMP-induced activity. These data suggest that beta-adrenergic regulation of hBNP is PKA independent, involves a Galpha(i)-activated pathway, and targets regulatory elements in the proximal BNP promoter.
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PMID:Isoproterenol and cAMP regulation of the human brain natriuretic peptide gene involves Src and Rac. 1082 15

Ischemic heart disease is more prevalent in men than in women. The remodeling of extracellular matrix, is a structural correlate of heart failure of ischemic origin and proliferation of cardiac fibroblasts is a key factor in this remodeling. We asked if proliferative response of male and female cardiac fibroblasts is differentially susceptible to hypoxia. DNA synthesis, using 3H-thymidine incorporation was compared under hypoxia (2% O2) in cardiac fibroblasts obtained from adult, age-matched male and female rat heart. In female cells DNA synthesis remained unchanged under hypoxia and this resistance was dependent on tyrosine kinase activation, as it was abolished in the presence of genistein, a tyrosine kinase inhibitor. Male cells, on the other hand, were susceptible to hypoxia and their DNA synthesis was reduced significantly (70%, (p < 0.0001). This effect was partially reversed by inhibition of tyrosine kinase. Western analysis showed a higher abundance of tyrosine phosphorylated proteins in male cells compared to female cells as well as differences in molecular weight of basal and hypoxia-induced tyrosine-phosphorylated proteins between male and female cells. The presence of estrogen (17-beta estradiol, 10 nM) altered the response of both cells to hypoxia. In female cells the combined effect of hypoxia and estrogen led to inhibition of DNA synthesis, whereas in male cells estrogen partially reversed the hypoxia-induced inhibition of DNA synthesis (37% (p < 0.01) inhibition in the presence of estrogen vs. 70% (p < 0.0001) inhibition in the absence of estrogen). The effects of estrogen in male and female cells were mediated via estrogen receptors as they were reversed by the pure anti-estrogen, ICI 182,780. Western analysis of cell lysate showed hypoxia-induced increase in the level of estrogen receptor beta in both male and female cells. Gel shift analysis showed hypoxia-induced increase in cytoplasmic ERE (estrogen response element)-binding activity and decrease in nuclear ERE-binding in male cells. In female cells cytoplasmic and nuclear ERE-binding activities remained unchanged under hypoxia. Together, these data demonstrate that while female cells are resistant to hypoxia-induced inhibition in DNA synthesis, male cells are susceptible; intracellular pathways involving tyrosine phosphorylation are involved in the response of both cells; and estrogen, via estrogen-receptor-dependent mechanisms, differentially alters the response of male and female cells to hypoxia.
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PMID:Gender-related differences in proliferative response of cardiac fibroblasts to hypoxia: effects of estrogen. 1120 52

The beta2-adrenergic receptor (beta2-AR)-mediated increase in cardiac L-type Ca2+ current (I(Ca,L)) has been documented in normal subjects. However, the role and mechanism of beta2-AR activation on I(Ca,L) in heart failure (HF) are unclear. Accordingly, we compared the effect of zinterol (ZIN), a highly selective beta2-AR agonist, on I(Ca,L) in isolated left ventricular cardiomyocytes obtained from normal control and age-matched rats with HF induced by left coronary artery ligation (4 months). I(Ca,L) was measured by using the whole-cell voltage-clamp technique. In normal myocytes, superfusion of ZIN (10(-5) M) caused a 21% increase in I(Ca,L) (9.21 +/- 0.24 versus 7.59 +/- 0.20 pA/pF) (p < 0.05). In HF myocytes, the same concentration of ZIN produced a significantly greater increase (30%) in I(Ca,L) (6.20 +/- 0.24 versus 4.75 +/- 0.17 pA/pF) (p < 0.01). This ZIN-induced increase in I(Ca,L) was further augmented in both normal and HF myocytes (normal: 59 versus 21%; HF: 71 versus 30%) after the incubation of myocytes with pertussis toxin (PTX, 2 microg/ml, 36 degrees C, 6 h). These effects were not modified by the incubation of myocytes with CGP-20712A (3 x 10(-7) M), a beta1-AR antagonist, but were abolished by pretreatment of myocytes with ICI-118551 (10(-7) M), a beta2-AR antagonist. In addition, all of the effects induced by ZIN were completely prevented in the presence of an inhibitory cAMP analog, Rp-cAMPS (100 microM, in the patch-pipette solution). In conclusion, beta2-AR activation stimulates L-type Ca2+ channels and increases I(Ca,L) in both normal and HF myocytes. In HF, beta2-AR activation-induced augmentation of I(Ca,L) was increased. These effects are likely to be mediated through a cAMP-dependent mechanism and coupled with both stimulatory G protein and PTX-sensitive G protein.
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PMID:Enhanced cardiac L-type calcium current response to beta2-adrenergic stimulation in heart failure. 1140 41

Short-term stimulation of beta-receptors is known to affect cardiac ion channels; however, the impact of longer-term stimulation on intrinsic channel function is poorly understood. To evaluate this, cultured guinea pig ventricular myocytes were exposed to isoproterenol (10 nM), vehicle, or isoproterenol plus propranolol (1 microM) for 48 h. Sustained exposure to isoproterenol decreased the density of the inward rectifier (I(K1)), slow delayed rectifier (I(Ks)), and L-type Ca2+ (I(Ca L)) currents, effects that were fully prevented by propranolol. Changes in K+ currents were prevented by the beta1-selective antagonist CGP-20712A, unaffected by the beta2-antagonist ICI-118,551, and mimicked by the membrane-permeable cAMP analog 8-bromo-cAMP. Isoproterenol did not alter the current-voltage relationship of the K+ currents but increased the density of T-type Ca2+ current (I(Ca T)) and thereby increased the proportion of the total Ca2+ current at more negative potentials. We conclude that sustained exposure to isoproterenol reduces I(K1), I(Ks), and I(Ca L) density and increases the density of I(Ca T). The direct ionic current remodeling effects of sustained beta-adrenoceptor stimulation resemble changes reported with heart failure and may be important in arrhythmogenic ionic remodeling.
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PMID:Effects of sustained beta-adrenergic stimulation on ionic currents of cultured adult guinea pig cardiomyocytes. 1183 82

Beta-adrenoceptors are important regulators of cardiac function and their characteristics are known to change in human and canine diseased myocardium. This study aimed to determine the density and subtypes of beta-adrenoceptors in the normal and failing equine ventricular myocardium. Membrane preparations of the left papillary muscles were incubated with increasing concentrations of the nonselective beta-adrenoceptor antagonist [3H]-CGP12177. Saturable and reversible binding of [3H]-CGP12177 to myocardial membranes was demonstrated with Kd values (+/- s.d.) of 0.49 +/- 0.40 and 0.43 +/- 0.22 nmol/l and Bmax values of 93.4 +/- 20.5 and 110.0 +/- 21.2 and fmol/mg protein for normal (n = 19) and heart failure (n = 10) tissues, respectively. Heart failure had no significant effect on the density of ventricular beta-adrenoceptors. The cardiac beta-adrenoceptors were further characterised by studying displacement of [3H]-CGP12177 (0.6 nmol/l) with the beta1-selective antagonists CGP20712A and the beta2-selective antagonist ICI118.551. In normal ventricular muscle, CGP20712A was 26 times more potent than ICI118.551 (Ki values 30.4 +/- 24.8 and 814.1 +/- 485.2 nmol/l, respectively). In heart failure cases, CGP 20712A curves were monophasic with a Ki value of 45.6 +/- 39.7 nmol/l. ICI 118.551 curves were biphasic in 5 horses where 11-31% of the cardiac beta-adrenoceptors had a high affinity for ICI 118.551. These data suggest that the normal equine ventricular myocardium possesses predominately beta1-adrenoceptors, with no evidence for co-existence of a significant population of beta2-adrenoceptors. The density of beta-adrenoceptors did not appear to change in heart failure, but the appearance of receptors with a high affinity for ICI118.551 may suggest that, in some cases, heart failure increases the expression of beta2-adrenoceptors in equine ventricular myocardium. This study provides an insight into the role of the adrenergic system in heart disease in the horse. Further studies in this area are warranted.
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PMID:Density and binding characteristics of beta-adrenoceptors in the normal and failing equine myocardium. 1211 16

There is an ongoing discussion on whether or not high beta(1)-adrenoceptor selectivity of beta-adrenoceptor antagonists may be favorable in the treatment of patients with heart failure. The present study compared the beta(1)-adrenoceptor selectivity of nebivolol and bisoprolol with that of carvedilol in the human myocardium, using a binding assay in conjunction with either the hydrophilic ligand (+/-)-[3H]4-(3-tertiarybutylamino-2-hydroxypropoxy)-benzimidazole-2-on HCl ([3H]CGP 12.177) or the lipophilic ligand [125I]iodocyanopindolol as radiolabeled compound. Measurements were made using membrane preparations obtained from identical nonfailing donor hearts. beta-adrenoceptor density was found to be slightly higher when [125I]iodocyanopindolol was used compared to [3H]CGP 12.177 (256+/-15 and 213+/-18 fmol/mg protein, respectively). When the highly beta(1)-adrenoceptor-selective compound 2-hydroxy-5-(2-(hydroxy-3-(4((1-methyl-4-trifluoromethyl)-1-H-imidazol-2-yl)-phenoxy)-propyl)-aminoethoxyl)-benzamide (CGP 20.712A) and the highly beta(2)-adrenoceptor-selective compound erythro-(+/-)-1-(7-methylindan-4-yloyl)-3-isopropylaminobutan-2-ol HCl (ICI 118.551) were used in competition experiments, a similar proportion of beta(1)-adrenoceptors was seen for [3H]CGP 12.177 (69.3+/-1.6%) and for [125I]iodocyanopindolol (67.0+/-2.1%). K(i)(beta(1)) and K(i)(beta(2)) were obtained in the presence of 50 nM ICI 118.551 and 300 nM CGP 20.712A. The rank order of beta(1)-adrenoceptor selectivity (K(i)(beta(2))/K(i)(beta(1)) ratio) was nebivolol (for [3H]CGP 12.177 46.1 and for [125I]iodocyanopindolol 22.5)>bisoprolol (13.1 and 6.4)>carvedilol (0.65 and 0.41). To investigate whether in vivo metabolized nebivolol retains high beta(1)-adrenoceptor selectivity, serum specimens were collected before and 2 h after oral administration of 5 mg nebivolol. The samples were used for [125I]iodocyanopindolol binding studies with the myocardial membrane preparations. In these samples, the binding of [125I]iodocyanopindolol to beta(1)-adrenoceptors was inhibited by 46.4+/-5.3%, whereas the binding to beta(2)-adrenoceptors was inhibited by 20.5+/-1.1% compared to that of control samples. It is concluded that nebivolol is approximately 3.5 times more beta(1)-adrenoceptor-selective than bisoprolol in the human myocardium. Furthermore, in vivo metabolized nebivolol retains beta(1)-adrenoceptor selectivity.
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PMID:Beta 1-adrenoceptor selectivity of nebivolol and bisoprolol. A comparison of [3H]CGP 12.177 and [125I]iodocyanopindolol binding studies. 1253 55

Excessive levels of catecholamines have long been known to be cardiotoxic, but less well known are their toxic effects on skeletal muscle. By using an antimyosin monoclonal antibody and quantitative methods to measure the extent of myocyte necrosis, and by employing modulators of adrenoceptors (ARs), including clenbuterol, bupranolol, propranolol, bisoprolol, atenolol, ICI-118551, phenoxybenzamine, prazosin, and yohimbine, the involvement of ARs in isoproterenol-induced myotoxicity was characterized. In the myocardium, the toxic effects were predominantly mediated via the beta(1)-ARs. In the soleus muscle, it was almost solely via the beta(2)-ARs. Myotoxicity was also observed in the myocardium when challenged with the beta(2)-AR agonist clenbuterol. This was found to be mediated via sympathetic presynaptic beta(2)-ARs, leading to enhanced release of norepinephrine. This effect was abolished by prior treatment with reserpine. The skeletal muscle was found to be more sensitive to the myotoxic effects than cardiac muscle at lower doses of beta-AR agonists. These experiments introduce a new way of assaying beta-AR antagonists by classifying them according to their ability to prevent catecholamine-induced myotoxicity. Further research along these lines may deepen understanding of which beta-blockers work best in heart failure therapy.
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PMID:Characterization of adrenoceptor involvement in skeletal and cardiac myotoxicity Induced by sympathomimetic agents: toward a new bioassay for beta-blockers. 1265 52

In general, the failing human heart is characterized by a selective reduction in beta(1)-adrenoceptors (beta(1)-ARs) without change in beta(2)-AR density. Medical imaging techniques, either single photon emission computed tomography (SPECT) or positron emission tomography (PET) with appropriate radioligands, offer the possibility of assessing beta-adrenoceptor density non-invasively in humans. To date, neither a SPECT nor a PET radioligand is available for the selective imaging of cardiac beta(1)-ARs. The aim of this study was to develop potential high affinity beta(1)-selective AR radioligands for the non-invasive in vivo imaging of the beta(1)-AR density in the human heart using SPECT or PET. A variety of racemic N-aryl-N'-[2-[3-aryloxy-2-hydroxy-propylamino]-ethyl]-urea derivatives and chain-elongated analogues, related to the established beta(1)-AR antagonist, ICI 89,406 8i, were synthesized. Competition studies using the non-selective AR ligand, [(125)I]iodocyanopindolol ([(125)I]ICYP), and ventricular membrane preparations of wild-type mice revealed nine ligands with higher beta(1)-AR affinities (up to 76-fold) and beta(1)-AR selectivities (up to 139-fold) than 8i. Mostly, these ligands possess a 2-substituted phenoxy group and a 4-substituted phenyl residue in contrast to the lead compound 8i. The non-radioactive counterparts of the desired SPECT- and PET-radiotracers were synthesized as reference compounds [e.g., 8f, 8g, 8h and 8l as the non-radioactive analogues of the radioiodinated SPECT radioligands, 8e and 8h as the non-radioactive compounds of C-11 labelled PET-tracers (C-11 in the methoxy group)]. The established library of high affinity beta(1)-selective AR antagonists was screened for chemical precursors for the radiosynthesis of the mentioned radioligands. Furthermore, the library consists of some comparison compounds that are unsubstituted, allyl- and alkyl-substituted or chain-elongated (e.g., 8a, 8j, 8o and 8r-t). Future steps will include radiolabelling and pharmacokinetic evaluation of the beta(1)-selective target compounds, which could be applied as sympathetic innervation agents for in vivo investigations and diagnostics in patients suffering from cardiac diseases like heart failure and ventricular arrhythmias.
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PMID:Design of new beta1-selective adrenoceptor ligands as potential radioligands for in vivo imaging. 1287 44

The results of cardiac biopsies suggest that myocardial beta1-adrenoceptor (AR) density is reduced in patients with chronic heart failure, while changes in cardiac beta2-ARs vary. A technique for visualization and quantification of beta1-AR populations rather than total beta-AR densities in the human heart would be of great clinical interest. Molecular imaging techniques, either single photon emission computed tomography (SPECT) or positron emission tomography (PET), with appropriate radiopharmaceuticals offer the possibility to assess beta-AR density noninvasively in humans, but to date, neither a SPECT nor a PET-radioligand is clinically established for the selective imaging of cardiac beta1-ARs. The aim of this study was to design a high affinity selective beta1-AR radioligand for the noninvasive in vivo imaging of cardiac beta1-AR density in man using SPECT. Based on the well-known selective beta1-AR antagonist, ICI 89,406, both the racemic iodinated target compound 11a and the (S)-enantiomer 15a were synthesized. Competition studies using the nonselective AR ligand, [(125)I]iodocyanopindolol ([(125)I]ICYP), and ventricular membrane preparations from mice showed that 11a and 15a possess higher beta1-AR affinities (up to 265-fold) and beta1-AR selectivities (up to 245-fold) than ICI 89,406. Encouraged by these results, the radioiodinated counterparts of racemic 11a (11b: (125)I, 11c: (123)I) and (S)-configurated 15a (15b: (125)I, 15c: (123)I) were synthesized. The target compounds were evaluated in rats. Biodistribution and metabolism studies in rats indicated that there is a specific heart uptake of 11b-c and especially 15b-c accompanied by rapid metabolism of the radioligands. Therefore, radioiodinated 11c and 15c appeared to be unpromising SPECT-radioligands for assessing beta1-ARs in vivo in the rat. However, the rat may metabolize beta-AR ligands more rapidly than other species as demonstrated for (S)-[(11)C]CGP 12177, a radioligand structurally related to 11a-c and 15a-c. Therefore further studies in a different animal model will be carried out.
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PMID:Synthesis and first in vivo evaluation of new selective high affinity beta1-adrenoceptor radioligands for SPECT based on ICI 89,406. 1524 89

Female gender and estrogen-replacement therapy in postmenopausal women are associated with improved heart failure survival, and physiological replacement of 17beta-estradiol (E2) reduces infarct size and cardiomyocyte apoptosis in animal models of myocardial infarction (MI). Here, we characterize the molecular mechanisms of E2 effects on cardiomyocyte survival in vivo and in vitro. Ovariectomized female mice were treated with placebo or physiological E2 replacement, followed by coronary artery ligation (placebo-MI or E2-MI) or sham operation (sham) and hearts were harvested 6, 24, and 72 hours later. After MI, E2 replacement significantly increased activation of the prosurvival kinase, Akt, and decreased cardiomyocyte apoptosis assessed by terminal deoxynucleotidyltransferase dUTP nick-end labeling (TUNEL) staining and caspase 3 activation. In vitro, E2 at 1 or 10 nmol/L caused a rapid 2.7-fold increase in Akt phosphorylation and a decrease in apoptosis as measured by TUNEL staining, caspase 3 activation, and DNA laddering in cultured neonatal rat cardiomyocytes. The E2-mediated reduction in apoptosis was reversed by an estrogen receptor (ER) antagonist, ICI 182,780, and by phospho-inositide-3 kinase inhibitors, LY294002 and Wortmannin. Overexpression of a dominant negative-Akt construct also blocked E2-mediated reduction in cardiomyocyte apoptosis. These data show that E2 reduces cardiomyocyte apoptosis in vivo and in vitro by ER- and phospho-inositide-3 kinase-Akt-dependent pathways and support the relevance of these pathways in the observed estrogen-mediated reduction in myocardial injury.
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PMID:17beta-estradiol reduces cardiomyocyte apoptosis in vivo and in vitro via activation of phospho-inositide-3 kinase/Akt signaling. 1534 55


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