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)

1. The decreased response to beta-adrenoceptor stimulation seen in heart failure may be related to a defect in cyclic AMP production. The inotropic effects of the selective phosphodiesterase (PDE) III inhibitors, SK&F 94120 and SK&F94836, and the non-selective PDE inhibitor, 3-isobutyl-l-methylxanthine (IBMX), alone and when combined synergistically with isoprenaline, were studied in control and beta-adrenoceptor-desensitized ventricular myocytes. 2. Myocytes isolated from noradrenaline-treated guinea-pigs had a reduced maximum response to isoprenaline compared with control animals (60.0 +/- 2.5%, n = 42 vs 79.5 +/- 1.7% maximum calcium: n = 46, P < 0.001). Together with an approximately 20 fold increase in the isoprenaline EC50, this is indicative of beta-adrenoceptor desensitization as a result with chronic infusion with noradrenaline. 3. The maximum inotropic response of IBMX was depressed following noradrenaline treatment, from 74.9 +/- 4.6% (n = 7) in control, to 61.7 +/- 2.70% (n = 6), as a percentage of maximum calcium in noradrenaline-treated guinea-pig ventricular myocytes (P < 0.02). The pD2 value for IBMX was also reduced (P < 0.02). No significant differences in the inotropic effects of SK&F94120 and SK&F94836 were seen between control and beta-adrenoceptor desensitized myocytes. 4. Threshold inotropic concentrations of SK&F94120 and SK&F94836 caused a five fold decrease in the EC50 of control myocytes for isoprenaline, and an 11 fold decrease in the noradrenaline-treated guinea-pig ventricular myocytes. 5. The maximum response to isoprenaline in myocytes isolated from normal guinea-pigs was unaffected by PDE inhibition; either at threshold or maximum inotropic concentrations, or by CPT cyclic AMP, an analogue of cyclic AMP.6. A significant potentiation of the maximum isoprenaline response by threshold inotropic concentrations was observed with SK&F 94120 (P<0.05), but not with IBMX or SK&F 94836, in myocytes isolated from noradrenaline-treated guinea-pig hearts. This potentiation, however, did not completely restore the response to levels seen in control myocytes.7. The extent of potentiation of the maximum isoprenaline response by maximum inotropic concentrations of either IBMX or CPT cyclic AMP, was no greater than that by threshold concentrations of IBMX, in myocytes isolated from noradrenaline-treated guinea-pig hearts.8. In cardiac myocytes isolated from the explanted hearts of 16 patients with heart failure, threshold concentrations of IBMX and SK&F 94120 decreased the isoprenaline EC50 by a factor of four and six,respectively, but potentiation of the maximum isoprenaline response occurred only with SK&F 94120.The attenuated isoprenaline response was increased from 60.3 +/- 4.5% to 74.3 +/- 4.2% as a % maximum calcium (P<0.05, n = 6), but remained substantially lower than the 116 +/- 7% (P<0.001, n = 6) seen in myocytes isolated from non-failing hearts.9. We conclude that the reduced maximum contraction amplitude with isoprenaline in cardiac myocytes from either patients in end-stage failure, or noradrenaline-treated guinea-pigs, is partly but not solely due to insufficient cyclic AMP levels, since inhibition of cyclic AMP degradation does not result incomplete reversal of the beta-adrenoceptor desensitization.
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PMID:Incomplete reversal of beta-adrenoceptor desensitization in human and guinea-pig cardiomyocytes by cyclic nucleotide phosphodiesterase inhibitors. 769 63

1. The signal transduction process mediated by cyclic AMP that leads to the characteristic positive inotropic effect (PIE) in association with a positive lusitropic effect (acceleration of rate of twitch relaxation) has been well established. Relationships between accumulation of cyclic AMP, changes in intracellular Ca2+ transients and the PIE differ, however, depending on the mechanism of particular drugs that affect different steps in the metabolism of cyclic AMP. Selective partial agonists of beta 1-adrenoceptors and inhibitors of phosphodiesterase (PDE) III cause the accumulation of less cyclic AMP for a given PIE than does isoproterenol. In addition, in aequorin-microinjected canine ventricular muscle, selective inhibitors of PDE III, OPC 18790 and Org 9731, produced smaller decreases in the responsiveness of myofilaments to Ca2+ ions than isoproterenol, while a partial agonist of beta 1-adrenoceptors, denopamine, elicits a decrease in Ca2+ responsiveness of the same extent as does isoproterenol. 2. Activation of myocardial alpha 1-adrenoceptors, as well as stimulation of receptors for endothelin and angiotensin II, which accelerates hydrolysis of phosphoinositide (PI) to result in production of inositol 1,4,5-trisphosphate (IP3) and diacylglycerol (DAG) are associated with very similar inotropic regulation: (1) the dependence on the species of animals of induction of the PIE; (2) an excellent correlation between the extent of acceleration of hydrolysis of PI and the PIE; (3) isometric contraction curves associated with a negative lusitropic effect; (4) the PIE associated with increases in myofibrillar responsiveness to Ca2+ ions; and (5) the selective inhibition of the PIE by an activator of protein kinase C (PKC), phorbol 12,13-dibutyrate (PDBu), with little effect on the PIE of isoproterenol and Bay k 8644. 3. A novel class of cardiotonic agents, namely, Ca2+ sensitizers such as EMD 53998 and Org 30029, act on the Ca(2+)-binding site of troponin C, increasing the affinity of these sites for Ca2+ ions, or at the actin-myosin interface to facilitate the cycling of cross-bridges. These agents produce a PIE with little change or decrease in Ca2+ transients and may bring about a significant breakthrough in the development of drugs for reversal of myocardial failure in the treatment of congestive heart failure.
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PMID:The effects of various drugs on the myocardial inotropic response. 771 48

In this work we analyze the renal and systemic factors involved in the sodium retention in two conditions: in extracellular volume depletion and in edema forming states, particularly liver cirrhosis with ascitis. In this paper we accept that the volume loss of body fluids stimulates the "effective arterial blood volume" (VAE). This term results from a decrease in the arterial blood volume secondary to a fall in cardiac output or a peripheral arterial vasodilatation. The reduction in the VAE stimulates: the high pressure baroreceptors (carotid sinus and aortic arch); the intrarrenal mechanisms, such as the yuxtaglomerular apparatus and the renin angiotensin aldosterone system; the sympathetic adrenergic system; the non osmotic release of antidiuretic hormone; prostaglandins (PGE1, Tromboxane) and endothelin; and inhibits the atrial natriuretic peptide. We also describe the sodium transport mechanisms along the nephron during physiological conditions and after volume depletion, and in edema formation states, specially hepatic cirrhosis with ascitis. We speculate that the intrarenal mechanisms are more important and persistent than the systemic mechanisms. It is possible that the sodium retention of these states might be the result of direct stimuli of the tubular sodium transport mechanisms in the different segments of the nephron, mediated by the co and counter transports, ATPase activity or by the second messengers cyclic AMP and cyclic GMP. The clonation and structural characterization of the different sodium transports may help us to establish, more precisely, the intracellular tubular mechanisms responsible for the tendency of the body to retain sodium. The amount of information generated in the future may help us to demonstrate, with more precision, the mechanisms responsible for the sodium retention and excretion in normal and pathological conditions, particularly the edema forming states such as cardiac failure, nephrotic syndrome and hepatic cirrhosis with ascitis.
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PMID:[Renal and extra-renal mechanisms of sodium and water retention in cirrhosis with ascites]. 777 18

L-type calcium currents were studied in ventricular myocytes isolated from non-failing hearts, i.e. donor hearts not suitable for transplantation, and from severely failing hearts, i.e. explanted hearts of organ recipients, in order to identify possible alterations of the currents in cardiomyopathy. Human atrial myocytes were investigated for comparative purposes. As deficient production of cyclic AMP might contribute to the development of cardiac failure, the responses to forskolin, a direct stimulator of adenylyl cyclase, were also studied. The patch-clamp technique was applied in the single electrode whole-cell mode. Calcium currents were similar in myocytes from non-failing and failing hearts: Maximum current-densities were 3.8 v 3.1 pA/pF, and 2.2 pA/pF in atrial cells. In human ventricular cells, threshold was at -33 mV, maximum at +6 mV and reversal potential at about +50 mV, potentials of half-maximum steady-state inactivation -24 mV and -18 mV. The slopes of steady-state inactivation curves were +4.1 mV in myopathic and +5.5 mV in non-failing cells. In all myocytes the current inactivated with two time constants, a fast one with weak and a slow one with pronounced potential dependency. Ventricular or atrial myocytes from patients pretreated with calcium antagonists and untreated did not differ in current density or steady-state inactivation. Forskolin (0.5 microM) increased calcium currents in myocytes from non-failing and failing hearts to the same extent (by 143 and 150%). While beta-adrenoceptor numbers are reported to decline in severely failing myocardium, our data do not suggest that alterations of the properties of calcium currents contribute to the pathophysiology of heart failure, though the number of investigated hearts is limited due to restricted access to non-failing cardiac tissue. No evidence for impairment of the signal transduction cascade beyond the level of GTP binding proteins was found.
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PMID:L-type calcium currents of human myocytes from ventricle of non-failing and failing hearts and from atrium. 786 91

Glucagon has been reported to be one of the most effective treatments for severe beta-blocker poisoning. Recently, amrinone was suggested as an alternative therapeutic choice for beta-blocker poisoning. Milrinone, a derivative of amrinone, acts independently of beta-adrenoceptors and increases cyclic AMP. Therefore milrinone may also be effective in the treatment of beta-blocker poisoning. In the present study, we compared the effect of glucagon and milrinone in treating severe beta-blocker poisoning. Following the administration of 10 mg/kg propranolol i.v. over 10 min, heart rate, cardiac output, mean arterial pressure, stroke volume, and end tidal CO2 were depressed, while central venous pressure, and pulmonary capillary wedge pressure increased significantly (p < 0.05). Following the administration of saline (Group S, N = 3), glucagon 20 micrograms/kg (Group G, N = 5), and milrinone 300 micrograms/kg (Group M, N = 5), hemodynamic parameters were observed for 30 min. In group M, mean arterial pressure, cardiac output and stroke volume recovered to their baseline values, while central venous pressure and pulmonary capillary wedge pressure decreased. Although there were no significant differences between groups G and M, the heart rate, central venous pressure and pulmonary capillary wedge pressure, mean arterial pressure and stroke volume did not return to baseline values in group G. Milrinone administration produced a significant hemodynamic improvement without increasing the heart rate in the canine model of severe heart failure caused by propranolol. In the glucagon treatment group, central venous pressure and pulmonary capillary wedge pressure improved less than the milrinone group. Although more data are needed before a clinical recommendation, milrinone might be an effective drug to treat beta-blocker poisoning.
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PMID:Milrinone versus glucagon: comparative hemodynamic effects in canine propranolol poisoning. 800 35

Inodilation, i.e., the combination of positive inotropic and vasodilating therapy, conceptually should be an ideal form of heart failure treatment. However, available orally active inodilator drugs, such as beta-agonists, dopaminergic compounds, and agents with phosphodiesterase (PDE)-inhibiting properties, have not been generally accepted for the treatment of heart failure. In contrast, there is serious concern that agents that act predominantly through PDE inhibition and thereby increase cellular cyclic AMP (cAMP) content, e.g., amrinone, milrinone, and enoximone, not only are ineffective in heart failure but also may lead to serious adverse events, i.e., arrhythmogenicity, and may increase mortality rate in advanced heart failure. Similarly, combined beta 1- and beta 2-agonists do not afford long-term clinical efficacy and also may lead to serious ventricular arrhythmias. Moreover, dopaminergic compounds that, besides dopamine-1 and dopamine-2 activation, act through beta-receptor stimulation do not consistently improve the patient's clinical condition. Thus, inodilation by way of increasing cAMP may not be the right approach, at least not in advanced heart failure, in which cAMP-dependent inotropic activity is significantly diminished. In contrast, clinical efficacy may be present when partial PDE inhibitors that also act through calcium sensitization, such as pimobendan, are administered to patients with mild to moderate or moderately severe heart failure. Moreover, adverse events may be less at the lower dose level at which, consequently, the degree of PDE inhibition is reduced. Calcium-sensitizing properties may afford an alternative, more economical way to improve contractile force in failing hearts. Hence, agents that combine calcium sensitization with a relatively low degree of PDE inhibition may well be the inodilators of choice, in particular in mild to moderate failure. Whether they improve the condition of such patients without affecting relaxation and whether they do not lead to adverse events and an increase in mortality rate have as yet to be evaluated. Furthermore, the potential beneficial effect of additional neurohumoral modulation by dopaminergic inodilator compounds and of heart rate-reducing properties of inodilators, such as OPC-8212 and DPI 201-106, needs to be clarified to assess the place, if any, of inodilator therapy in heart failure.
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PMID:Inodilator therapy for heart failure. Early, late, or not at all? 809 71

The common underlying heart diseases were ischemic heart disease (39%), valvular heart disease (27%), hypertensive heart disease (10%) in 104 patients (mean age 79 yrs) with congestive heart failure (CHF). Cardiomyopathy (5%) and congenital heart disease (2%) such as atrial septal defect were less common. In addition, many extracardiac diseases including anemia, hypothyroidism, renal failure and pulmonary disease contributed to the etiology of CHF in the elderly. Cardiac amyloidosis should be considered as an uncommon cause of refractory CHF. While the precipitating factor was not found in half of the 104 patients with CHF, the most common factors were respiratory infection, myocardial ischemia and arrhythmia. In addition, inappropriate drug usage including poor drug compliance, the use of beta-blockers and excessive intake of sodium and fluid precipitated or exacerbated heart failure. Renal failure was a most important complication and predisposed to refractory CHF. Aged patients with mild CHF (NYHA class II) showed an insufficient production of cyclic AMP and GMP in proportion to the increases of norepinephrine and atrial natriuretic peptide in comparison with health aged subjects after the submaximal treadmill exercise test. This finding may suggest that an inadequate compensation of neurohumoral factors is prone to cause CHF in the elderly. Appropriate management of acute CHF in the elderly begins with recognition of the underlying heart disease, complications and the severity of cardiac function. In addition to medical management including loop diuretics, vasodilator, beta-receptor agonist and phosphodiesterase inhibitor, cases associated with respiratory and renal failure require mechanical ventilation and continuous hemofiltration.
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PMID:[The etiology and management of congestive heart failure in the elderly]. 820 67

1. The purpose of this study was to elucidate the cellular mechanism of the positive inotropic effect of hydralazine, a vasodilator widely used for afterload reduction in patients with heart failure that has also been reported to have positive inotropic effects on the heart. After isolation, right ventricular papillary muscles from the ferret were maintained in bicarbonate-buffered salt solution (30 degrees C). A concentration-response relationship was obtained for hydralazine (10(-6) to 10(-3) M). In order to mimic different levels of catecholamine release found in heart failure, we utilized two methods of stimulation: (a) threshold punctate pulses and (b) suprathreshold punctate stimulation with voltage approximately 10% above threshold. 2. In a first group of muscles (n = 16), a maximally effective concentration of hydralazine (10(-3) M) increased peak isometric tension by 39 +/- 9% (P < 0.05). Doses lower than 10(-5) M had no significant effect. The bioluminescent Ca2+ indicator, aequorin, was loaded into a subset of these muscles (n = 7). A significant increase in peak light (i.e., intracellular Ca2+) developed, concurrently with an increase in peak tension (38 +/- 5% to 66 +/- 8%). This inotropic response was associated with a decrease in time to peak tension (ms), 221 +/- 7 to 186 +/- 5 (P < 0.05), and time to peak light, 65 +/- 4 to 52 +/- 2 (P < 0.05). These effects were markedly attenuated by pretreatment with autonomic blocking agents. 3. In a second group of muscles (n = 12), histamine was used to stimulate cyclic AMP production in the presence of propranolol. Hydralazine (3 x 10-4 M) led to a shift in the pD2 (i.e. the negative log of the concentration of histamine producing 50% of the maximal response) from 6.1 +/- 0.1 to 5.9 +/- 0.1(P <0.05), thus increasing the sensitivity of the muscles to histamine. Hydralazine also increased maximum tension from 160 +/- 77% to 195 +/- 57% (P <0.05) above baseline. Thus, hydralazine altered the potency and efficacy of histamine despite the presence of beta-adrenoceptor blockade.4. A third group of muscles were chemically skinned to examine the effects of hydralazine on myofilament Ca2+ responsiveness. Pretreatment of ferret papillary muscles with hydralazine (10-3 M)before skinning did not shift the force-pCa curve after skinning (n = 16). However, hydralazine added to previously skinned fibres desensitized the myofilaments, as indicated by a rightward shift of the force-pCa curve (n = 12). Maximum tension development was not changed.5. The pharmacological effects of hydralazine are characteristic of inotropic drugs that act mainly via cyclic AMP; however, the increase in peak tension demonstrated with histamine in the presence of hydralazine also suggests an effect on cyclic AMP-independent second messenger pathways. These data are consistent with reports that large doses of hydralazine may increase cellular levels of cyclic AMP, as well as other second messengers, by direct cardiac and indirect neuronal mechanisms.
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PMID:Cellular mechanism of the positive inotropic effect of hydralazine in mammalian myocardium. 835 64

The receptor systems through which serotonin (5-HT), histamine, angiotensin II and endothelin increase the force of contraction were studied in isolated right atria from patients without apparent heart failure. All agonists increased the atrial force of contraction in a concentration-dependent manner; maximal effects, however, were significantly less than those evoked by isoprenaline or Ca2+. 5-HT and histamine, but not angiotensin II and endothelin, activated adenylate cyclase, whereas endothelin and angiotensin II stimulated inositol phosphate generation. Experiments with subtype-selective antagonists revealed that histamine effects were mediated by H2-receptors (sensitive to ranitidine), 5-HT-effects by 5-HT4-receptors (sensitive to SDZ 205-557) and angiotensin II effects by AT1-receptors (sensitive to losartan). We conclude that in human right atria the force of contraction can be increased by cyclic AMP-dependent (histamine, 5-HT) and -independent (angiotensin II, endothelin) pathways. Compared to beta-adrenoceptors, however, all other receptor systems increase the force of contraction only submaximally indicating that the beta-adrenoceptor pathway is the most important physiological mechanism to regulate force of contraction and/or heart rate in the human heart.
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PMID:Comparison of the positive inotropic effects of serotonin, histamine, angiotensin II, endothelin and isoprenaline in the isolated human right atrium. 838 86

Isolation of calcitonin mRNA initiated studies on the multigene complex encoding a family of peptides: calcitonin, its terminal flanking peptides, calcitonin gene-related peptide (CGRP), and amylin. CGRP is expressed in alpha- and beta-forms that vary by one and three amino acids in rat and humans, respectively. Both alpha- and beta-CGRP are very similar in their biologic activities, therefore the role of duplicating the calcitonin/CGRP gene is unclear. CGRP behaves principally as a regulatory neuropeptide acting locally through interaction with target organ receptors that are either cyclic-AMP dependent, or capable of activating KATP channels of vascular smooth muscle. The dense distribution of CGRP-rich structures and the expression of mRNA in the central nervous system suggests that CGRP has a neuromodulator or neurotransmitter role not limited to vasoregulatory effects only, but like calcitonin, extends its action to physiologic, metabolic, and behavioral functions. Activation of perivascular sensory nerves stimulates the release of neuropeptides, including CGRP, which exerts a potent vasodilatory effect on venous and arterial vasculature. The increased levels of CGRP-like immunoreactivity were observed in volume overload states, in heart failure and myocardial infarction, and in some forms of hypertension. The beneficial effect of CGRP infusions was demonstrated in patients with congestive heart failure and also in subjects with neurological deficits after surgical treatment of subarachnoid hemorrhage. On the other hand, there are experimental studies on the inhibition of increased CGRP activity, in septic and shock conditions, in which the vascular hyperrelaxation could have deleterious effects.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Calcitonin gene-related peptide and regulation of human cardiovascular homeostasis. 839 Feb 69


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