UMLS:C0018801 - FACTA Search

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

To identify any differences in inhibitory G protein (Gi) attributable to species or the cause of heart failure, we studied the changes in this protein in different animal models of heart failure: 1) different species; rats vs. hamsters (F1B) with cardiomyopathy induced by adriamycin (ADR) and 2) different etiologies; rats with ischemic heart failure (IHD) due to coronary artery ligation vs. rats with cardiomyopathy induced by ADR and F1B (20-week-old) hamsters with cardiomyopathy induced by ADR vs Syrian hamsters BIO 14.6 (40-week-old) with genetic cardiomyopathy, using Western blotting methods and ADP-ribosylation. We also sought to determine whether changes in the amount of Gi protein reflected the regulation of adenylate cyclase. The amount of immunodetectable Gi rose by 35% (p < 0.05) in ADR rats, 25% (p < 0.05) in ADR hamsters, 15% (p < 0.05) in IHD rats, and 28% (p < 0.05) in BIO 14.6 hamsters, as compared with control rats, F1B (20-week-old) hamsters, sham-operated control rats, and F1B (40-week-old) hamsters, respectively. Assessment of Gi by pertussis toxin-catalyzed ADP-ribosylation revealed increases in Gi of 24% (p < 0.05) in ADR rats and of 44% (p < 0.05) in BIO 14.6 hamsters, as compared with their respective controls. Gi function, as assayed by the acetylcholine-induced inhibition of adenylate cyclase, also increased. Thus, Gi protein appears to contribute to the changes in signal transduction in myocardium with heart failure.
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PMID:Increased levels of inhibitory G protein in myocardium with heart failure. 769 38

In order to explain the attenuated sympathetic support during the development of heart failure, the status of beta-adrenergic mechanisms in the failing myocardium was assessed by employing cardiomyopathic hamsters (155-170 days old) at moderate degree of congestive heart failure. The norepinephrine turnover rate was increased but the norepinephrine content was decreased in cardiomyopathic hearts. The number and the affinity of beta receptors in the sarcolemmal preparations were not changed in these hearts at moderate stage of congestive heart failure. While the basal adenylyl cyclase activity was not altered in sarcolemma, the stimulation of enzyme activity by NaF, forskolin, Gpp(NH)p or epinephrine was depressed in hearts from these cardiomyopathic hamsters. Since G-proteins are involved in modifying the adenylyl cyclase activity, the functional and bioactivities as well as contents of both Gs and Gi proteins were determined in the cardiomyopathic heart sarcolemma. The functional stimulation of adenylyl cyclase by cholera toxin, which activates Gs proteins, was markedly depressed whereas that by Pertussis toxin, which inhibits Gi proteins, was markedly augmented in cardiomyopathic hearts. The cholera toxin and pertussis toxin catalyzed ADP-ribosylation was increased by 37 and 126%, respectively; this indicated increased bioactivities of both Gs and Gi proteins in experimental preparations. The immunoblot analysis suggested 74 and 124% increase in Gs and Gi contents in failing hearts, respectively. These results suggest that depressed adenylyl cyclase activation in cardiomyopathic hamsters may not only be due to increased content and bioactivity of Gi proteins but the functional uncoupling of Gs proteins from the adenylyl cyclase enzyme may also be involved at this stage of heart failure.
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PMID:Alterations in G-proteins in congestive heart failure in cardiomyopathic (UM-X7.1) hamsters. 789 87

An increase of Gi alpha-related pertussis toxin substrates has been observed in the failing myocardium. In order to quantify the protein expression of Gi alpha directly, we developed a fast radioimmunoassay using the iodinated synthetic peptide 125I-KENLKDCGLF. beta-adrenoceptors were studied with 125I-cyanopindolol binding for comparison. Immunoblot experiments using recombinant G-protein alpha-subunits showed that DS4 immunostained the G-protein alpha-subunits with a rank order of potency rGi alpha 1 = rGi alpha 2 > rGo alpha >> rGi alpha 3. The G-protein alpha-subunits recognized by DS4 in human ventricular membranes comigrated with rGi alpha 1 and rGi alpha 2. The radioimmunoassay had a sensitivity of 2.5 micrograms/ml transducin alpha with an interassay variation of less than 10%. The non-labelled peptide selectively competed with the myocardial 40 kDa membrane protein for binding to the antiserum DS4. Radioimmunochemical quantification of Gi alpha from cardiac membranes showed that in left ventricular membranes (LV) from dilated cardiomyopathy (DCM), there was an increase of Gi alpha by 138.5% when related to mg protein and 135% when related to 3H-ouabain binding sites as membrane marker. In LV from ischaemic cardiomyopathy (ICM), the increase was smaller (58.4%) when related to mg protein compared to the increase of Gi alpha when related to 3H-ouabain binding sites as membrane marker (155% v NF). In contrast, in the right ventricles (RV) there was no increase of Gi alpha in ICM or DCM. The numbers of beta-adrenoceptors were reduced in RV and LV of both, ICM and DCM. It is concluded that the radioimmunoassay may become an important tool for studying the expression of Gi alpha-protein levels and changes thereof in pathological conditions. The amount of immunodetectable Gi alpha-proteins is increased in failing LV due to DCM and ICM but not in RV, while beta-adrenoceptor down-regulation occurred in RV and LV in both conditions. These findings might indicate that the liability of the LV but not of RV to express Gi alpha-proteins may be increased in predominant LV heart failure. Alternatively, the underlying mechanism, e.g. sympathetic activation, may be regulated locally in the failing heart producing different changes in adjacent chambers.
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PMID:Radioimmunochemical quantification of Gi alpha in right and left ventricles from patients with ischaemic and dilated cardiomyopathy and predominant left ventricular failure. 800 75

The role of the beta-adrenoceptor-G-protein-adenylate cyclase system in the pathogenesis of cardiac hypertrophy was studied. We have used a minipig model of pressure-overload cardiac hypertrophy secondary to aortic banding. Four groups of five animals were used: minipigs made hypertrophic were evaluated 2 months (CH2 group) and 9 months (CH9 group) later and compared to controls (C2 and C9 groups, respectively). A decrease in beta-adrenergic receptor density and an increase in antagonist affinity were shown in left ventricular membranes of hypertrophied animals compared with controls. In both groups, CH2 and CH9, an increase in EC50 for isoproterenol-stimulated adenylate cyclase activity, an increase in forskolin-stimulated adenylate cyclase activity and a diminished inhibition by carbachol of isoproterenol-stimulated adenylate cyclase were observed. In contrast, fluoride-stimulated adenylate cyclase activity was markedly increased only in the end stage of hypertrophy. alpha s-cholera toxin-catalysed ADP-ribosylation is increased in early hypertrophy and then decreases with late hypertrophy and a similar pattern is observed with alpha o pertussis toxin-catalysed ADP-ribosylation, whereas alpha i-ADP-ribosylation remains unchanged. Tissue content of Gs-, Gi- and Go-proteins, as assessed by specific antibodies, was found unchanged in CH9 and CH2 groups when compared with that in C9 and C2 control groups, respectively. Modifications in Gs functional activity in later hypertrophic stages, expressed as alterations in cholera toxin ADP-ribosylation and adenylate cyclase fluoride responsiveness, may be important in the pathogenesis of decompensation from compensated hypertrophy to cardiac failure.
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PMID:Cardiac beta-adrenoceptors, G-proteins and adenylate cyclase regulation during myocardial hypertrophy. 838 1

In view of the lack of information regarding the status of beta-adrenoceptor mediated signal transduction mechanisms at severe stages of congestive heart failure, the status of beta-adrenoceptors, G-proteins and adenylyl cyclase activities was examined in 220-275 day old cardiomyopathic hamster hearts. Although no changes in the Kd values for beta 1- and beta 2-adrenoceptors were seen, the number of beta 1-adrenoceptors, unlike that of beta 2-adrenoceptors, was markedly decreased in cardiac membranes from failing hearts. The activation of adenylyl cyclase in the failing hearts by different concentrations of isoproterenol was also attenuated in comparison to the control preparations. The basal adenylyl cyclase activity in cardiac membranes from the failing hearts was not altered; however, the stimulated enzyme activities, when measured in the presence of forskolin, NaF or Gpp(NH)p were depressed significantly. The functional activity of Gs-proteins (measured by cholera toxin stimulation of adenylyl cyclase) was depressed whereas that of Gi-proteins (measured by pertussis toxin stimulation of adenylyl cyclase) was increased in the failing hearts. Not only were the Gs- and Gi-protein contents (measured by immunoblotting) increased, the bioactivities of these proteins as determined by ADP-ribosylations in the presence of cholera toxin and pertussis toxin, respectively, were also higher in failing hearts in comparison to the control values. Northern blot analysis revealed that the signals for Gs- and Gi-protein mRNAs were augmented at this stage of heart failure. These results indicate that the loss of adrenergic support at severe stages of congestive heart failure in cardiomyopathic hamsters may involve a reduction in the number of beta 1-adrenoceptors, and an increase in Gi-protein contents as well as bioactivities in addition to an uncoupling of Gs-proteins from the catalytic site of adenylyl cyclase in cardiac membrane.
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PMID:Beta-adrenoceptor mediated signal transduction in congestive heart failure in cardiomyopathic (UM-X7.1) hamsters. 873 46

Acute myocardial ischemia and subsequent reperfusion result in biochemical and ionic changes in cardiac myocytes which cause contracture of the muscle and a reduced contractile force. Whether changes observed in single myocytes isolated from ischaemic ventricles are a direct consequence of the acute insult, or develop more slowly due to subsequent alterations in load and neurohumoural environment, is controversial. Myocytes from ischemic hearts have a similar contraction amplitude to those from non-failing hearts at physiological or maximally activating levels of ca2+. This could be partly due to the method of cell selection, or could represent the detection of a population of myocytes that have recovered from the original insult. However, there are significant decreases in the velocities of contraction and, particularly, relaxation in myocytes from the ischaemic heart. These resemble alterations caused by anoxia/reperfusion, but similar changes have also been observed in non-ischaemic causes of heart failure. Responses of beta-adrenoceptor stimulation are reduced in single cells from the failing heart, and a post-receptor defect has also been detected. Treatment with pertussis toxin, which reduces the activity of the inhibitory guanine-nucleotide binding protein (Gi) was able to restore beta-adrenoceptor responses to normal. The hypothesis that alterations in the beta-adrenoceptor/Gi/cAMP pathway represent the response of the myocyte to continued exposure to noradrenaline, because of the high sympathetic drive in these patients, is supported by the strong parallels observed with catecholamine-treated animals, and by the fact that non-ischemic aetiologies exhibit similar desensitization. It is concluded that the surviving myocytes in an ischaemic heart are damaged by the neurohumoral alterations that represent the body's attempt to restore cardiac output.
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PMID:Abnormalities of the myocytes in ischaemic cardiomyopathy. 882 61

Muscarinic receptor-linked G protein, Gi, can directly activate the specific K+ channel (IK(ACh)) in the atrium and in pacemaker tissues in the heart. Coupling of Gi to the K+ channel in the ventricle has not been well defined. G protein regulation of K+ channels in isolated human ventricular myocytes was examined using the patch-clamp technique. Bath application of 1 microM acetylcholine (ACh) reversibly shortened the action potential duration to 74.4 +/- 12.1% of control (at 90% repolarization, mean +/- SD, n = 8) and increased the whole-cell membrane current conductance without prior beta-adrenergic stimulation in human ventricular myocytes. The ACh effect was reversed by atropine (1 microM). In excised inside-out patch configurations, application of GTPgammaS (100 microM) to the bath solution (internal surface) caused activation of IK(ACh) and/or the background inwardly-rectifying K+ channel (IK1) in ventricular cell membranes. IK(ACh) exhibited rapid gating behavior with a slope conductance of 44 +/- 2 pS (n = 25) and a mean open lifetime of 1.8 +/- 0.3 msec (n = 21). Single channel activity of GTPgammaS-activated IK1 demonstrated long-lasting bursts with a slope conductance of 30 +/- 2 pS (n = 16) and a mean open lifetime of 36.4 +/- 4.1 msec (n = 12). Unlike IK(ACh), G protein-activated IK1 did not require GTP to maintain channel activity, suggesting that these two channels may be controlled by G proteins with different underlying mechanisms. The concentration of GTP at half-maximal channel activation was 0.22 microM in IK(ACh) and 1.2 microM in IK1. Myocytes pretreated with pertussis toxin (PTX) prevented GTP from activating these channels, indicating that muscarinic receptor-linked PTX-sensitive G protein, Gi, is essential for activation of both channels. G protein-activated channel characteristics from patients with terminal heart failure did not differ from those without heart failure or guinea pig. These results suggest that ACh can shorten the action potential by activating IK(ACh) and IK1 via muscarinic receptor-linked Gi proteins in human ventricular myocytes.
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PMID:Activation of inwardly rectifying potassium channels by muscarinic receptor-linked G protein in isolated human ventricular myocytes. 914 60

Transgenic mice were generated with cardiac-specific overexpression of the wild-type (WT) alpha1B-adrenergic receptor (AR) using the murine alpha-myosin heavy chain gene promoter. Previously, we described transgenic mice with alpha-myosin heavy chain-directed expression of a constitutively active mutant alpha1B-AR that had a phenotype of myocardial hypertrophy (Milano, C. A., Dolber, P. C., Rockman, H. A., Bond, R. A., Venable M. E., Allen, L. F., and Lefkowitz, R. J. (1994) Proc. Natl. Acad. Sci. U. S. A. 91, 10109-10113). In animals with >40-fold WT alpha1-AR overexpression, basal myocardial diacylglycerol content was significantly increased, indicating enhanced alpha1-adrenergic signaling and phospholipase C activity. In contrast to the mice overexpressing constitutively active mutant alpha1B-ARs, the hearts of these mice did not develop cardiac hypertrophy despite an 8-fold increase in ventricular mRNA for atrial natriuretic factor. In vivo physiology was studied in anesthetized intact animals and showed left ventricular contractility in response to the beta-agonist isoproterenol to be significantly depressed in animals overexpressing WT alpha1B-ARs. Membranes purified from the hearts of WT alpha1BAR-overexpressing mice demonstrated significantly attenuated adenylyl cyclase activity basally and after stimulation with isoproterenol, norepinephrine, or phenylephrine. Interestingly, these in vitro changes in signaling were reversed after treating the mice with pertussis toxin, suggesting that the extraordinarily high levels of WT alpha1B-ARs can lead to coupling to pertussis toxin-sensitive G proteins. Another potential contributor to the observed decreased myocardial signaling and function could be enhanced beta-AR desensitization as beta-adrenergic receptor kinase (betaARK1) activity was found to be significantly elevated (>3-fold) in myocardial extracts isolated from WT alpha1B-AR-overexpressing mice. This type of altered signal transduction may become critical in disease conditions such as heart failure where betaARK1 levels are elevated and beta-ARs are down-regulated, leading to a higher percentage of cardiac alpha1-ARs. Thus, these mice serve as a unique experimental model to study the in vivo interactions between alpha- and beta-ARs in the heart.
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PMID:Transgenic mice with cardiac overexpression of alpha1B-adrenergic receptors. In vivo alpha1-adrenergic receptor-mediated regulation of beta-adrenergic signaling. 926 Nov 35

While an age-associated diminution in myocardial contractile response to beta-adrenergic receptor (beta-AR) stimulation has been widely demonstrated to occur in the context of increased levels of plasma catecholamines, some critical mechanisms that govern beta-AR signaling must still be examined in aged hearts. Specifically, the contribution of beta-AR subtypes (beta1 versus beta2) to the overall reduction in contractile response with aging is unknown. Additionally, whether G protein-coupled receptor kinases (GRKs), which mediate receptor desensitization, or adenylyl cyclase inhibitory G proteins (Gi) are increased with aging has not been examined. Both these inhibitory mechanisms are upregulated in chronic heart failure, a condition also associated with diminished beta-AR responsiveness and increased circulatory catecholamines. In this study, the contractile responses to both beta1-AR and beta2-AR stimulation were examined in rat ventricular myocytes of a broad age range (2, 8, and 24 mo). A marked age-associated depression in contractile response to both beta-AR subtype stimulation was observed. This was associated with a nonselective reduction in the density of both beta-AR subtypes and a reduction in membrane adenylyl cyclase response to both beta-AR subtype agonists, NaF or forskolin. However, the age-associated diminutions in contractile responses to either beta1-AR or beta2-AR stimulation were not rescued by inhibiting Gi with pertussis toxin treatment. Further, the abundance or activity of beta-adrenergic receptor kinase, GRK5, or Gi did not significantly change with aging. Thus, we conclude that the positive inotropic effects of both beta1- and beta2-AR stimulation are markedly decreased with aging in rat ventricular myocytes and this is accompanied by decreases in both beta-AR subtype densities and a reduction in membrane adenylate cyclase activity. Neither GRKs nor Gi proteins appear to contribute to the age-associated reduction in cardiac beta-AR responsiveness.
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PMID:Age-associated reductions in cardiac beta1- and beta2-adrenergic responses without changes in inhibitory G proteins or receptor kinases. 950 68

This study examined mechanisms of beta-adrenergic (AR) desensitization in a myocardial infarction (MI) model of heart failure in the rat. Inotropic responses to isoproterenol (non-selective beta-AR agonist) and RO 363 (selective beta1-AR agonist), in left atria and left papillary muscle, were reduced by up to 65%, while chronotropic responses in right atria were unaffected. beta1- and beta2-AR density did not change after MI, suggesting that changes in beta-AR responsiveness are due to changes occurring downstream of the receptor. Inotropic and chronotropic responses to forskolin were not altered in right and left atria and left papillary muscle after MI, suggesting changes at the level of the G-proteins. Pertussis toxin treatment of animals restored inotropic responses to isoproterenol in left atria and left papillary muscle to levels seen in the sham group, indicating that inactivation of Gi-proteins improves inotropic function in MI rats, and that beta-ARs couple to Gi in cardiac failure. Expression of G-protein receptor kinase 2 (GRK2), beta-arrestin1 and the regulatory subunits of cAMPdPK (RI alpha and RII alpha), showed no change after MI. However the expression of Gi alpha2 was significantly increased in left ventricle (sham 0.888+/-0.140, MI 1. 759+/-0.352 P=0.026), right ventricle (sham 0.031+/-0.004, MI 0. 037+/-0.002 P=0.006) and atria (sham 0.107+/-0.006, MI 0.138+/-0.006 P=0.004), with no changes observed in the expression of Gs alpha. These results suggest that increases in Gi play an important role in the decreased beta-AR responsiveness in the rat model of MI.
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PMID:Desensitization of cardiac beta-adrenoceptor signaling with heart failure produced by myocardial infarction in the rat. Evidence for the role of Gi but not Gs or phosphorylating proteins. 1037 94

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