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:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cardiac G protein-coupled receptors that function through stimulatory G protein Galpha(s), such as beta(1)- and beta(2)-adrenergic receptors (beta(1)ARs and beta(2)ARs), play a key role in cardiac contractility. Recent data indicate that several Galpha(s)-coupled receptors in heart also activate Galpha(i), including beta(2)ARs (but not beta(1)ARs). Coupling of cardiac beta(2)ARs to Galpha(i) inhibits adenylyl cyclase and opposes beta(1)AR-mediated apoptosis. Dual coupling of beta(2)AR to both Galpha(s) and Galpha(i) is likely to alter beta(2)AR function in disease, such as congestive heart failure in which Galpha(i) levels are increased. Indeed, heart failure is characterized by reduced responsiveness of betaARs. Cardiac betaAR-responsiveness is also decreased with aging. However, whether age increases cardiac Galpha(i) has been controversial, with some studies reporting an increase and others reporting no change. The present study examines Galpha(i) in left ventricular membranes from young and old Fisher 344 rats by employing a comprehensive battery of biochemical assays. Immunoblotting reveals significant increases with age in left ventricular Galpha(i2), but no changes in Galpha(i3), Galpha(o), Galpha(s), Gbeta(1), or Gbeta(2). Aging also increases ADP-ribosylation of pertussis toxin-sensitive G proteins. Consistent with these results, basal as well as receptor-mediated incorporation of photoaffinity label [(32)P]azidoanilido-GTP indicates higher amounts of Galpha(i2) in older left ventricular membranes. Moreover, both basal and receptor-mediated adenylyl cyclase activities are lower in left ventricular membranes from older rats, and disabling of Galpha(i) with pertussis toxin increases both basal and receptor-stimulated adenylyl cyclase activity. Finally, age produces small but significant increases in muscarinic potency for the inhibition of both beta(1)AR- and beta(2)AR-stimulated adenylyl cyclase activity. The present study establishes that Galpha(i2) increases with age and provides data indicating that this increase dampens adenylyl cyclase activity.
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PMID:Age increases cardiac Galpha(i2) expression, resulting in enhanced coupling to G protein-coupled receptors. 1206 89

Relaxin produces powerful inotropic and chronotropic responses in isolated atria. The effect of relaxin has been examined in a rat model of cardiac failure, induced by myocardial infarction (MI). Maximum inotropic responses to isoprenaline (sham 5.4+/-0.3 mN; MI 2.6+/-0.3 mN; P<0.001) and relaxin (sham 5.1+/-0.6 mN; MI 2.8+/-0.5 mN; P=0.013) were reduced in left atria following MI. No change in chronotropic responsiveness was observed in right atria. Pertussis toxin (PTX) treatment restored inotropic responses to isoprenaline (sham 5.5+/-1.3 mN; MI 5.8+/-1.0 mN; P=0.850) but not to relaxin. Instead, PTX reduced inotropic responses to relaxin in sham animals to the same level seen in the MI group (sham 3.2+/-1.7 mN; MI 2.8+/-0.6 mN; P=0.847). In right atria, PTX treatment did not affect the maximum chronotropic response to isoprenaline, but reduced responses to relaxin in both sham and MI animals. R3 relaxin and relaxin receptor (LGR7) mRNA was present in atria and left ventricle (LV) from sham and MI animals. R3 relaxin mRNA expression was increased in atria but not LV from MI animals. LGR7 mRNA expression was reduced in atria and LV from MI animals. PTX treatment in unoperated rats increased chronotropic responses (vehicle 184.3+/-5.3 beats min(-1); PTX 211.3+/-9.5 beats min(-1); P=0.029) and produced a rightward shift in the concentration-response curve to isoprenaline in left atria. PTX reduced inotropic (vehicle 3.3+/-0.7 mN; PTX 0.8+/-0.2 mN; P=0.005) and chronotropic (vehicle 130.2+/-8.1 beats min(-1); PTX 90.6+/-11.1 beats min(-1); P=0.012) responses to relaxin. 6 In left atria, relaxin produced a small increase in cAMP compared to those produced by isoprenaline and forskolin. However, PTX treatment significantly reduced relaxin-, isoprenaline- and forskolin-stimulated cAMP accumulation. Cardiac failure in MI animals caused a reduced inotropic response to both relaxin and (-)-isoprenaline. In non-MI animals, PTX treatment also reduced inotropic responses to relaxin. Differences between responses to (-)-isoprenaline and relaxin can be explained by changes in coupling efficiency occurring at the level of adenylate cyclase.
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PMID:Inotropic responses to human gene 2 (B29) relaxin in a rat model of myocardial infarction (MI): effect of pertussis toxin. 1238 85

Cardiomyocyte beta2-adrenergic receptors (beta-ARs) provide a source of inotropic support and influence the evolution of heart failure. Recent studies identify distinct mechanisms for beta2-AR actions in neonatal and adult rat cardiomyocytes. This study examines whether ontogenic changes in cardiac beta2-AR actions can be attributed to altered Gi expression or changes in the spatial organization of the beta2-AR complex in membrane subdomains (caveolae). We show that beta2-ARs increase cAMP, calcium, and contractile amplitude in a pertussis toxin (PTX)-insensitive manner in neonatal cardiomyocytes. This is not caused by lack of Gi; Galphai expression is higher in neonatal cardiomyocytes than in those of adult rats. beta2-ARs provide inotropic support without detectably increasing cAMP, in adult cardiomyocytes. This cannot be attributed to dual coupling of beta2-ARs to Gs and Gi, because beta2-ARs do not promote cAMP accumulation in PTX-pretreated adult cardiomyocytes. Spatial segregation of beta2-ARs, Galphas/Galphai, and adenylyl cyclase to distinct membrane subdomains also is not a factor, because all of these proteins copurify in caveolin-3-enriched vesicles isolated from adult cardiomyocytes. However, these studies demonstrate that enzyme-based protocols routinely used to isolate ventricular cardiomyocytes lead to proteolysis of beta-ARs. The functional consequences of this limited beta-AR proteolysis is uncertain, because truncated beta1-ARs promote cAMP accumulation and truncated beta2-ARs provide inotropic support in adult cardiomyocytes. Collectively, these studies indicate that components of the beta2-AR signaling complex compartmentalize to restricted membrane subdomains in adult rat cardiomyocytes. Neither compartmentalization nor changes in Gi expression fully explain the ontogenic changes in beta2-AR responsiveness in the rat ventricle.
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PMID:Developmental changes in beta2-adrenergic receptor signaling in ventricular myocytes: the role of Gi proteins and caveolae microdomains. 1276 44

Cardiac dysfunction in animals with congestive heart failure due to myocardial infarction (MI) is known to be associated with a wide variety of defects in receptor and post-receptor mechanisms. Since the heart function have been shown to be improved by treatment with different angiotensin converting enzyme (ACE) inhibitors, we examined the effects of imidapril, an ACE inhibitor, on changes in post-receptor mechanisms involving adenylyl cyclase (AC) and G proteins in the failing heart. Heart failure in rats was induced by occluding the coronary artery and 3 weeks later the animals were treated daily with 1 mg/kg (orally) imidapril for 5 weeks. The animals were assessed for their left ventricular function and crude membranes were isolated from the viable left ventricle and examined for AC activities as well as G-protein activities and expression. Animals with heart failure exhibited depressions in ventricular function and AC activities in the absence or presence of forskolin, NaF and Gpp(NH)p. The AC activity in the presence of pertussis toxin was increased whereas that in the presence of cholera toxin was decreased in the failing heart. Protein contents and mRNA levels for G(i)-proteins were increased whereas those for G(s)-proteins were unaltered in the infarcted heart. All these changes due to MI were prevented by imidapril treatment. The results indicate that the depressed cardiac function in the failing heart may partly be due to the direct effects of changes in AC and G(i) proteins.
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PMID:Attenuation of changes in G(i)-proteins and adenylyl cyclase in heart failure by an ACE inhibitor, imidapril. 1459 52

Two subtypes of beta-adrenoceptors, beta 1 and beta 2, mediate cardiac catecholamine effects. These two types differ qualitatively, e.g., regarding G protein coupling and calcium channel stimulation. Transgenic mice overexpressing human beta 2-adrenoceptors survive high-expression levels, unlike mice overexpressing beta 1-adrenoceptors. We examined the role of inhibitory Gi proteins, known to be activated by beta 2- but not beta 1-adrenoceptors, on the chronic effects of human beta 2-adrenoreceptor overexpression in transgenic mice. These mice were crossbred with mice where G alpha i2, a functionally important cardiac Gi alpha-subunit, was inactivated by targeted gene deletion. Survival of beta 2-adrenoreceptor transgenic mice was reduced by heterozygous inactivation of G alpha i2. Homozygous knockout/beta 2-adrenoreceptor transgenic mice died within 4 days after birth. Heterozygous knockout/beta 2-adrenoreceptor transgenic mice developed more pronounced cardiac hypertrophy and earlier heart failure compared with beta 2-adrenoreceptor transgenic mice. Single calcium-channel activity was strongly suppressed in heterozygous knockout/beta 2-adrenoreceptor transgenic mice. In cardiomyocytes from these mice, pertussis toxin treatment in vitro fully restored channel activity and enhanced channel activity in cells from homozygous G alpha i2 knockout animals. Cardiac G alpha i3 protein was increased in all G alpha i2 knockout mouse strains. Our results demonstrate that G alpha i2 takes an essential protective part in chronic signaling of overexpressed beta 2-adrenoceptors, leading to prolonged survival and delayed cardiac pathology. However, reduction of calcium-channel activity by beta 2-adrenoreceptor overexpression is due to a different pertussis-toxin-sensitive pathway, most likely by G alpha i3. This result indicates that subtype-specific signaling of beta 2-adrenoreceptor functionally bifurcates at the level of Gi, leading to different effects depending on the G alpha isoform.
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PMID:Cardioprotection specific for the G protein Gi2 in chronic adrenergic signaling through beta 2-adrenoceptors. 1461 74

Beta-blockers have beneficial effects in heart failure, although the underlying mechanism is unknown. Beta2-adrenoceptors, however, are proportionally higher in the failing human heart. This study shows several clinically used beta-blockers are agonists at the human beta2-adrenoceptor. Although these agonist effects were small at the cAMP level, they were substantial at the level of cAMP response element (CRE)-mediated gene transcription. Some of the effects of "beta-blockers" seen in heart failure may be related to the beta2-agonist actions of these compounds. CRE-gene transcription responses to beta2-agonists, forskolin, and cAMP-analogs were sensitive to p42/44-mitogen-activated protein (MAP) kinase pathway inhibitors. p42/44-MAP kinase activation was also shown directly by western blotting and enzyme-linked immunosorbent assay techniques. N-[2-(4-bromocinnamylamino)ethyl]-5-isoquinoline (H89; a protein kinase A inhibitor) stimulated cAMP accumulation and CRE gene transcription via the beta2-adrenoceptor at concentrations at which protein kinase A was inhibited, providing evidence for an alternative pathway. Propranolol, however, produced paradoxical effects; it reduced basal cAMP accumulation (via beta2-mediated inverse agonism) but stimulated beta2-mediated CRE gene transcription. This cannot be explained by a sequential pathway from Gs-adenylyl cyclase-cAMP to CRE binding protein phosphorylation. Both responses to propranolol were insensitive to pertussis toxin, thus excluding Gi-protein involvement. Propranolol CRE gene transcription responses were attenuated by p42/44-MAP kinase inhibitors and propranolol was also found to directly stimulate the p42/44-MAP kinase pathway. Studies of inositol phosphate accumulation and of protein kinase C or Rho kinase inhibitors on CRE-gene transcription provided no evidence for Gq/11 or G12/13 involvement. These data suggest that propranolol can simultaneously act as an inverse agonist through a Gs-coupled mechanism while stimulating the p42/44-MAP kinase pathway through an alternative G-protein-independent mechanism.
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PMID:Agonist and inverse agonist actions of beta-blockers at the human beta 2-adrenoceptor provide evidence for agonist-directed signaling. 1464 66

Fatal myocardial failure secondary to pulmonary hypertension is reported in 5 young infants who presented with Bordetella pertussis infection. All cases showed severe leukocytosis. Three of the 5 patients died early despite intensive management. The autopsy revealed signs of pulmonary hypertension. In addition to acquiring further knowledge of its pathogenesis, it is necessary to develop some new therapeutic approaches to Bordetella pertussis infection in susceptible populations.
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PMID:Pertussis and fatal pulmonary hypertension: a discouraged entity. 1576 5

The mechanisms underlying the blunted contractile response to beta-adrenergic receptor (beta-AR) stimulation in heart failure (HF) are incompletely understood, especially with regard to beta-AR subtype-specific regulation of L-type Ca2+ channels. We evaluated the impact of HF induced by pacing tachycardia on beta-AR regulation of L-type Ca2+ channels in a canine model. To evaluate changes in the relative subcellular distribution of beta-AR subtypes, left ventricular membranes enriched in surface sarcolemma and T-tubular sarcolemma were prepared. Radioligand binding using [(125)I]cyanopindolol revealed that HF resulted in a comparable decrease in the density of beta1-ARs in both surface and T-tubule sarcolemma (55+/-4%, n=7, P<0.001; and 45+/-10%, n=7, P<0.01, respectively), but no significant change in beta2-AR density was observed. Whole-cell patch clamp studies demonstrated a markedly blunted increase in I(Ca,L) in response to saturating concentrations of the nonselective beta-AR agonist isoproterenol (0.1 micromol/L) in failing myocytes compared with control (129+/-20%, n=11, versus 332+/-35%, n=7; P<0.001). Experiments testing beta1-AR- and beta2-AR-selective stimulation showed that the major component of the blunted response to nonselective beta-AR stimulation in HF was caused by beta2-AR activation, resulting in a pertussis toxin-sensitive, Gi-mediated inhibition of the beta1-AR-induced increase in I(Ca,L). In conclusion, canine HF results in the following: (1) a uniform reduction in beta1-AR density in surface and T-tubule membrane fractions without a change in beta2-AR density; and (2) the emergence of distinct Gi-coupling to beta2-ARs resulting in accentuated antagonism of beta1-AR-mediated stimulation of I(Ca,L). These results have implications for optimizing the use of beta-AR drugs in HF.
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PMID:Crosstalk of beta-adrenergic receptor subtypes through Gi blunts beta-adrenergic stimulation of L-type Ca2+ channels in canine heart failure. 1616 60

beta3-adrenergic receptors (AR) have recently been identified in mammalian hearts and shown to be up-regulated in heart failure (HF). beta3-AR stimulation reduces inotropic response associated with an inhibition of L-type Ca2+ channels in normal hearts; however, the effects of beta3-AR activation on Ca2+ channel in HF remain unknown. We compared the effects of beta(3)-AR activation on L-type Ca2+ current (ICa,L) in isolated left ventricular myocytes obtained from normal and age-matched rats with isoproterenol (ISO)-induced HF (4 months after 340 mg/kg s.c. for 2 days). ICa,L was measured using whole-cell voltage clamp and perforated-patch recording techniques. In normal myocytes, superfusion of 4-[-[2-hydroxy-(3-chlorophenyl)ethylamino]propyl]phenoxyacetate (BRL-37,344; BRL), a beta3-AR agonist, caused a dose-dependent decrease in ICa,L with maximal inhibition (21%, 1.1 +/- 0.2 versus 1.4 +/- 0.1 nA) (p < 0.01) at 10(-7) M. In HF myocytes, the same concentration of BRL produced a proportionately greater inhibition (31%) in ICa,L (1.1 +/- 0.2 versus 1.6 +/- 0.2 nA) (p < 0.05). A similar inhibition of ICa,L was also observed with ISO (10(-7) M) in the presence of a beta1- and beta2-AR antagonist, nadolol (10(-5) M). Inhibition was abolished by the beta3-AR antagonist (S)-N-[4-[2-[[3-[3-(acetamidomethyl)phenoxy]-2-hydroxypropyl]amino]ethyl]phenyl]benzenesulfonamide (L-748,337; 10(-6) M), but not by nadolol. The inhibitory effect of BRL was attenuated by a nitric-oxide synthase (NOS) inhibitor, N(G)-nitro-L-arginine methyl ester (10(-4) M), and was prevented by the incubation of myocytes with pertussis toxin (PTX; 2 microg/ml, 36 degrees C, 6 h). In conclusion, beta3-AR activation inhibits L-type Ca2+ channel in both normal and HF myocytes. In HF, beta3-AR stimulation-induced inhibition of Ca2+ channel is enhanced. These effects are likely coupled with PTX-sensitive G-protein and partially mediated through a NOS-dependent pathway.
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PMID:Enhanced inhibition of L-type Ca2+ current by beta3-adrenergic stimulation in failing rat heart. 1613 2

Adrenergic receptors (ARs) play an important role in the regulation of cardiac function. Cardiac inotropy is primarily regulated by beta(1)-ARs. However, alpha(1)-ARs may play an important role in inotropy during heart failure. Previous work has suggested that the alpha(1B)-AR modulates beta(1)-AR function in the heart. The potential role of the alpha(1A)-AR has not been previously studied. We used transgenic mice that express constitutively active mutant (CAM) forms of the alpha(1A)-AR or alpha(1B)-AR regulated by their endogenous promoters. Expression of the CAM alpha(1A)-AR or CAM alpha(1B)-AR had no effect on basal cardiac function (developed pressure, +dP/dT, -dP/dT, heart rate, flow rate). However, both alpha(1)-AR subtypes significantly decreased isoproterenol-stimulated +dP/dT. Pertussis toxin had no effect on +dP/dT in CAM alpha(1A)-AR hearts but restored +dP/dT to non-transgenic values in CAM alpha(1B)-AR hearts. Radioligand binding indicated a selective decrease in the density of beta(1)-ARs in both CAM mice. However, G-proteins, cAMP, or the percentage of high and low affinity states were unchanged in either transgenic compared with control. These data demonstrate that CAM alpha(1A)- and alpha(1B)-ARs both down regulate beta(1)-AR-mediated inotropy in the mouse heart. However, alpha(1)-AR subtypes are coupled to different beta-AR mediated signaling pathways with the alpha(1B)-AR being pertussis toxin sensitive.
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PMID:Both alpha(1A)- and alpha(1B)-adrenergic receptors crosstalk to down regulate beta(1)-ARs in mouse heart: coupling to differential PTX-sensitive pathways. 1617 11


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