scholarly journals Adenosine inhibits the positive inotropic effect of 3-isobutyl-1-methylxanthine in papillary muscles without effect on cyclic AMP or cyclic GMP

1988 ◽  
Vol 93 (4) ◽  
pp. 729-738 ◽  
Author(s):  
Michael Böhm ◽  
Reinhard Brückner ◽  
Joachim Neumann ◽  
Monika Nose ◽  
Wilhelm Schmitz ◽  
...  
Keyword(s):  
Cyclic Amp ◽  
Cyclic Gmp ◽  
Positive Inotropic Effect ◽  
Inotropic Effect ◽  
Papillary Muscles

Alpha 1-adrenoceptor subtypes mediating inotropic and electrophysiological effects in mammalian myocardium

1996 ◽  
Vol 271 (4) ◽  
pp. H1423-H1432
Author(s):  
M. Nagashima ◽  
Y. Hattori ◽  
Y. Akaishi ◽  
N. Tohse ◽  
I. Sakuma ◽  
...  
Keyword(s):  
Positive Inotropic Effect ◽  
Outward Current ◽  
Ventricular Myocardium ◽  
Inotropic Effect ◽  
Transient Outward Current ◽  
Papillary Muscles ◽  
Binding Studies ◽  
Positive Inotropism ◽  
Wb 4101 ◽  
Rabbit Ventricular Myocardium

Stimulation of alpha 1-adrenoceptors produces a positive inotropic effect in rat and rabbit ventricular myocardium via different mechanisms, the prolongation of action potential duration (APD) exclusively in the former and an increase in myofibrillar Ca2+ sensitivity in large part in the latter. This study was designed to determine whether the two inotropic mechanisms are mediated by different alpha 1-adrenoceptor subtypes. In rat papillary muscles, the positive inotropic effect and APD prolongation induced by phenylephrine (in the presence of propranolol) were inhibited by WB-4101, but not affected by chlorethylclonidine (CEC). WB-4101, but not CEC, blocked the phenylephrine-induced inhibition of the transient outward current (Ito) in rat ventricular cells. On the other hand, WB-4101 and CEC each antagonized the positive inotropic effect of phenylephrine in rabbit papillary muscles. However, the phenylephrine-induced APD prolongation observed in rabbit papillary muscles was blocked only by WB-4101. These results indicate that the WB-4101 sensitive alpha 1-adrenoceptor subtype mediates the positive inotropism that is correlated with the APD prolongation resulting from Ito reduction, whereas the CEC-sensitive subtype mediates the positive inotropism that is probably associated with increased myofibrillar Ca2+ sensitivity. Radioligand binding studies with [3H] prazosin showed a similar ratio of alpha 1A-to alpha 1B-adrenoceptor subtypes in rat and rabbit ventricular myocardium, implying that the different degree of contribution of each action mechanism to the overall inotropic effect in the two species cannot be explained by distribution of the alpha 1-adrenoceptor subtypes.

Cyclic AMP and the positive inotropic effect of norepinephrine and phenylephrine

1977 ◽  
Vol 55 (2) ◽  
pp. 279-287 ◽  
Author(s):  
T. T. Martinez ◽  
J. H. McNeill
Keyword(s):  
Cyclic Amp ◽  
Cell Membrane ◽  
Time Course ◽  
Positive Inotropic Effect ◽  
Contractile Response ◽  
Contractile Force ◽  
Time Response ◽  
Inotropic Effect ◽  
Chronotropic Response ◽  
Right Atria

Time-response studies of the effects of norepinephrine and phenylephrine revealed that both agonists caused an increase in cyclic AMP levels before increases in contractile force in either the electrically stimulated left atria or spontaneously beating right atria of the rat. Norepinephrine caused a nearly sixfold increase in cyclic AMP, whereas phenylephrine produced only a 50% increase in the nucleotide. Pretreatment with reserpine did not affect the norepinephrine cyclic AMP response; however, the phenylephrine cyclic AMP response was abolished. Reserpine pretreatment did not significantly affect the contractile responses of either amine. In the presence of propranolol, norepinephrine was found to have the ability to produce an increase in contractile force in which cyclic AMP was apparently not involved. The time course of the contractile response induced by adrenergic amines was found to be remarkably influenced by the chronotropic response in spontaneously beating preparations while the cyclic AMP response was not greatly affected. This difference in the contractile response may be due to the ability of the chronotropic response to influence the flux of calcium through the cell membrane.

Evidence for physiological functions of protein phosphatases in the heart: evaluation with okadaic acid

1993 ◽  
Vol 265 (1) ◽  
pp. H257-H266 ◽  
Author(s):  
J. Neumann ◽  
P. Boknik ◽  
S. Herzig ◽  
W. Schmitz ◽  
H. Scholz ◽  
...  
Keyword(s):  
Guinea Pig ◽  
Okadaic Acid ◽  
Guinea Pigs ◽  
Positive Inotropic Effect ◽  
Inotropic Effect ◽  
Papillary Muscles ◽  
Force Of Contraction ◽  
Phosphorylation State ◽  
Ventricular Cardiomyocytes ◽  
Channel Currents

Okadaic acid exerts a positive inotropic effect in cardiac preparations. We studied whether the positive inotropic effect of okadaic acid in cardiac preparations could be due to phosphatase inhibition and whether this inhibition affects the phosphorylation of cardiac proteins. In papillary muscles from guinea pigs, 30 microM okadaic acid increased force of contraction to 175% of predrug value. In isolated guinea pig ventricular cardiomyocytes, okadaic acid augmented single Ca(2+)-channel currents by enhancing channel availability. In homogenates from ventricles, 1 microM okadaic acid completely inhibited phosphorylase a phosphatase activity. In isolated 32P-labeled ventricular cardiomyocytes, 30 microM okadaic acid increased phosphorylation of phospholamban (PLB) and troponin inhibitor (TnI) to 325 and 284% of control, respectively. Furthermore, 30 microM okadaic acid increased phosphorylation of a hitherto unknown 23-kDa protein to 352% of control. It is concluded that the effects of okadaic acid could be mediated by increasing the phosphorylation state of several proteins including PLB, a 23-kDa protein, and TnI.

Dissociation between positive inotropic and alkalinizing effects of angiotensin II in feline myocardium

1997 ◽  
Vol 272 (3) ◽  
pp. H1131-H1136 ◽  
Author(s):  
A. Mattiazzi ◽  
N. G. Perez ◽  
M. G. Vila-Petroff ◽  
B. Alvarez ◽  
M. C. Camilion de Hurtado ◽  
...  
Keyword(s):  
Angiotensin Ii ◽  
Simultaneous Measurement ◽  
Myocardial Contractility ◽  
Positive Inotropic Effect ◽  
Inotropic Effect ◽  
Papillary Muscles ◽  
Ang Ii ◽  
Acetoxymethyl Ester ◽  
Hepes Buffer ◽  
Ethanesulfonic Acid

The present study examines the intracellular pH (pHi) dependence of angiotensin (ANG) II-induced positive inotropic effect in cat papillary muscles contracting isometrically (0.2 Hz, 30 degrees C). Muscles were loaded with the fluorescent dye 2'-7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein acetoxymethyl ester for simultaneous measurement of pHi and contractility. In N-2-hydroxyethylpiperazine-N'-2-ethanesulfonic acid (HEPES) buffer (n = 4), there was a temporal dissociation between the positive inotropic and the alkalinizing effects of ANG II (0.5 microM). The positive inotropic effect of ANG II peaked at 9.7 +/- 0.8 min (240 +/- 57% above control) without significant changes in pHi. The increase in pHi became significant (0.05 +/- 0.01 pH units) only after 16 min of exposure to the drug, when the positive inotropic effect of ANG II was already fading. In HCO3- buffer (n = 7), the ANG II-induced positive inotropic effect occurred without significant pHi changes. In the presence of 5 microM ethyl isopropyl amiloride (EIPA, to specifically inhibit the Na+/H+ exchanger), the alkalinizing effect of ANG II was changed to a significant decrease in pHi, despite which ANG II still increased contractility by 87 +/- 16% (n = 6). The results indicate that in HEPES buffer only a fraction of the ANG II-induced positive inotropic effect can be attributed to a pHi change, whereas in a physiological CO2-HCO3- medium the positive inotropic effect of ANG II is independent of pHi changes. Furthermore, an ANG II-induced increase in myocardial contractility was observed even when ANG II administration elicited a decrease in pHi, as occurred after Na+/H+ exchanger blockade. The results show that in feline myocardium, the increase in contractility evoked by ANG II in a physiological CO2-HCO3- medium is not due to an increase in Ca2+ myofilament sensitivity secondary to an increase in myocardial pHi.

INFLUENCE OF RESERPINE, HEART FAILURE, AND IMMUNOSYMPATHECTOMY ON THE CARDIAC EFFECTS OF OUABAIN

1967 ◽  
Vol 45 (4) ◽  
pp. 643-654 ◽  
Author(s):  
S. Wendlandt ◽  
D. R. Varma
Keyword(s):  
Heart Failure ◽  
Congestive Heart Failure ◽  
Positive Inotropic Effect ◽  
Lethal Dose ◽  
Inotropic Effect ◽  
Pulmonary Artery Stenosis ◽  
Papillary Muscles ◽  
Normal Amount ◽  
Release Of Noradrenaline ◽  
Cardiac Effects

A possible relationship between myocardial noradrenaline and the cardiac effects of ouabain has been investigated. Pretreatment with reserpine, with or without acute adrenalectomy, failed to reduce the positive inotropic effect of ouabain in cats. Similarly, reserpine did not reduce the positive inotropic effect of ouabain in cats which had developed congestive heart failure from chronic pulmonary artery stenosis and which had approximately 40% of the normal amount of myocardial noradrenaline. The positive inotropic effect of ouabain on isolated papillary muscles from reserpine-treated rabbits and on the isolated left atria from reserpine-treated rats or rats with immunosympathectomy was also normal. Depletion of myocardial noradrenaline did not influence the toxicity of ouabain except in cats with congestive heart failure. In these cats, pretreatment with reserpine increased the arrhythmic and the lethal dose of ouabain. Reserpine or immunosympathectomy produced a marked depletion of myocardial noradrenaline stores. It is concluded that the positive inotropic effect of ouabain is not due to a release of noradrenaline from the heart. The mechanism by which pretreatment with reserpine reduces the toxicity of ouabain in cats with congestive heart failure is not clear. It may or may not be due to a depletion of myocardial noradrenaline.

Inotropic effects of ETB receptor stimulation and their modulation by endocardial endothelium, NO, and prostaglandins

2004 ◽  
Vol 287 (3) ◽  
pp. H1194-H1199 ◽  
Author(s):  
Adelino F. Leite-Moreira ◽  
Carmen Brás-Silva
Keyword(s):  
Vascular Tone ◽  
Positive Inotropic Effect ◽  
Negative Inotropic Effect ◽  
Inotropic Effect ◽  
Papillary Muscles ◽  
Active Tension ◽  
Receptor Stimulation ◽  
Inotropic Effects ◽  
Etb Receptor ◽  
Endocardial Endothelium

Endothelin (ET)-1 acts on ETA and ETB receptors. The latter include ETB1 (endothelial) and ETB2 (muscular) subtypes, which mediate opposite effects on vascular tone. This study investigated, in rabbit papillary muscles ( n = 84), the myocardial effects of ETB stimulation. ET-1 (10−9 M) was given in the absence or presence of BQ-123 (ETA antagonist). The effects of IRL-1620 (ETB1 agonist, 10−10–10−6 M) or sarafotoxin S6c (ETB agonist, 10−10–10−6 M) were evaluated in muscles with intact or damaged endocardial endothelium (EE); intact EE, in the presence of NG-nitro-l-arginine (l-NNA); and intact EE, in the presence of indomethacin (Indo). Sarafotoxin S6c effects were also studied in the presence of BQ-788 (ETB2 antagonist). ET-1 alone increased 64 ± 18% active tension (AT) but decreased it by 4 ± 2% in the presence of BQ-123. In muscles with intact EE, sarafotoxin S6c alone did not significantly alter myocardial performance. Sarafotoxin S6c (10−6 M) increased, however, AT by 120 ± 27% when EE was damaged and by 39 ± 8% or 23 ± 6% in the presence of l-NNA or Indo, respectively. In the presence of BQ-788, sarafotoxin S6c decreased AT (21 ± 3% at 10−6 M) in muscles with intact EE, an effect that was abolished when EE was damaged. IRL-1620 also decreased AT (22 ± 3% at 10−6 M) in muscles with intact EE, an effect that was abolished when EE was damaged or in the presence of l-NNA or Indo. In conclusion, the ETB-mediated negative inotropic effect is presumably due to ETB1 stimulation, requires an intact EE, and is mediated by NO and prostaglandins, whereas the ETB-mediated positive inotropic effect, observed when EE was damaged or NO and prostaglandins synthesis inhibited, is presumably due to ETB2 stimulation.

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