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Influence of the metabolic state on the action of phenylephrine on rabbit ileum, guinea-pig vas deferens and atrium (1973)

Wagner, J. ; Reinhardt, D. ; Schümann, H. J.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 276 (1973), S. 63-70

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ISSN: 1432-1912

Keywords: Isolated Organs ; Adrenergic α- and β-Receptors ; Temperature ; Metabolic Inhibition

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Under the conditions of altered temperature or metabolic inhibition experiments have been carried out on isolated organs with adrenergic α- and β-receptors, i.e., on rabbit ileum and guinea-pig vas deferens and atrium. Using phenylephrine as a selective α-adrenergic stimulant we were interested to determine whether or not an alteration of the metabolic conditions was capable of causing changes in the affinity of phenylephrine which were identical for the α- and β-receptors. 1. Rabbit Ileum. At 25°C the affinity of phenylephrine to the inhibitory adrenergic α-receptors was 100 times higher than to the β-receptors. Its affinity to the α-receptors was not influenced by raising the temperature or inhibiting the metabolic rate by iodoacetic acid (IAA), whereas that to the β-receptors was diminished to a great extent by raising the temperature. Preincubation at 42°C with the metabolic inhibitor IAA increased the affinity to β-receptors so that it was similar to that at 25°C. 2. Vas Deferens. The excitatory α-mimetic effect of phenylephrine was similarly unaltered by raising the temperature of the bath from 25° to 42°C. IAA did not affect responses to phenylephrine. 3. Guinea-Pig Atrium. An increase of the temperature from 25° to 42°C significantly decreased the affinity of phenylephrine to the β-receptors, whereas IAA at 42°C increased it almost to control values at 25°C. 4. The experiments show that the sensitivity of α-receptors is not altered by an increase of temperature irrespective of whether the α-receptors are mediating inhibitory or excitatory effects, whereas that of the β-receptors is depressed. These results favour the hypothesis that stimulation of α-receptors is independent of, while that of the β-receptors is strongly dependent on the metabolic rate.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00500779

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Beta-adrenolytic, antiarrhythmic and local anaesthetic effects of phenylephrine (1974)

Reinhardt, D. ; Wagner, J.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 284 (1974), S. 245-261

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ISSN: 1432-1912

Keywords: Phenylephrine ; Isolated Organs ; Competitive Dualism in Action ; Local Anaesthesia ; Antiarrhythmic Activity

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The β-sympathomimetic effect of phenylephrine was investigated on the electrically driven atrium, as well as on the tracheal chain of the guinea pig. 1. Phenylephrine (PE) was found to be less effective than isoprenaline (IPN) with regard to its positive inotropic effect on the guinea-pig atrium and to its relaxing action on the tracheal chain. The intrinsic activity for PE amounted to 0.75 on the tracheal chain and to 0.45 on the atrium, when compared with IPN. 2. From these low intrinsic activities, PE was assumed to be a partial β-agonist, exerting a competitive dualism in action to IPN. This dualism could be confirmed by dose-response curves for PE in the presence of IPN and vice versa: PE behaved as a β-agonist as well as a β-antagonist. 3. The intrinsic activity of PE steadily decreased with prolongation of the incubation period. After 1 h PE had almost lost its intrinsic activity. Under these conditions the dose-response curves for IPN on the tracheal chain, as well as on atrium, were shifted to the right in a parallel manner, i.e. PE behaved as a competitive β-antagonist. 4. High concentrations of PE (10−3 M) protected the electrically driven guineapig atrium against arrhythmias induced by k-strophanthoside. The onset of both the first extrasystoles and of heart standstill, which occurred after infusion of k-strophanthoside, were delayed after preincubation with PE. 5. Phentolamine was without any influence on these antiarrhythmic properties of PE. Therefore, it could be excluded that the antiarrhythmic effect of phenylephrine is due to a stimulation of myocardial α-adrenoceptors. 6. The local anaesthetic activity of phenylephrine, as tested on the rabbit cornea, was 4 times higher than that of propranolol. 7. The effective concentrations for the β-adrenolytic, antiarrhythmic, and local anaesthetic activities of PE were clearly different. We concluded, therefore, that the different actions produced by phenylephrine were not associated with each other.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00500345

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Sensitivity changes of adrenergic β-receptors induced by alterations of the metabolic state of isolated organs (1972)

Schümann, H. J. ; Wagner, J. ; Reinhardt, D.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 275 (1972), S. 105-113

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ISSN: 1432-1912

Keywords: Sympathomimetic Affinity ; β-Receptors ; Temperature ; Metabolic State ; Isolated Organs

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Experiments on isolated organs-rabbit ileum, guinea-pig trachea and atrium — with different “β-receptor subtypes” were carried out in order to determine whether changes of the metabolic state or of the extracellular pH were able to alter the responsiveness of these receptors to sympathomimetic amines. 1. Guinea-Pig Atrium. Lowering of the pH of the bath fluid from 7.48 to 6.79 resulted in a significant decrease of the affinity of isoprenaline (IPN) calculated as the pD2-value. Metabolic inhibition induced by iodoacetic acid (IAA) (5×10−5 M) increased the affinity of Th 1165a. 2. Rabbit Ileum. The affinity of IPN was not changed by lowering the pH, even to values of 6.11. At this pH the spontaneous motility was already markedly impaired. IAA (2.4×10−5 M) caused a moderate increase in the affinity of IPN whereas those of Th 1165a and orciprenaline (OPN) were elevated 10-fold. 3. Guinea-Pig Trachea. Lowering of the pH caused a decrease of the pD2-values of IPN and in particular of Th 1165a. The metabolic inhibitor IAA had no influence upon the pD2 value of IPN. 4. The present results favour the existence of only one type of β-receptor which changes its sensitivity depending on the metabolic state. It seems therefore very likely that the affinity of sympathomimetic drugs depends not only on the structure of the β-receptor but also on the metabolic state of the tissue.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00505071

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