Kinetics of antagonism at histamine-H1 receptors in isolated rabbit arteries

Kinetics of antagonism at histamine-H1 receptors in isolated rabbit arteries

Kinetics of antagonist-induced decrease of histamine-H1 receptor-mediated steady-state responses in isolated rabbit arteries were studied in the presence of histamine-H2 receptor antagonist famotidine. Data were fitted using a model which describes competition kinetics at the receptor level. Estimat...

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Bibliographic Details
Published in:Naunyn-Schmiedeberg's archives of pharmacology Vol. 341; no. 4; pp. 316 - 323
Main Authors: ONGUN ONARAN, H, ARDA BOÊKESOY, T
Format: Journal Article
Language:English
Published: Heidelberg Springer 01-04-1990
Berlin
New York, NY
Subjects:
Animals
Antazoline - pharmacology
Arteries - drug effects
Biological and medical sciences
Brompheniramine - pharmacology
Female
Histamine - pharmacology
Histamine and antagonists. Allergy
Histamine H1 Antagonists - pharmacology
In Vitro Techniques
Kinetics
Male
Medical sciences
Muscle, Smooth, Vascular - drug effects
Pharmacology. Drug treatments
Pyrilamine - pharmacology
Rabbits
Statistical analysis
Rabbit
Lagomorpha
Antihistaminic
In vitro
Artery
H1 receptor
Histamine
Vertebrata
Biological fixation
Mammalia
Animal
Blood vessel
Kinetics
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Summary:Kinetics of antagonist-induced decrease of histamine-H1 receptor-mediated steady-state responses in isolated rabbit arteries were studied in the presence of histamine-H2 receptor antagonist famotidine. Data were fitted using a model which describes competition kinetics at the receptor level. Estimated rate and equilibrium constants were evaluated for their dependence on tissue, agonist and antagonist concentrations, using (+)-brompheniramine as antagonist. In large arteries (thoracic and arcus aorta), rate constants were observed to be modified by agonist and/or antagonist concentrations, suggesting a diffusion-controlled process. In relatively small (common carotid and iliac) arteries, estimated equilibrium constants (and consequently the rate constants) were found to diverge despite the invariance of equilibration times between arteries, leading us to include the effects of spare receptors in our evaluation. A model describing the effects of receptor reserve on the estimated equilibrium dissociation constant was developed and stimulated and the results then compared with those that had been experimentally estimated. The reserve hypothesis was experimentally verified in common iliac artery (where EC50 much less than KA) using the irreversible antagonist phenoxybenzamine. A rationalized rule for the optimization of experimental design for in-vitro disequilibrium-competition experiments was proposed. Common carotic artery was found to be favorable for the present design in view of its reserve properties. In addition, competition reaction seems to be the rate-determining step in this artery. Rate and equilibrium constants of mepyramine, (+)-brompheniramine, diphenhydramine and antazoline were therefore determined in the common carotid artery and were compared with those obtained from independent experiments. Results suggest that the estimated parameters reflect drug-receptor interaction.
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ISSN:0028-1298
1432-1912
DOI:10.1007/BF00180657