Antagonism of the stimulatory effects of efaroxan and glibenclamide in rat pancreatic islets by the imidazoline, RX801080

1 The imidazoline α2‐adrenoceptor antagonist, efaroxan, stimulates insulin secretion from rat isolated islets and antagonizes the ability of diazoxide to inhibit glucose‐induced insulin secretion. These effects result from closure of ATP‐sensitive potassium channels although the mechanisms involved...

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Bibliographic Details
Published in:British journal of pharmacology 1993-11, Vol.110 (3), p.1017-1022
Main Authors: Brown, Colin A., Chan, Susan L.F., Stillings, Michael R., Smith, Stephen A., Morgan, Noel G.
Format: Article
Language:English
Subjects:
Adrenergic alpha-Antagonists - antagonists & inhibitors
Adrenergic alpha-Antagonists - pharmacology
adrenoceptor
Animals
Benzofurans - antagonists & inhibitors
Benzofurans - pharmacology
Binding, Competitive
Biological and medical sciences
Cell Membrane - metabolism
Drug Interactions
efaroxan
Exocrine pancreas
Fundamental and applied biological sciences. Psychology
glibenclamide
Glyburide - antagonists & inhibitors
Glyburide - pharmacology
Imidazoles - antagonists & inhibitors
Imidazoles - pharmacology
Imidazoline Receptors
Insulin - metabolism
Insulin Secretion
Islets of Langerhans
Islets of Langerhans - drug effects
Islets of Langerhans - metabolism
Kinetics
Male
potassium channel
Rats
Rats, Wistar
Receptors, Drug - antagonists & inhibitors
Receptors, Drug - physiology
RX801080
Stimulation, Chemical
sulphonylurea
Vertebrates: digestive system
α2‐antagonist
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Summary:1 The imidazoline α2‐adrenoceptor antagonist, efaroxan, stimulates insulin secretion from rat isolated islets and antagonizes the ability of diazoxide to inhibit glucose‐induced insulin secretion. These effects result from closure of ATP‐sensitive potassium channels although the mechanisms involved have not been elucidated. 2 In the present work, we have examined the effects of a close structural analogue of efaroxan, RX801080, in rat isolated islets of Langerhans. RX801080 was found to be ineffective as a stimulator of insulin secretion and did not prevent the inhibition of insulin secretion mediated by diazoxide. 3 RX801080 acted as an antagonist of the actions of several imidazolines (efaroxan, phentolamine and midaglizole) in rat islets. It dose‐dependently inhibited the ability of efaroxan to antagonize the effects of diazoxide in islets and also completely inhibited the direct stimulation of insulin secretion mediated by efaroxan. 4 RX801080 also antagonized the effects of the non‐imidazoline, ATP‐sensitive potassium channel blocker, glibenclamide, in rat islets. It inhibited both the capacity of glibenclamide to stimulate insulin secretion and the ability of glibenclamide to overcome the inhibitory effects of diazoxide in rat islets. 5 Antagonism of glibenclamide responses by RX801080 was not due to inhibition of binding of the sulphonylurea to its receptor on the pancreatic β‐cell. 6 The results suggest that imidazoline compounds and sulphonylureas interact with distinct binding sites on islet cells, but that these sites can interact functionally to control islet cell ATP‐sensitive potassium channel activity and insulin secretion.
ISSN:0007-1188
1476-5381
DOI:10.1111/j.1476-5381.1993.tb13915.x