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Tonon, M.C. et al.

Central-type benzodiazepines and the octadecaneuropeptide modulate the effects of GABA on the release of alpha-melanocyte-stimulating hormone from frog neurointermediate lobe in vitro.

The involvement of the GABA-benzodiazepine receptor complex in the regulation of melanotropin secretion has been investigated using perfused frog neurointermediate lobes. The GABAA agonist 3-amino-1 propane sulfonic acid mimicked the biphasic effect of GABA on alpha-melanocyte-stimulating hormone secretion: a brief stimulation followed by an inhibition of melanotropin secretion. The GABAA antagonist SR 95531 (10(-4) M) inhibited both stimulation and inhibition of alpha-melanocyte-stimulating hormone release induced by GABA (10(-4) M). Since the inhibitory effect of baclofen (10(-4) M) was partially antagonized by SR 95531 (10(-4) M), it appears that the GABAergic control of alpha-melanocyte-stimulating hormone release is mainly achieved through activation of GABAA receptors. GABA-induced stimulation of alpha-melanocyte-stimulating hormone release was inhibited by tetrodotoxin (10(-5) M), an Na+ -channel blocker, or nifedipine (10(-5) M), a voltage-dependent Ca2+ -channel blocker, suggesting that Na+ and Ca2+ ions are involved in the stimulatory phase of GABA action. Only central-type benzodiazepine binding site agonists such as clonazepam (10(-4) M) modified alpha-melanocyte-stimulating hormone release. In fact, clonazepam (10(-7) to 10(-5) M) led to a dose-dependent potentiation of both GABA-induced stimulation and inhibition of alpha-melanocyte-stimulating hormone release. This potentiating effect was antagonized by the GABAA antagonist SR 95531 (10(-4) M) or by the central-type benzodiazepine binding site antagonist flumazenil (10(-4) M), whereas picrotoxin (10(-4) M) abolished only the stimulatory phase.(ABSTRACT TRUNCATED AT 250 WORDS)[1]

References

Central-type benzodiazepines and the octadecaneuropeptide modulate the effects of GABA on the release of alpha-melanocyte-stimulating hormone from frog neurointermediate lobe in vitro. Tonon, M.C., Adjeroud, S., Lamacz, M., Louiset, E., Danger, J.M., Desrues, L., Cazin, L., Nicolas, P., Vaudry, H. Neuroscience (1989) [Pubmed]

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