Aline Brouard scite author profile

We describe the characteristics of SR 48692, a selective, nonpeptide antagonist of the neurotensin receptor. In vitro, this compound competitively inhibits 125I-labeled devoid of any intrinsic agonist activity. This compound is also active in vivo, since it reverses at low dose (80 pg/kg) the turning behavior induced by intrastriatal injection of neurotensin in mice with similar potency whatever the route of administration (i.p. or orally) and with a long duration of action (6 hr). Thus, being a potent and selective neurotensin receptor antagonist, SR 48692 may be considered as a powerful tool for investigating the role of neurotensin in physiological and pathological processes.

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Mesencephalic dopaminergic neurons in primary cultures express functional neurotensin receptors

Brouard

Pélaprat

Dana

et al. 1992

J. Neurosci.

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The cellular distribution and functional aspects of neurotensin (NT) binding sites in rat mesencephalic cells in primary culture were investigated by an original approach combining anatomical and biochemical studies. Using a double-labeling protocol combining 125I-NT receptor radioautography and tyrosine hydroxylase (TH) immunocytochemistry, we obtained the first direct visualization of NT binding sites on TH-immunoreactive neurons. Eighty percent of the TH neurons were endowed with NT binding sites, which can be observed on both cell bodies and processes. TH-immunoreactive neurons were characterized as dopaminergic neurons by their ability to take up dopamine in a benztropine- and nomifensine-sensitive manner. In the mesencephalic cultures, NT increased potassium-evoked release of tritiated dopamine, and the relative potencies of various NT-related peptides to increase dopamine release were in good agreement with their abilities to bind to NT sites. These results show for the first time that cultured rat mesencephalic dopaminergic cells express functional NT receptors. Finally, the specificity and distribution of NT receptors on dopaminergic neurons in primary culture are quite similar to what was observed in the adult rat brain using pharmacological and radioautographic approaches. These data indicate that NT can influence the activity of dopaminergic neurons at very early stages of the rat brain development.

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Interaction between Neurotensin and Dopamine in the Brain

Rostène

Brouard

Dana

et al. 1992

Annals of the New York Academy of Sciences

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Aline Brouard

Biochemical and pharmacological profile of a potent and selective nonpeptide antagonist of the neurotensin receptor.

Mesencephalic dopaminergic neurons in primary cultures express functional neurotensin receptors

Interaction between Neurotensin and Dopamine in the Brain

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