2-SUBSTITUTED 5-METHOXY-N-ACYLTRYPTAMINES - SYNTHESIS, BINDING-AFFINITY FOR THE MELATONIN RECEPTOR, AND EVALUATION OF THE BIOLOGICAL-ACTIVITY

A series of a-substituted 5-methoxy-N-acyltryptamines was synthesized and their affinity for the melatonin receptor, isolated from whole quail brains, was tested in a succession of in vitro ligand-receptor binding experiments, using 2-[I-125] iodomelatonin as a labeled ligand. Optimization of the C-2 substituent and the N-acyl group resulted in compounds having picomolar affinity for the receptor (vs nanomolar affinity for melatonin). In two tests for evaluation of the biological activity (effects on the spontaneous firing activity of single neurons in the rabbit parietal cortex in situ, and the Syrian hamster gonadal regression model in vivo) most of the analogs behaved as agonists. Isopropyl substitution at C-2 alone, or concomitantly with cyclopropyl substitution at the N-acyl position, resulted in much lower affinity and weaker biological effect, or lack of activity in the latter case. Of interest are the compounds 4d (R = phenyl, R(1) = CH3) and 4g (R = phenyl, R(1) = cyclopropyl), which expressed high affinity for the receptor and apparent antagonistic activity under the conditions of the experimental model employed, though the analog 4g (R = phenyl, R(1) = cyclopropyl) seemingly was a weak antagonist and in situ expressed mixed activity in the higher concentration range. Cyclopropyl substitution at the N-acyl position inevitably resulted in lower affinity for the receptor and weaker biological activity. These data demonstrate that the N-acetyl group is important for both affinity and agonist biological activity. The substituents at C-2 are crucial for the affinity of the compound for the receptor and can be utilized to create putative high-affinity agonists or antagonists.