N4-unsubstituted N1-arylpiperazines as high-affinity 5-HT1A receptor ligands

Autor: Adriaan P. IJzerman, van Wijngaarden I, W. Kuipers, Tulp Martinus Th M, ter Horst-van Amstel M, C. G. Kruse
Rok vydání: 1995
Předmět:
Zdroj: Journal of medicinal chemistry. 38(11)
ISSN: 0022-2623
Popis: In order to explore the structural requirements for high 5-HT 1A affinity, a series of arylsubstituted N 1 -phenylpiperazines were synthesized and evaluated for their ability to displace [ 3 H]-8-OH-DPAT from its specific binding sites in rat frontal cortex homogenates. We found 2-methoxy substitution to be favorable, while 4-methoxy substitution was detrimental for 5-HT 1A affinity. Substitution with annelated rings at the 2,3-positions was highly favorable for all investigated compounds, with the exception of a pyrrole ring. All other substitutions, except fluoro, in this class of heterobicyclic phenylpiperazines decreased affinity in the order : ortho > para > meta. The loss of affinity in the ortho and para positions is probably due to steric factors : the substituents either cause steric hindrance with the receptor or prevent the compound from adopting the appropriate conformation for binding to the 5-HT 1A receptor. Conformational analysis combined with structure-affinity relationships (SAR) indicates that our arylpiperazines may bind at the 5-HT 1A receptor in a nearly coplanar conformation. Observed interactions of the compounds in our 5-HT 1A receptor model appeared to be in agreement with SAR data. The aromatic part of the arylpiperazine moiety has π-π interactions with the aromatic residues Trp161 and Phe362 in helices IV and VI, respectively. The positively charged protonated basic nitrogen forms a hydrogen bond with the negatively charged Asp116 in helix III. The ammonium-aspartate complex is surrounded by aromatic residues Trp358 and Phe361 in helix VI. A lipophilic pocket is formed by Phe362, Leu366 (both helix VI), and the methyl group of Thr200 (helix V). In agreement with the model, addition of a methyl substituent to the structure of the benzodioxine analogue 12 in this region, yielding 13, is favorable for 5-HT 1A receptor affinity. Unfavorable positions for substitution with bulky groups, like the 3- and 4-positions in the benzofuran compound 14, are explained by steric hindrance with the backbone atoms of helix V. Thus, we were able to rationalize the 5-HT 1A SAR of existing N 1 -phenylpiperazines, as well as a series of newly synthesized bicyclic heteroarylpiperazines, in terms of receptor-ligand interactions. Several of these N 4 -unsubstituted compounds had affinities in the low-nanomolar range.
Databáze: OpenAIRE
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