A series of aralkylphenoxyethylamine and aralkylmethoxyphenylpiperazine compounds was synthesized and their in vitro pharmacological profile at both 5-HT(1A) receptors and α(1)-adrenoceptor subtypes was measured by binding assay and functional studies. The results showed that the replacement of the 1,3-dioxolane ring by a tetrahydrofuran, cyclopentanone, or cyclopentanol moiety leads to an overall reduction of in vitro affinity at the α(1)-adrenoceptor while both potency and efficacy were increased at the 5-HT(1A) receptor. A significant improvement of 5-HT(1A)/α(1) selectivity was observed in some of the cyclopentanol derivatives synthesized (4acis, 4ccis and trans). Compounds 2a and 4ccis emerged as novel and interesting 5-HT(1A) receptor antagonist (pK(i) = 8.70) and a 5-HT(1A) receptor partial agonist (pK(i) = 9.25, pD(2) = 9.03, E(max) = 47%, 5-HT(1A)/α(1a) = 69), respectively. Docking studies were performed at support of the biological data and to elucidate the molecular basis for 5-HT(1A) agonism/antagonism activity.
Conformational restriction of naftopidil proved to be compatible with binding at alpha(1) adrenoceptor subtypes and 5-HT receptor 1A (5-HT(1A)), and led to the discovery of a new class of ligands with a 1,3-dioxolane (1,3-oxathiolane, 1,3-dithiolane) structure. Compound 7 shows the highest affinity toward alpha(1a) and alpha(1d) adrenoceptor subtypes (pK(i) alpha(1a) = 9.58, pK(i) alpha(1d) = 9.09) and selectivity over 5-HT(1A) receptors (alpha(1a)/5-HT(1A) = 100, alpha(1d)/5-HT(1A) = 26). In functional experiments it behaves as a potent competitive alpha(1a) and alpha(1d) adrenoceptor antagonist (pK(b) alpha(1A) = 8.24, pK(b) alpha(1D) = 8.14), whereas at 5-HT(1A) receptors it is a potent partial agonist (pD(2) = 8.30). Compounds 8 and 10 display high affinity (pK(i) = 8.29 and 8.26, respectively) and selectivity for 5-HT(1A) (5-HT(1A)/alpha(1) = 18 and 10). In functional experiments at the 5-HT(1A) receptor, compound 8 appears to be neutral antagonist (pK(b) = 7.29), whereas compound 10 is a partial agonist (pD(2) = 6.27). Therefore, 1,3-dioxolane-based ligands are a versatile class of compounds useful for the development of more selective ligands for one (alpha(1)) or the other (5-HT(1A)) receptor system.
Herein we report the synthesis and biological activity of new sigma receptor (σR) ligands obtained by combining different substituted five-membered heterocyclic rings with appropriate σR pharmacophoric amines. Radioligand binding assay, performed on guinea pig brain membranes, identified 25b (1-(1,4-dioxaspiro[4.5]decan-2-ylmethyl)-4-benzylpiperazine) as the most interesting compound of the series, displaying high affinity and selectivity for σ1R (pKiσ1 = 9.13; σ1/σ2 = 47). The ability of 25b to modulate the analgesic effect of the κ agonist (-)-U-50,488H and μ agonist morphine was evaluated in vivo by radiant heat tail-flick test. It exhibited anti-opioid effects on both κ and μ receptor-mediated analgesia, suggesting an agonistic behavior at σ1R. Docking studies were performed on the theoretical σ1R homology model. The present work represents a new starting point for the design of more potent and selective σ1R ligands.
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