Evolution of the Bifunctional Lead μ Agonist/δ Antagonist Containing the 2′,6′-Dimethyl-l-tyrosine−1,2,3,4-Tetrahydroisoquinoline-3-carboxylic Acid (Dmt−Tic) Opioid Pharmacophore
Citations Over Time
Abstract
Based on a renewed importance recently attributed to bi- or multifunctional opioids, we report the synthesis and pharmacological evaluation of some analogues derived from our lead μ agonist / δ antagonist, H-Dmt-Tic-Gly-NH-Bzl. Our previous studies focused on the importance of the C-teminal benzyl function in the induction of such bifunctional activity. The introduction of some substituents in the para position of the phenyl ring (-Cl, -CH(3), partially -NO(2), inactive -NH(2)) was found to give a more potent μ agonist / antagonist effect associated with a relatively unmodified δ antagonist activity (pA(2) = 8.28-9.02). Increasing the steric hindrance of the benzyl group (using diphenylmethyl and tetrahydroisoquinoline functionalities) substantially maintained the μ agonist and δ antagonist activities of the lead compound. Finally and quite unexpectedly D-Tic2, considered as a wrong opioid message now; inserted into the reference compound in lieu of L-Tic, provided a μ agonist / δ agonist better than our reference ligand (H-Dmt-Tic-Gly-NH-Ph) and was endowed with the same pharmacological profile.
Related Papers
- → Molecular Design Based on 3D Pharmacophores. Applications to 5-HT7Receptors(2004)21 cited
- → <i>In-Silico</i> Identification of Anticancer Compounds; Ligand-Based Pharmacophore Approach against EGFR Involved in Breast Cancer(2021)6 cited
- → Applications of Pharmacophore Mapping☆(2014)3 cited
- → PHARMACOPHORE BASED SCREENING OF EPICATECHIN AGAINST COLON CANCER(2012)1 cited
- → Computational Modeling of Selective Pharmacophores at the α 1 ‐Adrenergic Receptors(2008)2 cited