Journal of the Serbian Chemical Society (Nov 2004)
The synthesis and pharmacological evaluation of (±)-2,3-seco-fentanyl analogues
Abstract
An efficient, five-step synthetic approach to various acyclic 1,3-diamines has been developed and applied to the preparation of a novel class of open-chained fentanyl analogues. The acyclic derivatives 5.15.5 (all new compounds) were synthesized with the aim of estimating the significance of the piperidine ring for the opioid analgesic activity of anilido-piperidines. The starting b-keto-amide 1.1, prepared by the aminolysis of methyl acetoacetate with methylphenethylamine, (93 % yield), was successively reacted with NaH and BuLi, to form the highly reactive a,g-dienolate anion 1.1a. Regio and chemoselective g-alkylation of the dienolate with various primary and secondary alkyl halides furnished the b-keto-amides 1.21.5 (7691 %). Reductive amination of the keto-amides 1.11.5 with aniline and Zn powder in acetic acid, via the enamine intermediates 2.12.5, afforded the b-anilino amides 3.13.5 (7485 %). After reductive deoxygenation of the tertiary amide group, using in situ generated diborane, the corresponding 1,3-diamines 4.14.5 were obtained (8797 %). The synthesis of (±)-2,3-seco-fentanyls 5.15.5 was completed by N-acylation of the diamines 4.14.5 with propionyl chloride, followed by precipitation of the monooxalate salts (8695 %). The parent compound, 2,3-seco-fentanyl 5.1, was found to be a 40 times less potent narcotic analgesic than fentanyl but still 56 times more active than morphine in rats, while i-Pr derivative 5.3 was inactive. Apart from the pharmacological significance, the general procedure described herein may afford various functionalized, 1,3-diamines as potential complexing agents and building blocks for the synthesis of aza-crown ethers.
