Abstract
An efficient synthetic route to highly substituted dihydroquinolines and dihydronaphthyridines has been developed using a domino reaction of Morita-Baylis-Hillman (MBH) acetates with primary aliphatic and aromatic amines in DMF at 50–90 °C. The MBH substrates incorporate a side chain acetate positioned adjacent to an acrylate or acrylonitrile aza-Michael acceptor as well as an aromatic ring activated toward SNAr ring closure. A control experiment established that the initial reaction was an SN2′-type displacement of the side chain acetate by the amine to generate the alkene product with the added nitrogen nucleophile positioned trans to the SNAr aromatic ring acceptor. Thus, equilibration of the initial alkene geometry is required prior to cyclization. A further double bond migration was observed for several reactions targeting dihydronaphthyridines from substrates with a side chain acrylonitrile moiety. MBH acetates incorporating a 2,5-difluorophenyl moiety were found to have dual reactivity in these annulations. In the absence of O2, the expected dihydroquinolines were formed, while in the presence of O2, quinolones were produced. All of the products were isolated in good to excellent yields (72–93%). Numerous cases (42) are reported, and mechanisms are discussed.
Highlights
We recently disclosed a synthesis of 1,3,6-trisubstituted naphthalenes and 6,8-disubstituted quinolines from Morita-Baylis-Hillman (MBH) acetates and active methylene compounds (AMCs) in DMF with K2 CO3 at 23–90 ◦ C [1]
MBH adducts hold great potential in drug synthesis [4,5] due to their high functiona density, which makes them prime candidates for domino reactions to prepare a wide range of cyclic targets. 1,2-Dihydroquinolines exhibit valuable biological activity agains a wide range of human and animal health disorders [6,7,8,9]
We have investigated the synthesis of dihydroquinolines and dihydronaphthyridines from Morita-Baylis-Hillman acetates and primary amines in DMF
Summary
We recently disclosed a synthesis of 1,3,6-trisubstituted naphthalenes and 6,8-disubstituted quinolines from Morita-Baylis-Hillman (MBH) acetates and active methylene compounds (AMCs) in DMF with K2 CO3 at 23–90 ◦ C [1] This process formally involved SN 20 displacement of the acetoxy group by the stabilized AMC anion, a second deprotonation, SN Ar cyclization and elimination to give the aromatic product. In addition to yielding dihydroquinolines under anaerobic conditions, a difluoro-substituted MBH substrate showed disparate reactivity in generating a quinolone when reacted in the presence of O2. These findings complement earlier cyclizations by our group to form 1-alkyl-2,3-dihydro-4(1H)-quinolinones [2] and.
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