Abstract:The thermal [3+2] cycloadditions of two classes of aromatic azomethine imines with allenoates have been investigated. The reactions are operationally simple and proceed smoothly under mild reaction conditions to provide a variety of dinitrogen-fused heterocycles in moderate to excellent yields.Key words: cycloaddition, azomethine imine, allenoate, quinoline, isoquinoline Quinoline, isoquinoline and structurally related heterocycles occur widely in nature and some have a broad range of clinical applications, exhibiting a wide range of biological activities such as antitumor, anti-HIV, antibiotic, antifungal, antivirus, anti-inflammatory, anticoagulation, and bronchodilation, and can also act on the central nervous system. The tetrahydroquinoline derivative II shows activity against antibacterial targets such as DNA gyrase. 6 Accordingly, the synthesis of quinoline and isoquinoline derivatives has attracted much attention. 7 However, although many synthetic methods have been developed, 7 new procedures for their synthesis would still be highly desirable.Azomethine imines have emerged as a versatile 1,3-dipole for various thermal, metal-catalyzed, and organocatalytic 1,3-dipolar cycloaddition reactions and have been extensively applied in organic synthesis because of their easy accessibility, stability and the potential applications of the corresponding cycloadducts.
8,9The range of azomethine imines available for the cycloaddition reactions has been expanded to include various imines such as 3-oxopyrazolidin-1-ium-2-ide derivatives and benzoyl(3,4-dihydroisoquinolin-2-ium-2-yl)amides, but research on aromatic azomethine imines is somewhat limited. As part of our continuing efforts to develop the annulation reaction of azomethine imines, 11 we recently investigated the reactions of aromatic azomethine imines with allenoates. Herein, we present our results on the thermal [3+2] cycloaddition of aromatic azomethine imines with allenoates to furnish functionalized dinitrogen-fused tricyclic heterocycles.
Figure 1 Pharmaceutically active quinoline and isoquinoline-related derivativesThe azomethine imines 1, 8 and 13 were easily prepared according to reported procedures.
13In initial attempts, azomethine imine 1 was treated with the allenoate 2a in dichloromethane at room temperature for 96 hours (Scheme 1). The reaction worked sluggishly, and two new products were isolated in total 20% yield. When the reaction was carried out in toluene at room temperature for 96 hours, the same two products were obtained in poor yield (5%) due to the poor solubility of azomethine imine 1 in toluene. To increase the yield, the reaction was carried out in refluxing toluene. Under these conditions the azomethine imine was completely converted in 72 hours to give the product in 70% yield. However, several side-
