Enantioselective synthesis of substituted oxindoles and spirooxindoles with applications in drug discovery.

Joseph J Badillo, Nadine V Hanhan, Annaliese K Franz
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Abstract

This review describes recent methods for the enantioselective synthesis of oxindoles and spirooxindoles, with a particular focus on scaffolds with applications in drug discovery. The synthetic challenge of the spiro-motif and the important biological activity of spirooxindoles continue to encourage the development of creative methods to access these important structures. Unique spirocycles often result from creative synthetic methods that would not typically be identified using classical synthetic disconnections. To establish the importance of asymmetric synthesis in the context of oxindole structures, recent examples are highlighted in which stereospecific binding and differential biological activity have been demonstrated based on the configuration at the 3-position. This review is organized by type of catalyst and synthetic strategy in order to compare traditional organometallic and Lewis acid methods with more recent organocatalytic methods. A section describing multicomponent and cascade reaction strategies is also included.

取代吲哚和螺旋吲哚的对映选择性合成及其在药物发现中的应用。
本文综述了近年来对映选择性合成氧吲哚和螺吲哚的方法,重点介绍了在药物发现中的应用。螺旋基序的合成挑战和螺旋吲哚的重要生物活性继续鼓励创造性方法的发展,以获得这些重要的结构。独特的螺旋循环通常是由创造性的合成方法产生的,而这些合成方法通常不能用经典的合成断开来识别。为了确定不对称合成在氧吲哚结构中的重要性,本文强调了最近的例子,其中基于3位构型的立体特异性结合和差异生物活性已被证明。本文根据催化剂类型和合成策略对传统的有机金属和路易斯酸方法与最新的有机催化方法进行了比较。一节描述多组分和级联反应策略也包括在内。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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