Parui Nabin, Mandal Tirtha, Maiti Sandip, Dash Jyotirmayee
School of chemical sciences, Indian Association for the Cultivation of Science, Jadavpur, 700032, Kolkata, India.
Chemistry. 2024 Jun 17;30(34):e202401059. doi: 10.1002/chem.202401059. Epub 2024 May 22.
Cyclohepta[b]indoles, prevalent in natural products and pharmaceuticals, are conventionally accessed via metal or Lewis acid-mediated cycloadditions with prefunctionalized substrates. Our study introduces an innovative sequential catalytic assembly for synthesizing cyclohepta[b]indoles from readily available isatin derivatives. The process involves three catalytic sequences: ring-closing metathesis, catalytic hydrogenation, and acid-catalyzed ring expansion. The RCM of 2,2-dialkene-3-oxindoles, formed by butenyl Grignard addition to 3-allyl-3-hydroxy-2-oxindoles, yields versatile spirocyclohexene-3-oxindole derivatives. These derivatives undergo further transformations, including dibromination, dihydroxylation, epoxidation, Wacker oxidation at the double bond. Hydrogenation of spirocyclohexene-3-oxindole yields spirocyclohexane-3-oxindoles. Their subsequent acid-catalyzed ring expansion/aromatization, dependent on the acid catalyst, results in either cyclohepta[b]indoles or cyclohepta[b]indole-indoline conjugates, adding a unique synthetic dimension. The utility of this methodology is exemplified through the synthesis of an A-FABP inhibitor, showcasing its potential in pharmaceutical applications.
环庚并[b]吲哚广泛存在于天然产物和药物中,传统上是通过金属或路易斯酸介导的与预官能化底物的环加成反应来制备。我们的研究引入了一种创新的顺序催化组装方法,用于从容易获得的异吲哚酮衍生物合成环庚并[b]吲哚。该过程涉及三个催化步骤:关环复分解反应、催化氢化反应和酸催化的扩环反应。由丁基格氏试剂加成到3-烯丙基-3-羟基-2-异吲哚酮上形成的2,2-二烯烃-3-异吲哚酮进行关环复分解反应,生成通用的螺环己烯-3-异吲哚酮衍生物。这些衍生物会经历进一步的转化,包括双键的二溴化、二羟基化、环氧化、瓦克氧化反应。螺环己烯-3-异吲哚酮的氢化反应生成螺环己烷-3-异吲哚酮。随后根据酸催化剂的不同,它们经酸催化的扩环/芳构化反应,生成环庚并[b]吲哚或环庚并[b]吲哚-二氢吲哚共轭物,增加了独特的合成维度。通过合成一种A-FABP抑制剂证明了该方法的实用性,展示了其在药物应用中的潜力。
