Sharma Pragya, Taneja Neha, Singh Sanjay, Hazra Chinmoy K
Department of Chemistry, Indian Institute of Technology Delhi Hauz Khas, New Delhi, 110016, India.
Chemistry. 2023 Jan 9;29(2):e202202956. doi: 10.1002/chem.202202956. Epub 2022 Nov 10.
A three-component, solvent-dependent, Brønsted-acid-catalyzed reaction of benzaldehydes, silyl enolates and arene nucleophiles has been developed for the synthesis of potential drug candidate 3-aryl-1-indanones. This reaction features the formation of three C-C bonds, high regioselectivity in a one-pot strategy, broad substrate generality, facile scalability (1.04g), high functional group tolerance and viable substrates. The β-O-silyl ethers generated in-situ from the Mukaiyama aldol reaction were subjected to acid-catalyzed benzylic arylation with strong as well as weak nucleophiles, and the resultant β,β-diaryl esters can undergo a third C-C bond formation with excellent regioselectivity through intramolecular cyclization to afford the indanone products in the same pot. Detailed mechanistic insight leads to a feasible reaction pathway. This transformation opens up a practical and adaptable approach to producing a variety of synthetically valuable transformations and enable the synthesis of medicinally valuable (R)-tolterodine and (+)-indatraline.
已开发出一种由苯甲醛、硅基烯醇化物和芳烃亲核试剂参与的三组分、溶剂依赖性、布朗斯特酸催化反应,用于合成潜在的药物候选物3-芳基-1-茚满酮。该反应具有形成三个碳-碳键、一锅法策略中的高区域选择性、广泛的底物通用性、易于放大(1.04克)、高官能团耐受性和可行的底物等特点。由 Mukaiyama 羟醛反应原位生成的β-O-硅基醚与强亲核试剂和弱亲核试剂进行酸催化的苄基芳基化反应,所得的β,β-二芳基酯可通过分子内环化以优异的区域选择性进行第三个碳-碳键的形成,从而在同一反应釜中得到茚满酮产物。详细的机理研究揭示了一条可行的反应途径。这种转化为产生各种具有合成价值的转化反应开辟了一种实用且适应性强的方法,并能够合成具有药用价值的(R)-托特罗定和(+)-茚达曲林。
