Medicinal Chemistry and Pharmacology Division, Indian Institute of Chemical Technology, Hyderabad, 500 607, India.
Department of Chemistry, The Institute of Science, Mumbai, Dr. Homi Bhabha State University, Mumbai, 15, Madame Cama Road, Mumbai, 32, India.
J Org Chem. 2021 May 7;86(9):6056-6065. doi: 10.1021/acs.joc.0c02542. Epub 2021 Apr 19.
Benzimidazol-amino thiazoles are synthesized under microwave irradiations using benzimidazole phenyl thiourea and 2-bromoacetophenone. Bifunctional hydrogen bonding plays an important role in chemical conversion. The reaction was carried out by C-C bond formation, followed by C-N bond cleavage and simultaneous migration of the benzimidazole ring. This reaction is novel and efficient for the synthesis of benzimidazol-amino thiazoles in which microwaves were used as driving forces. Synthesis of the product was controlled by double hydrogen bonding which is practically confirmed by the synthesis of routine imino-thiazole as an alternative product in the simple acidic condition. The simple acidic condition is neither responsible nor sufficient for optimum conversion of the benzimidazole migrated product. The synthesized products benzimidazole amino thiazoles (IC = 4.207 μM) and (IC = 2.398 μM) show interesting anticancer activities for human lung cancer with reference to doxorubicin (IC = 1.750 μM).
苯并咪唑-氨基噻唑是在微波照射下,由苯并咪唑苯硫脲和 2-溴苯乙酮合成的。双氢键在化学转化中起着重要作用。反应通过 C-C 键形成进行,然后 C-N 键断裂,同时苯并咪唑环迁移。这种反应是新颖的,并且在合成苯并咪唑-氨基噻唑中非常有效,其中微波被用作驱动力。产物的合成由双氢键控制,这通过在简单的酸性条件下作为替代产物合成常规亚氨基噻唑来实际证实。简单的酸性条件既不是最佳转化率的原因,也不是充分条件。合成的苯并咪唑氨基噻唑产物 (IC = 4.207 μM) 和 (IC = 2.398 μM) 对人肺癌具有有趣的抗癌活性,参考阿霉素 (IC = 1.750 μM)。
