Mehta Rajendra S, Prajapati Hetal R, Thakkar Dinesh V, Brahmkshatriya Pathik S
Department of Pharmaceutical Chemistry, A R College of Pharmacy and G H Patel Institute of Pharmacy, Mota Bazar, Vallabh VidyaNagar, Dist. Anand, Gujarat, India;
Int J Biomed Sci. 2008 Dec;4(4):266-72.
As a therapeutic target, protein tyrosine phosphatase 1B (PTP1B) has received considerable attention for the treatment of diabetes mellitus. A QSAR study using substituted monocyclic and polycyclic thiophene derivatives, recently reported as potent PTP1B inhibitors, was carried out. More than 60 physicochemical descriptors were calculated which underwent rational selection before their use in derivation of QSAR models. Statistically significant equations were generated using multiple linear regression analysis. External validation of the derived models with test set compounds proved good predictability of the models. Interpretation of the results revealed lipophilicity as a key regulatory feature which affects PTP1B inhibition along with several electronic and steric parameters. The study provides an important platform upon which novel rationally designed molecules can be synthesized with cautious optimism.
作为一种治疗靶点,蛋白酪氨酸磷酸酶1B(PTP1B)在糖尿病治疗方面受到了广泛关注。最近报道了一系列取代单环和多环噻吩衍生物作为有效的PTP1B抑制剂,并开展了一项定量构效关系(QSAR)研究。计算了60多个物理化学描述符,在将其用于QSAR模型推导之前进行了合理筛选。使用多元线性回归分析生成了具有统计学意义的方程。用测试集化合物对推导模型进行外部验证,结果表明模型具有良好的预测能力。结果解释显示,亲脂性是影响PTP1B抑制作用的关键调控特征,同时还有几个电子和空间参数。该研究提供了一个重要平台,在此基础上可以谨慎乐观地合成新型的合理设计分子。