a Facultad de Química, Bioquímica y Farmacia , Universidad Nacional de San Luis , Chacabuco 915, 5700 San Luis , Argentina.
b IMIBIO-CONICET, UNSL , Chacabuco 915, 5700 San Luis , Argentina.
J Biomol Struct Dyn. 2019 Jan;37(1):229-246. doi: 10.1080/07391102.2018.1424036. Epub 2018 Feb 1.
We report in this work new substituted aminopyrimidine derivatives acting as inhibitors of the catalytic site of BACE1. These compounds were obtained from a molecular modeling study. The theoretical and experimental study reported here was carried out in several steps: docking analysis, Molecular Dynamics (MD) simulations, Quantum Theory Atom in Molecules (QTAIM) calculations, synthesis and bioassays and has allowed us to propose some compounds of this series as new inhibitors of the catalytic site of BACE1. The QTAIM study has allowed us to obtain an excellent correlation between the electronic densities and the experimental data of IC. Also, using combined techniques (MD simulations and QTAIM calculations) enabled us to describe in detail the molecular interactions that stabilize the different L-R complexes. In addition, our results allowed us to determine what portion of these compounds should be changed in order to increase their affinity with the BACE1. Another interesting result is that a sort of synergism was observed when the effects of these new catalytic site inhibitors were combined with Ac-Tyr5-Pro6-Tyr7-Asp8-Ile9-Pro10-Leu11-NH, which we have recently reported as a modulator of BACE1 acting on its exosite.
我们在这项工作中报告了新的取代的氨基嘧啶衍生物,它们作为 BACE1 催化位点的抑制剂。这些化合物是从分子建模研究中获得的。这里报告的理论和实验研究分几个步骤进行:对接分析、分子动力学(MD)模拟、量子理论原子在分子(QTAIM)计算、合成和生物测定,使我们能够提出该系列的一些化合物作为 BACE1 催化位点的新抑制剂。QTAIM 研究允许我们获得电子密度与 IC 实验数据之间的极好相关性。此外,使用组合技术(MD 模拟和 QTAIM 计算)使我们能够详细描述稳定不同 L-R 配合物的分子相互作用。此外,我们的结果允许我们确定这些化合物的哪一部分应该改变,以提高它们与 BACE1 的亲和力。另一个有趣的结果是,当我们最近报道的作为 BACE1 调节剂的 Ac-Tyr5-Pro6-Tyr7-Asp8-Ile9-Pro10-Leu11-NH 与这些新的催化位点抑制剂的作用结合时,观察到一种协同作用,该调节剂作用于 BACE1 的外位点。
