Department of Pharmaceutical Chemistry, Faculty of Pharmacy, Suez Canal University , Ismailia, Egypt.
J Chem Inf Model. 2013 Sep 23;53(9):2369-75. doi: 10.1021/ci400317j. Epub 2013 Aug 29.
Latrunculins are unique macrolides containing a thiazolidinone moiety. Latrunculin A (1), latrunculin B (2), 16-epi-latrunculin B (3), and latrunculin T (4) were isolated from the Red Sea sponge Negombata magnifica. In the present study, after testing compounds 2-4 for cytotoxic activity, they were docked into the crystal structure of G-actin and subjected to binding energy calculation and a 20 ns MD simulation. The modeling study shows that latrunculins binding depends on both hydrophobic interaction of the macrocycle as well as H bonding of the thiazolidinone ring with Asp157 and Thr186. It was noticed that epimerization at C16 of latrunculin B was well tolerated as it could form an alternative H bonding network. However, opening of the macrocyclic ring deteriorates the actin binding due to reduced hydrophobicity. MD simulation showed that latrunculin B (2) possesses a more significant stabilizing effect on G-actin than latrunculin T (4) and could efficiently hinder the flattening transition of G-actin into F-actin. These findings could explain, at the molecular level, the impact of epimerization and macrolide ring-opening on latrunculins activity, an issue that has not been addressed before. Also, the study gives insights into the mechanism of cytotoxicity of diverse latrunculins and provides direction for future lead optimization studies.
拉氏毒素是一类含有噻唑烷酮结构的独特大环内酯类化合物。拉氏毒素 A(1)、拉氏毒素 B(2)、16-表-拉氏毒素 B(3)和拉氏毒素 T(4)从红海海绵 Negombata magnifica 中分离得到。在本研究中,在测试化合物 2-4 的细胞毒性活性后,将它们对接到大环内酯 G-肌动蛋白的晶体结构中,并进行结合能计算和 20ns MD 模拟。建模研究表明,拉氏毒素的结合取决于大环内酯的疏水性相互作用以及噻唑烷酮环与 Asp157 和 Thr186 的氢键相互作用。值得注意的是,拉氏毒素 B 中 C16 的差向异构化是可以容忍的,因为它可以形成替代的氢键网络。然而,由于疏水性降低,大环的开环会恶化肌动蛋白的结合。MD 模拟表明,拉氏毒素 B(2)对 G-肌动蛋白具有比拉氏毒素 T(4)更显著的稳定作用,并且可以有效地阻止 G-肌动蛋白向 F-肌动蛋白的扁平化转变。这些发现可以从分子水平上解释差向异构化和大环内酯开环对拉氏毒素活性的影响,这是以前尚未解决的问题。此外,该研究深入了解了不同拉氏毒素的细胞毒性机制,并为未来的先导优化研究提供了方向。
