Department of Chemistry, State University of New York at Stony Brook, Stony Brook, NY 11794-3400, USA.
Bioorg Med Chem. 2010 Oct 1;18(19):7101-12. doi: 10.1016/j.bmc.2010.07.069. Epub 2010 Aug 6.
Novel paclitaxel-mimicking alkaloids were designed and synthesized based on a bioactive conformation of paclitaxel, that is, REDOR-Taxol. The alkaloid 2 bearing a 5-7-6 tricyclic scaffold mimics REDOR-Taxol best among the compounds designed and was found to be the most potent compound against several drug-sensitive and drug-resistant human cancer cell lines. MD simulation study on the paclitaxel mimics 1 and 2 as well as REDOR-Taxol bound to the 1JFF tubulin structure was quite informative to evaluate the level of mimicking. The MD simulation study clearly distinguishes the 5-6-6 and 5-7-6 tricyclic scaffolds, and also shows substantial difference in the conformational stability of the tubulin-bound structures between 2 and REDOR-Taxol. The latter may account for the large difference in potency, and provides critical information for possible improvement in the future design of paclitaxel mimics.
基于紫杉醇的生物活性构象,即 REDOR-Taxol,设计并合成了新型紫杉醇模拟生物碱。在设计的化合物中,具有 5-7-6 三环骨架的生物碱 2 对 REDOR-Taxol 的模拟效果最佳,并且被发现对几种敏感和耐药的人类癌细胞系具有最强的抑制作用。对紫杉醇模拟物 1 和 2 以及与 1JFF 微管蛋白结构结合的 REDOR-Taxol 的 MD 模拟研究对于评估模拟水平非常有帮助。MD 模拟研究清楚地区分了 5-6-6 和 5-7-6 三环骨架,并且还显示了 2 和 REDOR-Taxol 结合的微管蛋白结构的构象稳定性之间存在很大差异。后者可能是效力差异的原因,并为未来紫杉醇模拟物的设计提供了重要信息。