School of Pharmacy, Sungkyunkwan University, Suwon 440-746, Korea.
J Am Chem Soc. 2011 Jul 6;133(26):10094-100. doi: 10.1021/ja1098325. Epub 2011 Jun 14.
Programmed -1 ribosomal frameshifting (-1 RF) is an essential regulating mechanism of translation used by SARS-CoV (severe acute respiratory syndrome coronavirus) to synthesize the key replicative proteins encoded by two overlapping open reading frames. The integrity of RNA pseudoknot stability and structure in the -1 RF site is important for efficient -1 RF. Thus, small molecules interacting with high affinity and selectivity with the RNA pseudoknot in the -1 RF site of SARS-CoV (SARS-pseudoknot) would disrupt -1 RF and be fatal to viral infectivity and production. To discover ligands for the SARS-pseudoknot by virtual screening, we constructed a 3D structural model of the SARS-pseudoknot and conducted a computational screening of the chemical database. After virtual screening of about 80,000 compounds against the SARS-pseudoknot structure, high-ranked compounds were selected and their activities were examined by in vitro and cell-based -1 RF assay. We successfully identified a novel ligand 43 that dramatically inhibits the -1 RF of SARS-CoV. This antiframeshift agent is an interesting lead for the design of novel antiviral agents against SARS-CoV.
-1 核糖体移码(-1 RF)是 SARS-CoV(严重急性呼吸综合征冠状病毒)用于合成由两个重叠开放阅读框编码的关键复制蛋白的一种重要的翻译调节机制。-1 RF 位点中的 RNA 假结稳定性和结构的完整性对于有效的 -1 RF 很重要。因此,与 SARS-CoV 的 -1 RF 位点中的 RNA 假结具有高亲和力和选择性相互作用的小分子(SARS 假结)会破坏 -1 RF,并对病毒的感染力和产生具有致命性。为了通过虚拟筛选发现 SARS 假结的配体,我们构建了 SARS 假结的 3D 结构模型,并对化学数据库进行了计算筛选。在对 SARS 假结结构进行了约 80,000 种化合物的虚拟筛选后,选择了排名较高的化合物,并通过体外和基于细胞的 -1 RF 测定法检查了它们的活性。我们成功鉴定了一种新型配体 43,它可显著抑制 SARS-CoV 的 -1 RF。这种抗移码剂为设计针对 SARS-CoV 的新型抗病毒药物提供了一个有趣的先导物。
