Yamazaki Satoko, Tan Lu, Mayer Günter, Hartig Jörg S, Song Jin-Na, Reuter Sandra, Restle Tobias, Laufer Sandra D, Grohmann Dina, Kräusslich Hans-Georg, Bajorath Jürgen, Famulok Michael
LIMES Program Unit Chemical Biology & Medicinal Chemistry, c/o Kekulé Institute for Organic Chemistry & Biochemistry, University of Bonn, Gerhard-Domagk-Strasse 1, D-53121 Bonn, Germany.
Chem Biol. 2007 Jul;14(7):804-12. doi: 10.1016/j.chembiol.2007.06.003.
Aptamers targeting reverse transcriptase (RT) from HIV-1 inhibit viral replication in vitro, presumably by competing with binding of the primer/template complex. This site is not targeted by the currently available small-molecule anti-HIV-1 RT inhibitors. We have identified SY-3E4, a small-molecule inhibitor of HIV-1 RT, by applying a screening assay that utilizes a reporter-ribozyme regulated by the anti-HIV-1 RT aptamer. SY-3E4 displaces the aptamer from the protein, selectively inhibits DNA-dependent, but not RNA-dependent, polymerase activity, and inhibits the replication of both the wild-type virus and a multidrug-resistant strain. Analysis of available structural data of HIV-1 and HIV-2 RTs rationalizes many of the observed characteristics of the inhibitory profiles of SY-3E4 and the aptamer and suggests a previously not considered region in these RTs as a target for antiviral therapy. Our study reveals unexplored ways for rapidly identifying alternative small-molecule target sites in proteins and illustrates strategies for overcoming resistance-conferring mutations with small molecules.
靶向HIV-1逆转录酶(RT)的适体在体外抑制病毒复制,推测是通过与引物/模板复合物的结合竞争实现的。该位点并非目前可用的小分子抗HIV-1 RT抑制剂的作用靶点。我们通过应用一种筛选试验鉴定出了SY-3E4,一种HIV-1 RT的小分子抑制剂,该试验利用了由抗HIV-1 RT适体调控的报告基因核酶。SY-3E4将适体从蛋白质上置换下来,选择性抑制依赖DNA而非依赖RNA的聚合酶活性,并抑制野生型病毒和多重耐药菌株的复制。对HIV-1和HIV-2 RT的现有结构数据进行分析,使SY-3E4和适体抑制谱的许多观察到的特征变得合理,并表明这些RT中一个以前未被考虑的区域可作为抗病毒治疗的靶点。我们的研究揭示了快速识别蛋白质中替代小分子靶点位点的未探索方法,并阐明了用小分子克服赋予耐药性的突变的策略。
