McGill University AIDS Centre, Lady Davis for Medical Research, Jewish General Hospital, Montreal, Quebec, Canada.
Antiviral Res. 2013 Jun;98(3):441-8. doi: 10.1016/j.antiviral.2013.04.001. Epub 2013 Apr 9.
Human immunodeficiency virus integrase (HIV-1 IN) inhibitors that are currently approved or are in advanced clinical trials specifically target the strand transfer step of integration. However, considerable cross-resistance exists among some members of this class of IN inhibitors. Intriguingly, though, HIV-1 IN possesses multiple sites, distinct from those involved in the strand transfer step, that could be targeted to develop new HIV-1 IN inhibitors. We have developed a fluorescent HIV-1 IN DNA binding assay that can identify small molecules termed IN binding inhibitors (INBIs) that inhibit IN binding to viral DNA. This assay has been optimized with respect to concentrations of each protein, long terminal repeat (LTR) DNA substrate, salt, and time, and has been used successfully to measure the HIV-1 IN DNA binding activity of a well-characterized INBI termed FZ41. In addition, we have used the assay to screen a small library of natural products, resulting in the identification of nigranoic acid as a new INBI. The proposed fluorescence assay is easy and inexpensive, and provides a high-throughput detection method for determination of HIV-1 IN DNA binding activity, monitoring of enzyme kinetics, and high-throughput screening for the identification of new INBIs.
人类免疫缺陷病毒整合酶(HIV-1 IN)抑制剂,目前已被批准或处于临床研究的高级阶段,专门针对整合的链转移步骤。然而,该类整合酶抑制剂的一些成员之间存在相当大的交叉耐药性。不过,有趣的是,HIV-1 IN 具有多个不同于链转移步骤的位点,可以作为开发新的 HIV-1 IN 抑制剂的靶点。我们已经开发了一种荧光 HIV-1 IN DNA 结合测定法,该测定法可以识别称为整合酶结合抑制剂(INBIs)的小分子,这些抑制剂可抑制整合酶与病毒 DNA 的结合。该测定法已针对每种蛋白质、长末端重复(LTR)DNA 底物、盐和时间的浓度进行了优化,并已成功用于测量已被充分表征的 INBI 化合物 FZ41 的 HIV-1 IN DNA 结合活性。此外,我们还使用该测定法筛选了一小部分天然产物文库,结果鉴定出黑尿酸为一种新的 INBI。该建议的荧光测定法简单且廉价,为测定 HIV-1 IN DNA 结合活性、监测酶动力学以及高通量筛选新的 INBIs 提供了一种高通量检测方法。
