Burlein Christine, Wang Cheng, Xu Min, Bhatt Triveni, Stahlhut Mark, Ou Yangsi, Adam Gregory C, Heath Jeffrey, Klein Daniel J, Sanders John, Narayan Kartik, Abeywickrema Pravien, Heo Mee Ra, Carroll Steven S, Grobler Jay A, Sharma Sujata, Diamond Tracy L, Converso Antonella, Krosky Daniel J
Pharmacology, ‡Discovery Chemistry, §Screening and Protein Science, ∥Structural Chemistry, and ⊥Infectious Disease Biology, Merck & Co., Inc. , West Point, Pennsylvania 19486, United States.
ACS Chem Biol. 2017 Nov 17;12(11):2858-2865. doi: 10.1021/acschembio.7b00550. Epub 2017 Oct 19.
Allosteric integrase inhibitors (ALLINIs) bind to the lens epithelial-derived growth factor (LEDGF) pocket on HIV-1 integrase (IN) and possess potent antiviral effects. Rather than blocking proviral integration, ALLINIs trigger IN conformational changes that have catastrophic effects on viral maturation, rendering the virions assembled in the presence of ALLINIs noninfectious. A high-throughput screen for compounds that disrupt the IN·LEDGF interaction was executed, and extensive triage led to the identification of a t-butylsulfonamide series, as exemplified by 1. The chemical, biochemical, and virological characterization of this series revealed that 1 and its analogs produce an ALLINI-like phenotype through engagement of IN sites distinct from the LEDGF pocket. Key to demonstrating target engagement and differentiating this new series from the existing ALLINIs was the development of a fluorescence polarization probe of IN (FLIPPIN) based on the t-butylsulfonamide series. These findings further solidify the late antiviral mechanism of ALLINIs and point toward opportunities to develop structurally and mechanistically novel antiretroviral agents with unique resistance patterns.
变构整合酶抑制剂(ALLINIs)与HIV-1整合酶(IN)上的晶状体上皮衍生生长因子(LEDGF)口袋结合,并具有强大的抗病毒作用。ALLINIs并非阻断前病毒整合,而是引发IN的构象变化,这些变化对病毒成熟具有灾难性影响,使得在ALLINIs存在的情况下组装的病毒粒子无感染性。开展了针对破坏IN·LEDGF相互作用的化合物的高通量筛选,经过广泛筛选,确定了一个叔丁基磺酰胺系列,以化合物1为例。该系列的化学、生化和病毒学特征表明,化合物1及其类似物通过与IN上不同于LEDGF口袋的位点结合产生类似ALLINI的表型。证明靶点结合并将这个新系列与现有的ALLINIs区分开来的关键是基于叔丁基磺酰胺系列开发了一种IN的荧光偏振探针(FLIPPIN)。这些发现进一步巩固了ALLINIs的晚期抗病毒机制,并指出了开发具有独特耐药模式的结构和机制新颖的抗逆转录病毒药物的机会。
