设计、合成和评价“双位点”结合的二芳基嘧啶，以靶向 HIV-1 逆转录酶的 NNIBP 和 NNRTI 相邻位点。

Design, synthesis, and evaluation of "dual-site"-binding diarylpyrimidines targeting both NNIBP and the NNRTI adjacent site of the HIV-1 reverse transcriptase.

机构信息

Department of Medicinal Chemistry, Key Laboratory of Chemical Biology (Ministry of Education), School of Pharmaceutical Sciences, Cheeloo College of Medicine, Shandong University, 44 West Culture Road, 250012 Jinan, Shandong, PR China.

Natural Products Research Laboratories, Eshelman School of Pharmacy, University of North Carolina, Chapel Hill, NC 27599, United States.

出版信息

Eur J Med Chem. 2021 Feb 5;211:113063. doi: 10.1016/j.ejmech.2020.113063. Epub 2020 Dec 10.

DOI:10.1016/j.ejmech.2020.113063

PMID:33340914

Abstract

Inspired by our previous efforts to improve the drug-resistance profiles of HIV-1 non-nucleoside reverse transcriptase inhibitors (NNRTIs), a novel series of "dual-site" binding diarylpyrimidine (DAPY) derivatives targeting both the NNRTI adjacent site and NNRTIs binding pocket (NNIBP) were designed, synthesized, and evaluated for their anti-HIV potency in TZM-bl and MT-4 cells. Eight compounds exhibited moderate to excellent potencies in inhibiting wild-type (WT) HIV-1 replication with EC values ranging from 2.45 nM to 5.36 nM, and 14c (EC = 2.45 nM) proved to be the most promising inhibitor. Of note, 14c exhibited potent activity against the single mutant strain E138K (EC = 10.6 nM), being comparable with ETR (EC = 9.80 nM) and 3.5-fold more potent than that of compound 7 (EC = 37.3 nM). Moreover, 14c acted as a classical NNRTI with high affinity for WT HIV-1 RT (IC = 0.0589 μM). The detailed structure-activity relationships (SARs) of the representative compounds were also determined, and further supported by molecular dynamics simulation. Overall, we envision that the "dual-site"-binding NNRTIs have significant prospects and pave the way for the next round of rational design of potent anti-HIV-1 agents.

摘要

受我们先前改进 HIV-1 非核苷类逆转录酶抑制剂（NNRTIs）耐药性的努力的启发，设计并合成了一系列新型“双位点”结合的二芳基嘧啶（DAPY）衍生物，这些化合物针对 NNRTI 相邻结合位点和 NNRTIs 结合口袋（NNIBP），并在 TZM-bl 和 MT-4 细胞中评估了它们的抗 HIV 效力。有 8 种化合物对野生型（WT）HIV-1 复制具有中等至优异的抑制作用，EC 值范围为 2.45 nM 至 5.36 nM，化合物 14c（EC = 2.45 nM）被证明是最有前途的抑制剂。值得注意的是，14c 对单突变株 E138K 表现出强大的活性（EC = 10.6 nM），与 ETR（EC = 9.80 nM）相当，比化合物 7（EC = 37.3 nM）强 3.5 倍。此外，14c 作为一种经典的 NNRTI，对 WT HIV-1 RT 具有高亲和力（IC = 0.0589 μM）。还确定了代表性化合物的详细构效关系（SARs），并通过分子动力学模拟进一步证实。总体而言，我们预计“双位点”结合的 NNRTIs 具有重要的前景，并为下一回合的高效抗 HIV-1 药物的合理设计铺平了道路。

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设计、合成和评价“双位点”结合的二芳基嘧啶，以靶向 HIV-1 逆转录酶的 NNIBP 和 NNRTI 相邻位点。

Design, synthesis, and evaluation of "dual-site"-binding diarylpyrimidines targeting both NNIBP and the NNRTI adjacent site of the HIV-1 reverse transcriptase.

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