Rational structure-based design and optimization of next-generation biphenyl-piperidine-triazine derivatives as potent non-nucleoside reverse transcriptase inhibitors

Zhang, Kun;Zhao, Li-Min;Xing, Tianhao;Bu, Yueyue;Wang, Qingyun;Pannecouque, Christophe;De Clercq, Erik;Corona, Angela;Dettori, Laura;Tramontano, Enzo;Wang, Shuai;Chen, Fen-Er

2026-01-01

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Abstract

To enhance the anti-resistance efficacy of our previously disclosed naphthyl-triazine 5, structure-based drug design strategy was rationally conducted to design a series of novel biphenyl-piperidine-triazine-containing non-nucleoside reverse transcriptase inhibitors. Remarkably, several of these compounds demonstrated single-digit nanomolar antiviral potency against both wild-type (WT) human immunodeficiency virus-1 (HIV-1) and five clinically relevant mutant strains. Among these, compound 11s emerged as the most potent inhibitor, showing remarkable efficacy against WT HIV-1 (50 % effective concentration (EC50) = 2 nmol/L) and five mutant strains (EC50 = 0.003–0.073 µmol/L), which was significantly superior to that of compound 5. This optimized derivative demonstrated substantially improved pharmacological properties compared to existing drugs etravirine (ETR) and rilpivirine (RPV), showing a 4-fold reduction in cytotoxicity alongside 6-fold enhancement in selectivity index (50 % cytotoxic concentration (CC50) = 19.69 µmol/L, selectivity index (SI) = 7438). The compound's metabolic profile revealed exceptional stability, with an elimination half-life (t1/2 = 41.4 min) more than double that of RPV (t1/2 = 16.03 min). Comprehensive safety evaluation indicated minimal cytochrome P450 (CYP) enzymes interference, low cardiac ion channel activity, and no observable acute toxicity, collectively suggesting a reduced risk profile for therapeutic applications. These promising characteristics significantly advance the development potential of biphenyl-piperidine-triazine derivatives as next-generation non-nucleoside reverse transcriptase inhibitors (NNRTIs), offering enhanced efficacy, improved safety, and favorable pharmacokinetic properties for antiretroviral therapy.