Chalcone-containing dual-targeting PD-L1/tubulin small molecules: a novel approach for cancer immunotherapy.
[OBJECTIVES] This study aims to identify novel small-molecule inhibitors capable of dual targeting of PD-L1 and tubulin, intending to enhance cancer immunotherapy.
APA
Zhou Y, Ding J, et al. (2026). Chalcone-containing dual-targeting PD-L1/tubulin small molecules: a novel approach for cancer immunotherapy.. Frontiers in pharmacology, 17, 1740903. https://doi.org/10.3389/fphar.2026.1740903
MLA
Zhou Y, et al.. "Chalcone-containing dual-targeting PD-L1/tubulin small molecules: a novel approach for cancer immunotherapy.." Frontiers in pharmacology, vol. 17, 2026, pp. 1740903.
PMID
41613777
Abstract
[OBJECTIVES] This study aims to identify novel small-molecule inhibitors capable of dual targeting of PD-L1 and tubulin, intending to enhance cancer immunotherapy.
[METHODS] A combination of computer-aided virtual screening, molecular docking, homogeneous time-resolved fluorescence (HTRF) assays, tubulin polymerization inhibition assays, and antitumor assays was utilized to identify compounds with dual-targeting potential.
[RESULTS] Compound PP-1 exhibited moderate inhibitory activity against the PD-1/PD-L1 interaction (IC = 81.1 µM) and showed dose-dependent inhibition of tubulin polymerization (IC = 70.1 µM). Molecular docking analysis further confirmed that PP-1 can effectively bind to both PD-L1 and tubulin at the molecular level, supporting its bifunctional targeting capability. Importantly, compound PP-1 (50 mg/kg, P.O.) demonstrated significant antitumor efficacy in a melanoma model, achieving a tumor growth inhibition rate of 42% without apparent systemic toxicity.
[CONCLUSION] PP-1 demonstrates dual-target inhibitory activity against both the PD-1/PD-L1 immune checkpoint and tubulin polymerization, underscoring its potential as a promising lead compound for the development of next-generation dual-functional anticancer agents.
[METHODS] A combination of computer-aided virtual screening, molecular docking, homogeneous time-resolved fluorescence (HTRF) assays, tubulin polymerization inhibition assays, and antitumor assays was utilized to identify compounds with dual-targeting potential.
[RESULTS] Compound PP-1 exhibited moderate inhibitory activity against the PD-1/PD-L1 interaction (IC = 81.1 µM) and showed dose-dependent inhibition of tubulin polymerization (IC = 70.1 µM). Molecular docking analysis further confirmed that PP-1 can effectively bind to both PD-L1 and tubulin at the molecular level, supporting its bifunctional targeting capability. Importantly, compound PP-1 (50 mg/kg, P.O.) demonstrated significant antitumor efficacy in a melanoma model, achieving a tumor growth inhibition rate of 42% without apparent systemic toxicity.
[CONCLUSION] PP-1 demonstrates dual-target inhibitory activity against both the PD-1/PD-L1 immune checkpoint and tubulin polymerization, underscoring its potential as a promising lead compound for the development of next-generation dual-functional anticancer agents.
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