Deciphering Apolipoprotein A4 in the Protein Corona of Ligand-Modified Liposomes for Tumor Targeting and Penetration
Yiyu Liang, Xianlu Li, Yichen Zhang, Xinyue Ding, Weimin Nie, Shuai Wang, Mingxuan Huang, Yao Wu, Shiyang Wu, Xiao Zhao, Yongping Li, Zhiwen Zhang
Journal:ACS Nano
IF:16
DOI:10.1021/acsnano.5c19739
PMID:41941209
Published:2026-04-06
research field:药物递送分子靶向蛋白质-生物材料相互作用癌症治疗学纳米医学
Abstract
Modifying nanomedicines with targeting ligands represents an encouraging strategy for active tumor targeting, but its clinical failure underscores ongoing challenges. Herein, a series of liposomes with different targeting ligands (e.g., PEGylation, folic acid, mannose, RGD peptide, and melittin) were rationally designed to investigate the principles and mechanisms governing tumor targeting and penetration profiles. In primary and lung metastatic breast cancer models, these liposomes exhibited a systematic tendency of intratumor distribution, with melittin-modified liposomes showing optimal tumor targeting and therapeutic performance. Further studies revealed that the ligand modifications in liposomes could modulate the composition of their protein corona, particularly the level of Apolipoprotein A4 (ApoA4), which, in turn, influenced tumor targeting and intratumor distribution, ultimately affecting the therapeutic outcome of tumor inhibition and survival prolongation. This research provided a distinct correlation between ligand modification of liposomes and their in vivo biological performances, offering key insights for designing effective active-targeting nanomedicines.
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