Ligand-switchable nanoparticles resembling viral surface for sequential drug delivery and improved oral insulin therapy
Yang Tiantian, Wang Aohua, Nie Di, Fan Weiwei, Jiang Xiaohe, Yu Miaorong, Guo Shiyan, Zhu Chunliu, Wei Gang, Gan Yong
Journal:Nature Communications
IF:17.69
DOI:10.1038/s41467-022-34357-8
PMID:36333321
Published:2022-11-04
research field:药物递送系统药学纳米技术糖尿病研究
Abstract
Mutual interference between surface ligands on multifunctional nanoparticles remains a significant obstacle to achieving optimal drug-delivery efficacy. Here, we develop ligand-switchable nanoparticles which resemble viral unique surfaces, enabling them to fully display diverse functions. The nanoparticles are modified with a pH-responsive stretchable cell-penetrating peptide (Pep) and a liver-targeting moiety (Gal) (Pep/Gal-PNPs). Once orally administered, the acidic environments trigger the extension of Pep from surface in a virus-like manner, enabling Pep/Gal-PNPs to traverse intestinal barriers efficiently. Subsequently, Gal is exposed by Pep folding at physiological pH, thereby allowing the specific targeting of Pep/Gal-PNPs to the liver. As a proof-of-concept, insulin-loaded Pep/Gal-PNPs are fabricated which exhibit effective intestinal absorption and excellent hepatic deposition of insulin. Crucially, Pep/Gal-PNPs increase hepatic glycogen production by 7.2-fold, contributing to the maintenance of glucose homeostasis for effective diabetes management. Overall, this study provides a promising approach to achieving full potential of diverse ligands on multifunctional nanoparticles.
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