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DNA Base Pairing‐Inspired Supramolecular Nanodrug Camouflaged by Cancer‐Cell Membrane for Osteosarcoma Treatment

Yucheng Fu, Guoyu He, Zhuochao Liu, Jun Wang, Meng Li, Zhusheng Zhang, Qiyuan Bao, Junxiang Wen, Xinyuan Zhu, Chuan Zhang, Weibin Zhang

2022Small32 citationsDOI

Abstract

Osteosarcoma (OS) is one of the most common bone malignant tumors which mainly develops in adolescents. Although neoadjuvant chemotherapy has improved the prognosis of patients, numerous chemotherapeutic challenges still limit their use. Here, inspired by the Watson-Crick base pairing in nucleic acids, hydrophobic (methotrexate) and hydrophilic (floxuridine) chemo-drugs are mixed and self-assembled into M:F nanoparticles (M:F NPs) through molecular recognition. Then, the obtained NPs are co-extruded with membranes derived from OS cells to form cancer-cell membrane-coated NPs (CCNPs). With protected membranes at the outer layer, CCNPs are highly stable in both physiological and weak acid tumor conditions and possess homologous tumor targeted capability. Furthermore, the proteomic analysis first identifies over 400 proteins reserved in CCNPs, most of them participating in tumor cell targeting and adhesion processes. In vitro studies reveal that CCNPs significantly inhibit the PI3K/AKT/mTOR pathway, which promotes cell apoptosis and cell cycle arrest. More importantly, cell membrane camouflage significantly prolongs the circulation half-life of CCNPs, elevates the drug accumulation at tumor sites, and promotes anti-tumor efficacy in vivo. As a convenient and effective strategy to construct a biomimetic NP with high drug loading ratio, the CCNPs provide new potentials for precise and synergistic antitumor treatment.

Topics & Concepts

OsteosarcomaPI3K/AKT/mTOR pathwayCellChemistryIn vivoApoptosisCancer cellCancer researchMembraneCell membranePaclitaxelCancerBiophysicsCell biologyBiochemistryBiologyGeneticsBiotechnologyNanoplatforms for cancer theranosticsAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene Delivery