Litcius/Paper detail

A Biomimetic Drug Delivery System by Integrating Grapefruit Extracellular Vesicles and Doxorubicin-Loaded Heparin-Based Nanoparticles for Glioma Therapy

Wenbo Niu, Qian Xiao, Xuejiao Wang, Junqiao Zhu, Jin‐Heng Li, Xiaomei Liang, Yingming Peng, Chentian Wu, Ruojing Lu, Yao Pan, Jiamao Luo, Xinxian Zhong, Haoqi He, Zhili Rong, Jun‐Bing Fan, Ying Wang

2021Nano Letters349 citationsDOI

Abstract

Existing nanoparticle-mediated drug delivery systems for glioma systemic chemotherapy remain a great challenge due to poor delivery efficiency resulting from the blood brain barrier/blood-(brain tumor) barrier (BBB/BBTB) and insufficient tumor penetration. Here, we demonstrate a distinct design by patching doxorubicin-loaded heparin-based nanoparticles (DNs) onto the surface of natural grapefruit extracellular vesicles (EVs), to fabricate biomimetic EV-DNs, achieving efficient drug delivery and thus significantly enhancing antiglioma efficacy. The patching strategy allows the unprecedented 4-fold drug loading capacity compared to traditional encapsulation for EVs. The biomimetic EV-DNs are enabled to bypass BBB/BBTB and penetrate into glioma tissues by receptor-mediated transcytosis and membrane fusion, greatly promoting cellular internalization and antiproliferation ability as well as extending circulation time. We demonstrate that a high-abundance accumulation of EV-DNs can be detected at glioma tissues, enabling the maximal brain tumor uptake of EV-DNs and great antiglioma efficacy in vivo.

Topics & Concepts

GliomaDrug deliveryTranscytosisDoxorubicinInternalizationBlood–brain barrierIn vivoChemistryDrugPharmacologyTargeted drug deliveryCancer researchNanotechnologyBiophysicsChemotherapyMaterials scienceMedicineReceptorEndocytosisBiologyNeuroscienceBiochemistryCentral nervous systemInternal medicineBiotechnologyExtracellular vesicles in diseaseNanoparticle-Based Drug DeliveryLattice Boltzmann Simulation Studies