Litcius/Paper detail

Understanding drug nanocarrier and blood–brain barrier interaction based on a microfluidic microphysiological model

Yuanyuan Fan, Chang Xu, Ning Deng, Ze Gao, Zhongyao Jiang, Xiaoxiao Li, Yingshun Zhou, Haimeng Pei, Lu Li, Bo Tang

2023Lab on a Chip18 citationsDOI

Abstract

BBB models are urgently needed to help researchers to comprehensively understand drug nanocarrier-BBB interaction during penetration, which can prompt pre-clinical nanodrug exploitation. Herein, we developed a microfluidic microphysiological model, allowing the analysis of BBB homeostasis and NP penetration. We found that the BBB penetrability of gold nanoparticles (AuNPs) was size- and modification-dependent, which might be caused by a distinct transendocytosis pathway. Notably, transferrin-modified 13 nm AuNPs held the strongest BBB penetrability and induced the slightest BBB dysfunction, while bare 80 nm and 120 nm AuNPs showed opposite results. Moreover, further analysis of the protein corona showed that PEGylation reduced the protein absorption, and some proteins facilitated the BBB penetration of NPs. The developed microphysiological model provides a powerful tool for understanding the drug nanocarrier-BBB interaction, which is vital for exploiting high-efficiency and biocompatible nanodrugs.

Topics & Concepts

NanocarriersBlood–brain barrierMicrofluidicsDrugPenetration (warfare)NanotechnologyTargeted drug deliveryDrug deliveryPharmacologyChemistryMaterials scienceMedicineEngineeringCentral nervous systemInternal medicineOperations researchNanoparticle-Based Drug DeliveryBarrier Structure and Function StudiesAdvanced Drug Delivery Systems