Litcius/Paper detail

Biomimetic, Hypoxia‐Responsive Nanoparticles Overcome Residual Chemoresistant Leukemic Cells with Co‐Targeting of Therapy‐Induced Bone Marrow Niches

Xiao Dong, Lili Mu, Xue‐Liang Liu, Hua Zhu, Si‐Cong Yang, Xing Lai, Haijun Liu, Hai‐Yi Feng, Qin Lu, Bin‐Bing S. Zhou, Hongzhuan Chen, Guoqiang Chen, Jonathan F. Lovell, Dengli Hong, Chao Fang

2020Advanced Functional Materials51 citationsDOI

Abstract

Abstract Chemoresistance conferred by leukemia propagating cells (LPCs) in a therapy‐induced niche (TI‐niche) within the bone marrow is one of the main obstacles in leukemia treatment. Effective approaches to circumvent the TI‐niche protection and to eliminate the resident LPCs remain to be exploited. Here, developed is a niche‐targeted nanosystem using leukemic cell membrane‐coated mesoporous silica nanoparticles (DA azo @CMSN) for co‐delivering daunorubicin for leukemia cell chemotherapy and a TGFβRII neutralizing antibody (aTGFβRII) to block niche signaling. DA azo @CMSN effectively targets the TI‐niche. Through an azobenzene‐based hypoxia‐responsive linker, sequential delivery of the two active molecules overcomes niche‐mediated chemoresistance, attenuates systemic burden, and prolongs survival in a mouse model of leukemia. This work demonstrates a proof‐of‐principle for biomimetic and microenvironment‐activated multiplexed nanoparticulate drug delivery strategies for overcoming therapy‐induced chemoresistance in leukemia.

Topics & Concepts

LeukemiaDrug deliveryNicheMaterials scienceBone marrowCancer researchNanotechnologyImmunologyBiologyBiochemistryNanoparticle-Based Drug DeliveryNanoplatforms for cancer theranosticsRNA Interference and Gene Delivery