Biomimetic Responsive Nanoconverters with Immune Checkpoint Blockade Plus Antiangiogenesis for Advanced Hepatocellular Carcinoma Treatment

肝细胞癌 免疫检查点 封锁 材料科学 癌症研究 免疫系统 药理学 免疫疗法 医学 肿瘤科 内科学 免疫学 受体
作者
Yuting Zhang,Aoxue Zhong,Juan Min,Haibin Tu,Yanbing Cao,J. B. Fu,Yonghao Li,Xiaolong Liu,Yong Yang,Jianmin Wang,Jingfeng Liu,Ming Wu
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:16 (6): 6894-6907 被引量:13
标识
DOI:10.1021/acsami.3c18140
摘要

The first-line treatment for advanced hepatocellular carcinoma (HCC) combines immune checkpoint inhibitors and antiangiogenesis agents to prolong patient survival. Nonetheless, this approach has several limitations, including stringent inclusion criteria and suboptimal response rates that stem from the severe off-tumor side effects and the unfavorable pharmacodynamics and pharmacokinetics of different drugs delivered systemically. Herein, we propose a single-agent smart nanomedicine-based approach that mimics the therapeutic schedule in a targeted and biocompatible manner to elicit robust antitumor immunity in advanced HCC. Our strategy employed pH-responsive carriers, poly(ethylene glycol)-poly(β-amino esters) amphiphilic block copolymer (PEG–PAEs), for delivering apatinib (an angiogenesis inhibitor), that were surface-coated with plasma membrane derived from engineered cells overexpressing PD-1 proteins (an immune checkpoint inhibitor to block PD-L1). In an advanced HCC mouse model with metastasis, these biomimetic responsive nanoconverters induced significant tumor regression (5/9), liver function recovery, and complete suppression of lung metastasis. Examination of the tumor microenvironment revealed an increased infiltration of immune effector cells (CD8 + and CD4 + T cells) and reduced immunosuppressive cells (myeloid-derived suppressor cells and T regulatory cells) in treated tumors. Importantly, our nanomedicine selectively accumulated in both small and large HCC occupying >50% of the liver volume to exert therapeutic effects with minimal systemic side effects. Overall, these findings highlight the potential of such multifunctional nanoconverters to effectively reshape the tumor microenvironment for advanced HCC treatment.
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