Targeted exosomes for co-delivery of siFGL1 and siTGF-β1 trigger combined cancer immunotherapy by remodeling immunosuppressive tumor microenvironment
Xing Pei, Xiaojuan Zhang, Lu Zhang, Mengmeng Yuan, Lu Sun, Fei Yu, Bangmao Wang, Jingwen Zhao, Huining He, Victor C. Yang
Journal:CHEMICAL ENGINEERING JOURNAL
IF:13.27
DOI:10.1016/j.cej.2021.129774
PMID:
Published:2021-04-18
research field:肿瘤微环境诊疗一体化光动力治疗纳米材料科学癌症免疫治疗纳米医学活性氧生物学
Abstract
Immune checkpoint therapy encounters significant challenges in clinic, including low response rate, acquired resistance and immune-related adverse events. Combination immunotherapy targeting multiple independent but complementary pathways in immune evasion has the potential to enhance therapeutic efficacy. Herein, a combination therapeutic strategy that dually inhibiting FGL1, a recently discovered main ligand for immune checkpoint LAG-3, and TGF-β1, an immunosuppressive cytokine, is firstly reported for colorectal cancer immunotherapy by blocking immune checkpoint and modulating tumor microenvironment simultaneously. We established a cRGD-modified exosome with high siFGL1 and siTGF-β1 loading efficiency (cRGD-Exo/siMix) to realize the co-silence of FGL1 and TGF-β1. The constructed cRGD-Exo/siMix showed a significant anti-tumor effect both in vitro and in vivo . Analysis of the tumor immune microenvironment demonstrated an increased number of tumor infiltration CD8 + T cells while a decreased number of immunosuppressive cells, implying that this therapeutic approach boosted anti-tumor immunity by reshaping the tumor microenvironment. This work provides a new strategy for siRNA delivery and its applications in combined cancer immunotherapy.
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