Synergistic tumor immunological strategy by combining tumor nanovaccine with gene-mediated extracellular matrix scavenger

免疫系统 肿瘤微环境 CpG寡核苷酸 基因传递 材料科学 佐剂 癌症研究 细胞外基质 细胞生物学 分子生物学 生物 遗传增强 生物化学 免疫学 基因表达 DNA甲基化 基因
作者
Yingying Hu,Lin Lın,Jie Chen,Atsushi Maruyama,Huayu Tian,Xuesi Chen
出处
期刊:Biomaterials [Elsevier BV]
卷期号:252: 120114-120114 被引量:85
标识
DOI:10.1016/j.biomaterials.2020.120114
摘要

The antitumor efficacy of tumor vaccines is often limited by weak T cell responses and poor activated T cells infiltration. Herein, we reported a novel synergistic strategy to simultaneously overcome these two obstacles to realize enhanced tumor elimination. To induce the robust T cell responses, we designed a minimalist tumor nanovaccine based on stepwise electrostatic interactions. The dual-functional delivery system PEI/CaCO3 (polyethylenimine coated CaCO3), could not only act as a vaccine carrier that absorbed antigen ovalbumin (OVA) and adjuvant unmethylated cytosine-phosphate-guanine (CpG) with high efficiency, but also work as an underlying adjuvant to activate bone marrow-derived dendritic cells (BMDCs). Therefore, the formed PEI/CaCO3/OVA/CpG vaccines (NVs) realized the significant enhancement of both the BMDCs activation and the specific responses of T cells in vivo. In addition, to enhance the infiltration of activated T cells in the tumor sites, the Spam1 gene, which could express hyaluronidase (HAase), was explored using PEI as the gene carrier shielded with aldehyde modified polyethylene glycol (CHO-PEG-CHO) through pH responsive Schiff base bonds. PEG/PEI/pSpam1 (p[email protected]) could achieve a high HAase expression in the tumor sites to further degrade the tumor extracellular matrix, thus promoting the infiltration of immune cells. Besides, the degradation of extracellular matrix increased blood perfusion and relieved the tumor hypoxia to modulate the immune-suppressive microenvironment. Highly enhanced antitumor efficiency and tumor re-challenge prevention were achieved by combined NVs with p[email protected] in B16-OVA bearing mice. The facile synergistic strategy we presented here is expected to be further used for personalized immunotherapy in the future.
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