A self-assembled, genetically engineered, irradiated tumor cell debris vaccine

Yajie Sun, Yan Hu, Yuanyuan Geng, Chao Wan, Yang Liu, Yifei Liao, Xiujuan Shi, Jonathan F. Lovell, Kunyu Yang, Honglin Jin
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Abstract

Vaccine-based therapeutics for cancers face several challenges including lack of immunogenicity and tumor escape pathways for single antigen targets. It has been reported that radiotherapy has an in situ vaccine effect that provides tumor antigens following irradiation, helping to activate antigen-presenting cells (APCs). Herein, a new vaccine approach is developed by combining genetically engineered irradiated tumor cell debris (RTD) and hyaluronic acid (HA), termed HA@RTD. A cancer cell line is developed that overexpresses granulocyte-macrophage colony-stimulating factor (GM-CSF). A hydrogel was developed by covalent conjugation of HA with RTD proteins that acted as a potent vaccine system, the effects which were probed with T cell receptor sequencing. The engineered vaccine activated antitumor immunity responses and prevented tumor growth in mice even with a single immunization. HA@RTD vaccine efficacy was also assessed in therapeutic settings with established tumors and in combination with immune checkpoint blockade.

Abstract Image

自组装的基因工程辐照肿瘤细胞碎片疫苗
以疫苗为基础的癌症疗法面临着一些挑战,包括缺乏免疫原性和单一抗原靶点的肿瘤逃逸途径。据报道,放疗具有原位疫苗效应,可在照射后提供肿瘤抗原,帮助激活抗原递呈细胞(APC)。本文通过将基因工程辐照肿瘤细胞碎片(RTD)和透明质酸(HA)结合起来,开发出一种新的疫苗方法,称为 HA@RTD。研制出一种过度表达粒细胞-巨噬细胞集落刺激因子(GM-CSF)的癌细胞系。通过将 HA 与 RTD 蛋白共价共轭,开发出了一种水凝胶,可作为一种有效的疫苗系统,其效果可通过 T 细胞受体测序进行检测。即使只进行一次免疫接种,这种工程疫苗也能激活小鼠的抗肿瘤免疫反应并阻止肿瘤生长。还评估了HA@RTD疫苗在已确诊肿瘤的治疗环境中以及与免疫检查点阻断联合使用时的疗效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
17.20
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