Orchestrated codelivery of peptide antigen and adjuvant to antigen-presenting cells by using an engineered chimeric peptide enhances antitumor T-cell immunity

IF 8.1 1区医学 Q1 IMMUNOLOGY

Cancer immunology research Pub Date : 2024-04-17 DOI:10.1158/2326-6066.cir-23-0926

Haifeng Pan, Siyuan Yu, Haoyun Zhuang, Han Yang, Jinlu Jiang, Haihui Yang, Shuling Ren, Guoxing Luo, Xuan Yu, Shuping Chen, Yanhua Lin, Roufang Sheng, Shiyin Zhang, Quan Yuan, Chenghao Huang, Tianying Zhang, Tingdong Li, Shengxiang Ge, Jun Zhang, Ningshao Xia

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Abstract

The intrinsic pharmacokinetic limitations of traditional peptide-based cancer vaccines hamper effective cross-presentation and codelivery of antigens and adjuvants, which are crucial for inducing robust antitumor CD8+ T-cell responses. Here, we report the development of a versatile strategy that simultaneously addresses the different pharmacokinetic challenges of soluble subunit vaccines composed of antigens and CpG to modulate vaccine efficacy via translating an engineered chimeric peptide, eTAT, as an intramolecular adjuvant. Linking antigens to eTAT enhanced cytosolic delivery of the antigens. This, in turn, led to improved activation and lymph node–trafficking of antigen-presenting cells and antigen cross-presentation, thus promoting antigen-specific T-cell immune responses. Simple mixing of eTAT-linked antigens and CpG significantly enhanced codelivery of antigens and CpG to the antigen-presenting cells, and this substantially augmented the adjuvant effect of CpG, maximized vaccine immunogenicity and elicited robust and durable CD8+ T-cell responses. Vaccination with this formulation altered the tumor microenvironment and exhibited potent antitumor effects, with generally further enhanced therapeutic efficacy when used in combination with anti-PD1. Altogether, the engineered chimeric peptide–based orchestrated codelivery of antigen and adjuvant may serve as a promising but simple strategy to improve the efficacy of peptide-based cancer vaccines.

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利用工程嵌合肽向抗原递呈细胞协同递送肽抗原和佐剂，增强抗肿瘤 T 细胞免疫力

传统多肽类癌症疫苗固有的药代动力学局限性阻碍了抗原和佐剂的有效交叉呈递和联合递送，而这对于诱导强大的抗肿瘤 CD8+ T 细胞应答至关重要。在此，我们报告了一种多功能策略的开发情况，该策略通过将工程嵌合肽 eTAT 转化为分子内佐剂，同时解决了由抗原和 CpG 组成的可溶性亚单位疫苗所面临的不同药代动力学挑战，以调节疫苗功效。将抗原与 eTAT 连接起来可增强抗原的胞浆传递。这反过来又改善了抗原递呈细胞的活化和淋巴结迁移以及抗原交叉递呈，从而促进了抗原特异性 T 细胞免疫反应。eTAT 链接抗原与 CpG 的简单混合大大增强了抗原和 CpG 对抗原呈递细胞的编码传递，这大大增强了 CpG 的佐剂效应，最大限度地提高了疫苗的免疫原性，并激发了强健持久的 CD8+ T 细胞应答。接种这种制剂的疫苗可改变肿瘤微环境，并显示出强大的抗肿瘤效果，与抗-PD1联合使用时，疗效会进一步提高。总之，基于嵌合肽的工程化抗原和佐剂协调联合递送可作为一种前景广阔而又简单的策略来提高基于肽的癌症疫苗的疗效。

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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来源期刊

Cancer immunology research ONCOLOGY-IMMUNOLOGY

CiteScore

15.60

自引率

1.00%

发文量

260

期刊介绍： Cancer Immunology Research publishes exceptional original articles showcasing significant breakthroughs across the spectrum of cancer immunology. From fundamental inquiries into host-tumor interactions to developmental therapeutics, early translational studies, and comprehensive analyses of late-stage clinical trials, the journal provides a comprehensive view of the discipline. In addition to original research, the journal features reviews and opinion pieces of broad significance, fostering cross-disciplinary collaboration within the cancer research community. Serving as a premier resource for immunology knowledge in cancer research, the journal drives deeper insights into the host-tumor relationship, potent cancer treatments, and enhanced clinical outcomes. Key areas of interest include endogenous antitumor immunity, tumor-promoting inflammation, cancer antigens, vaccines, antibodies, cellular therapy, cytokines, immune regulation, immune suppression, immunomodulatory effects of cancer treatment, emerging technologies, and insightful clinical investigations with immunological implications.

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