Killing tumor-associated bacteria with a liposomal antibiotic generates neoantigens that induce anti-tumor immune responses

IF 33.1 1区生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Nature biotechnology Pub Date : 2023-09-25 DOI:10.1038/s41587-023-01957-8

Menglin Wang, Benoit Rousseau, Kunyu Qiu, Guannan Huang, Yu Zhang, Hang Su, Christine Le Bihan-Benjamin, Ines Khati, Oliver Artz, Michael B. Foote, Yung-Yi Cheng, Kuo-Hsiung Lee, Michael Z. Miao, Yue Sun, Philippe-Jean Bousquet, Marc Hilmi, Elise Dumas, Anne-Sophie Hamy, Fabien Reyal, Lin Lin, Paul M. Armistead, Wantong Song, Ava Vargason, Janelle C. Arthur, Yun Liu, Jianfeng Guo, Xuefei Zhou, Juliane Nguyen, Yongqun He, Jenny P.-Y. Ting, Aaron C. Anselmo, Leaf Huang

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Abstract

Increasing evidence implicates the tumor microbiota as a factor that can influence cancer progression. In patients with colorectal cancer (CRC), we found that pre-resection antibiotics targeting anaerobic bacteria substantially improved disease-free survival by 25.5%. For mouse studies, we designed an antibiotic silver-tinidazole complex encapsulated in liposomes (LipoAgTNZ) to eliminate tumor-associated bacteria in the primary tumor and liver metastases without causing gut microbiome dysbiosis. Mouse CRC models colonized by tumor-promoting bacteria (Fusobacterium nucleatum spp.) or probiotics (Escherichia coli Nissle spp.) responded to LipoAgTNZ therapy, which enabled more than 70% long-term survival in two F. nucleatum-infected CRC models. The antibiotic treatment generated microbial neoantigens that elicited anti-tumor CD8+ T cells. Heterologous and homologous bacterial epitopes contributed to the immunogenicity, priming T cells to recognize both infected and uninfected tumors. Our strategy targets tumor-associated bacteria to elicit anti-tumoral immunity, paving the way for microbiome–immunotherapy interventions. Killing bacteria in tumors boosts survival in a mouse model of colon cancer.

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用脂质体抗生素杀死肿瘤相关细菌会产生新抗原，诱导抗肿瘤免疫反应。

越来越多的证据表明，肿瘤微生物群是影响癌症进展的一个因素。在结直肠癌癌症（CRC）患者中，我们发现靶向厌氧菌的切除前抗生素显著提高了25.5%的无病生存率。对于小鼠研究，我们设计了脂质体包裹的抗生素银硝唑复合物（LipoAgTNZ），以消除原发肿瘤和肝转移中的肿瘤相关细菌，而不会导致肠道微生物组失调。由肿瘤促进细菌（核梭杆菌属）或益生菌（大肠杆菌属）定植的小鼠CRC模型对LipoAgTNZ治疗有反应，这使两种核梭杆菌感染的CRC模型的长期存活率超过70%。抗生素治疗产生了引发抗肿瘤CD8+T细胞的微生物新抗原。异源和同源细菌表位有助于免疫原性，启动T细胞识别感染和未感染的肿瘤。我们的策略针对肿瘤相关细菌，以引发抗肿瘤免疫，为微生物组免疫治疗干预铺平道路。

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

Nature biotechnology 工程技术-生物工程与应用微生物

CiteScore

63.00

自引率

1.70%

发文量

382

审稿时长

3 months

期刊介绍： Nature Biotechnology is a monthly journal that focuses on the science and business of biotechnology. It covers a wide range of topics including technology/methodology advancements in the biological, biomedical, agricultural, and environmental sciences. The journal also explores the commercial, political, ethical, legal, and societal aspects of this research. The journal serves researchers by providing peer-reviewed research papers in the field of biotechnology. It also serves the business community by delivering news about research developments. This approach ensures that both the scientific and business communities are well-informed and able to stay up-to-date on the latest advancements and opportunities in the field. Some key areas of interest in which the journal actively seeks research papers include molecular engineering of nucleic acids and proteins, molecular therapy, large-scale biology, computational biology, regenerative medicine, imaging technology, analytical biotechnology, applied immunology, food and agricultural biotechnology, and environmental biotechnology. In summary, Nature Biotechnology is a comprehensive journal that covers both the scientific and business aspects of biotechnology. It strives to provide researchers with valuable research papers and news while also delivering important scientific advancements to the business community.