<p>Decreased cross-presentation by antigen-presenting cells induces the scarcity of tumour-reactive T cells within the tumour bed, rendering in situ T cell rejuvenation through immunogenicity reprogramming highly desirable yet challenging<sup><CitationRef AdditionalCitationIDS="CR2" CitationID="CR1">1</CitationRef>–<CitationRef CitationID="CR3">3</CitationRef></sup>. Here we developed an intratumoural vaccination chimera (iVAC) to reprogram tumour cells into an antigen-presenting state (APC-like tumour cells) with restored anti-tumour immunity. The iVAC chimeras consist of a covalently engineered PD-L1 degrader conjugated to immunogenic antigens, which could relieve immune checkpoint inhibition while enforcing the cross-presentation of exogenous antigens. Functionally, the iVAC-induced antigen processing and presentation elicited potent tumour killing through reactivation of resident antigen-specific CD8<sup>+</sup> T cells, which simultaneously remodelled the tumour microenvironment to promote durable tumour-specific immunity. Extending this strategy, we used iVAC with a cytomegalovirus (CMV)-derived antigen to activate CMV-specific T cells against breast cancer in vitro, in a humanized mouse model as well as in a patient-derived tumour model. This study establishes a foundation for chemically reprogramming cancer cells within tumour beds to endow APC-like functions, providing an avenue for stimulating anti-tumour immunity.</p>

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Intratumoural vaccination via checkpoint degradation-coupled antigen presentation

  • Yu Han,
  • Yicong Ma,
  • Miao Pei,
  • Shenyi Yin,
  • Jiahao Wang,
  • Liyu Guo,
  • Yike Fang,
  • Weiming Guo,
  • Chunjiang Deng,
  • Su Zhao,
  • Xueyin Lu,
  • Jianzhong Jeff Xi,
  • Heng Zhang,
  • Peng R. Chen

摘要

Decreased cross-presentation by antigen-presenting cells induces the scarcity of tumour-reactive T cells within the tumour bed, rendering in situ T cell rejuvenation through immunogenicity reprogramming highly desirable yet challenging13. Here we developed an intratumoural vaccination chimera (iVAC) to reprogram tumour cells into an antigen-presenting state (APC-like tumour cells) with restored anti-tumour immunity. The iVAC chimeras consist of a covalently engineered PD-L1 degrader conjugated to immunogenic antigens, which could relieve immune checkpoint inhibition while enforcing the cross-presentation of exogenous antigens. Functionally, the iVAC-induced antigen processing and presentation elicited potent tumour killing through reactivation of resident antigen-specific CD8+ T cells, which simultaneously remodelled the tumour microenvironment to promote durable tumour-specific immunity. Extending this strategy, we used iVAC with a cytomegalovirus (CMV)-derived antigen to activate CMV-specific T cells against breast cancer in vitro, in a humanized mouse model as well as in a patient-derived tumour model. This study establishes a foundation for chemically reprogramming cancer cells within tumour beds to endow APC-like functions, providing an avenue for stimulating anti-tumour immunity.