Epitope-Directed Antibody Elicitation by Genetically Encoded Chemical Cross-Linking Reactivity in the Antigen

No current methods can selectively elicit an antibody response to a specific conformational epitope in a whole antigen in vivo. Here, we incorporated Nε-acryloyl-l-lysine (AcrK) or Nε-crotonyl-l-lysine (Kcr) with cross-linking activities into the specific epitopes of antigens and immunized mice to g...

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Bibliographic Details
Published in:ACS central science 2023-06, Vol.9 (6), p.1229-1240
Main Authors: Zhu, Chaoyang, Xu, Liang, Chen, Longxin, Zhang, Zihan, Zhang, Yuhan, Wu, Weiping, Li, Chengxiang, Liu, Shuang, Xiang, Shuqin, Dai, Shengwang, Zhang, Jay, Guo, Hui, Zhou, Yinjian, Wang, Feng
Format: Article
Language:English
Subjects:
Amino acids
Antibodies
Antibody response
Antigens
Chromatography
Clonal selection
Crosslinking
Cytokines
Epitopes
Genetic code
Immunization
Libraries
Lysine
Monoclonal antibodies
Proteins
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Summary:No current methods can selectively elicit an antibody response to a specific conformational epitope in a whole antigen in vivo. Here, we incorporated Nε-acryloyl-l-lysine (AcrK) or Nε-crotonyl-l-lysine (Kcr) with cross-linking activities into the specific epitopes of antigens and immunized mice to generate antibodies that can covalently cross-link with the antigens. By taking advantage of antibody clonal selection and evolution in vivo, an orthogonal antibody–antigen cross-linking reaction can be generated. With this mechanism, we developed a new approach for facile elicitation of antibodies binding to specific epitopes of the antigen in vivo. Antibody responses were directed and enriched to the target epitopes on protein antigens or peptide-KLH conjugates after mouse immunization with the AcrK or Kcr-incorporated immunogens. The effect is so prominent that the majority of selected hits bind to the target epitope. Furthermore, the epitope-specific antibodies effectively block IL-1β from activating its receptor, indicating its potential for the development of protein subunit vaccines.
ISSN:2374-7943
2374-7951
DOI:10.1021/acscentsci.3c00265