Fibrosis is a severe pathological outcome of many chronic diseases, yet the therapeutic potential of targeting the altered major histocompatibility complex (MHC) class I immunopeptidome remains largely unexplored. Here we characterized the MHC class I immunopeptidomes from both fibrotic foci of human idiopathic pulmonary fibrosis lung explants and bleomycin-treated mice, identifying a diverse repertoire of fibrosis-associated peptides. Parallel profiling of bleomycin-induced pulmonary fibrosis in mice enabled the computational prioritization of therapeutic targets. In vivo, therapeutic vaccination with three candidate peptides (MAF116–124, APBB270–78 and TNS3119–127) effectively mitigated fibrosis progression in bleomycin-treated mice. Furthermore, leveraging its evolutionary conservation, we found that MAF116–124 elicited specific human cytotoxic T lymphocytes that lysed human idiopathic pulmonary fibrosis-derived myofibroblasts and M2-like macrophages. This study indicates that immunopeptidome profiling provides a robust platform for discovering translatable antifibrotic immunotherapies.
Bai, Z., Lan, T., Hong, W., Que, H., Zhu, M., Xiao, X., Wan, D., Ai, J., Huang, S., Wang, J., Hong, Q., Liu, Y., Xiao, C., Zhao, C., Wang, X., Zhang, X., Yang, T., Xu, H., Dai, L., Powell, C. A., Richeldi, L., Luo, F., Dong, H., Yuan, Y., Pu, Q., Wei, X., Immunopeptidome profiling in pulmonary fibrosis provides a platform for identifying therapeutic targets, <<NATURE IMMUNOLOGY>>, 2026; 27 (5): 923-936. [doi:10.1038/s41590-026-02501-x] [https://hdl.handle.net/10807/338223]
Immunopeptidome profiling in pulmonary fibrosis provides a platform for identifying therapeutic targets
Richeldi, Luca;
2026
Abstract
Fibrosis is a severe pathological outcome of many chronic diseases, yet the therapeutic potential of targeting the altered major histocompatibility complex (MHC) class I immunopeptidome remains largely unexplored. Here we characterized the MHC class I immunopeptidomes from both fibrotic foci of human idiopathic pulmonary fibrosis lung explants and bleomycin-treated mice, identifying a diverse repertoire of fibrosis-associated peptides. Parallel profiling of bleomycin-induced pulmonary fibrosis in mice enabled the computational prioritization of therapeutic targets. In vivo, therapeutic vaccination with three candidate peptides (MAF116–124, APBB270–78 and TNS3119–127) effectively mitigated fibrosis progression in bleomycin-treated mice. Furthermore, leveraging its evolutionary conservation, we found that MAF116–124 elicited specific human cytotoxic T lymphocytes that lysed human idiopathic pulmonary fibrosis-derived myofibroblasts and M2-like macrophages. This study indicates that immunopeptidome profiling provides a robust platform for discovering translatable antifibrotic immunotherapies.
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