Multi-level strategy for identifying proteasome-catalyzed spliced epitopes 
targeted by CD8+ T cells during bacterial infection.

Platteel, A. C. M.; Liepe, J.; Textoris-Taube, K.; Keller, C.; Henklein, P.; Schalkwijk, H. H.; Cardoso, R.; Kloetzel, P. M.; Mishto, M.; Sijts, A. J. A. M.

doi:10.1016/j.celrep.2017.07.026

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Multi-level strategy for identifying proteasome-catalyzed spliced epitopes targeted by CD8⁺ T cells during bacterial infection.

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Liepe, J.
Research Group of Quantitative and System Biology, MPI for Biophysical Chemistry, Max Planck Society;

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Citation

Platteel, A. C. M., Liepe, J., Textoris-Taube, K., Keller, C., Henklein, P., Schalkwijk, H. H., et al. (2017). Multi-level strategy for identifying proteasome-catalyzed spliced epitopes targeted by CD8⁺ T cells during bacterial infection. Cell Reports, 20(5), 1242-1253. doi:10.1016/j.celrep.2017.07.026.

Cite as: https://hdl.handle.net/11858/00-001M-0000-002E-0E7D-E

Abstract

Proteasome-catalyzed peptide splicing (PCPS) generates peptides that are presented by MHC class I molecules, but because their identification is challenging, the immunological relevance of spliced peptides remains unclear. Here, we developed a reverse immunology-based multi-level approach to identify proteasome-generated spliced epitopes. Applying this strategy to a murine Listeria monocytogenes infection model, we identified two spliced epitopes within the secreted bacterial phospholipase PlcB that primed antigen-specific CD8+ T cells in L. monocytogenes-infected mice. While reacting to the spliced epitopes, these CD8+ T cells failed to recognize the non-spliced peptide parts in the context of their natural flanking sequences. Thus, we here show that PCPS expands the CD8+ T cell response against L. monocytogenes by exposing spliced epitopes on the cell surface. Moreover, our multi-level strategy opens up opportunities to systematically investigate proteins for spliced epitope candidates and thus strategies for immunotherapies or vaccine design.