Poor immunogenicity of a self/tumor antigen derives from peptide–MHC-I instability and is independent of tolerance
Zhiya Yu, Marc R. Theoret, Christopher E. Touloukian, Deborah R. Surman, Scott C. Garman, Lionel Feigenbaum, Tiffany K. Baxter, Brian M. Baker, Nicholas P. Restifo
Zhiya Yu, Marc R. Theoret, Christopher E. Touloukian, Deborah R. Surman, Scott C. Garman, Lionel Feigenbaum, Tiffany K. Baxter, Brian M. Baker, Nicholas P. Restifo
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Article Immunology

Poor immunogenicity of a self/tumor antigen derives from peptide–MHC-I instability and is independent of tolerance

Abstract

Understanding the mechanisms underlying the poor immunogenicity of human self/tumor antigens is challenging because of experimental limitations in humans. Here, we developed a human-mouse chimeric model that allows us to investigate the roles of the frequency and self-reactivity of antigen-specific T cells in determination of the immunogenicity of an epitope (amino acids 209–217) derived from a human melanoma antigen, gp100. In these transgenic mice, CD8+ T cells express the variable regions of a human T cell receptor (hTCR) specific for an HLA-A*0201–restricted gp100209–217. Immunization of hTCR-transgenic mice with gp100209–217 peptide elicited minimal T cell responses, even in mice in which the epitope was knocked out. Conversely, a modified epitope, gp100209–217(2M), was significantly more immunogenic. Both biological and physical assays revealed a fast rate of dissociation of the native peptide from the HLA-A*0201 molecule and a considerably slower rate of dissociation of the modified peptide. In vivo, the time allowed for dissociation of peptide-MHC complexes on APCs prior to their exposure to T cells significantly affected the induction of immune responses. These findings indicate that the poor immunogenicity of some self/tumor antigens is due to the instability of the peptide-MHC complex rather than to the continual deletion or tolerization of self-reactive T cells.

Authors

Zhiya Yu, Marc R. Theoret, Christopher E. Touloukian, Deborah R. Surman, Scott C. Garman, Lionel Feigenbaum, Tiffany K. Baxter, Brian M. Baker, Nicholas P. Restifo

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Stable peptide–MHC-I complex is required for in vivo induction of antitu...
Stable peptide–MHC-I complex is required for in vivo induction of antitumor responses in JR209-Tg mice. (A) Tumor-specific IFN-γ production by freshly isolated (gray bars) or ex vivo peptide-stimulated (white bars) CD8+JR209-Tg T cells in 24-hour coculture with target cells from B16-A2/Kb, its parental B16 melanoma, and MC-38 murine adenocarcinoma. Data represent the mean of duplicate testing samples. (B) Treatment of B16-A2/Kb tumor in A2/Kb (open symbols) and JR209-Tg (filled symbols) mice by peptide immunization. One hundred micrograms of gp100209–217 (circles), gp100209–217(2M) (squares) peptides or PBS (triangles) in IFA was subcutaneously injected into mice 13 days after tumor inoculation. Five mice were in each group. *Significantly different (P < 0.05). **Not significantly different (P > 0.05). (C) Treatment of B16-A2/Kb tumor in A2/Kb transgenic mice receiving adoptive transfer of ex vivo immunized JR209-Tg splenocytes. Peptide-pulsed splenocytes were separated from JR209-Tg T cells for 24 hours before being cocultured overnight and then injected into tumor-bearing mice. In a control group, gp100209–217 peptide–pulsed splenocytes were directly cocultured with JR209-Tg T cells overnight and injected into tumor-bearing mice. Seven mice were in each group.