Abstract PS07-06: A novel citrullinated-ENO1 peptide-based vaccine for triple-negative breast cancer prevention

Abstract

Abstract Purpose: To evaluate the merits of a novel citrullinated-enolase 1 (ENO1) peptide-based vaccine for inducing an effective response against triple negative breast cancer (TNBC). Background: Targets for cancer vaccines have included mutated proteins and peptides, as well as proteins that are overexpressed in cancer but otherwise ubiquitous in their structure. However, protein modifications other than mutation may also induce an immune response. Several lines of evidence have demonstrated a role for the posttranslational modification (PTM) citrullination as inducing immunogenicity. Dysregulated protein citrullination by peptidyl arginine deiminases (PADI) has been associated with autoimmune diseases and is currently being explored for its relevance to cancer. Previously, our group established PADI2, which catalyzes the PTM from arginine to citrulline, to be highly expressed in TNBC compared to normal mammary and other tissues. We observed that PADI2-associated protein citrullination promotes antigenicity. Importantly, we demonstrated that protein citrullination, non-occurring in DNA and RNA-based vaccines, is highly cancer specific. On the basis of these findings, we developed a novel vaccine based on cancer-selective citrullinated-enolase 1 peptides (cit-ENO1) that were identified from mass spectrometry surfaceome and immunopeptidome data from breast cancer cells. We assessed the extent to which a citENO1 peptide based vaccine elicits a potent host response and attenuates tumor development in a syngeneic mouse model of TNBC. Design: To confirm that the cit-ENO1 peptide vaccine elicited an immune response, we immunized female B6129SF1/J mice with 10nmol cit-ENO1 peptides or 10nmol of corresponding unmodified peptides as the antigen, plus the TLR3 agonist poly I:C as an adjuvant (10mg), subcutaneously once a week, for three weeks. Saline or the adjuvant alone were used as controls. One week post the last round of immunization, draining lymph nodes (LNs) and immunized skin were harvested, and T cell phenotypes evaluated using flow-cytometry. To assess anti-cancer efficacy, female B6129SF1/J mice were immunized with cit-ENO1 peptides or unmodified peptides with poly I:C as an adjuvant followed by orthotopic implantation with murine BRCA1co/co; MMTV-Cre; p53+/- TNBC cells (1.5 x 106) and tumor growth as well as overall survival were assessed. Results: We observed that the cit-ENO1 peptide vaccination induced a statistically significantly greater percentage of activated CD8+ PD-1+ effector T cells as well as CD8+ CD44+ CD62L- effector memory T cells in the LNs compared with either the control groups or the unmodified ENO1 peptide. CD8+ PD-1+ T-cells were also found to be significantly elevated in immunized skin of cit-ENO1 vaccinated mice. Both cit-ENO1 and unmodified ENO1 vaccine increased CD4+ PD-1+ T cells from the LNs and immunized skin. Remarkably, the cit-ENO1 vaccine but not the unmodified-ENO1 vaccine significantly delayed tumor growth and markedly improved overall survival compared to respective controls (Logrank test for trend 2-sided p< 0.05). Conclusion: We have developed a novel vaccine based on cancer-selective cit-ENO1 peptides that stimulates a potent anti-cancer immune response and significantly delays tumor initiation and progression in a preclinical, immune competent mouse model of TNBC. Importantly, the anti-cancer effects were not observed with corresponding unmodified ENO1 peptides. Citation Format: Ricardo Leon Letelier, Hiroyuki Katayama, Yihui Chen, Yinning Cai, Fuchung Hsiao, Banu Arun, Samir Hanash. A novel citrullinated-ENO1 peptide-based vaccine for triple-negative breast cancer prevention [abstract]. In: Proceedings of the 2023 San Antonio Breast Cancer Symposium; 2023 Dec 5-9; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2024;84(9 Suppl):Abstract nr PS07-06.