Abstract
While our prior study identified the HLA-A *0201-restricted ACRBP epitope peptide and demonstrated its capacity to generate cytotoxic T lymphocytes (CTLs) in vitro, the clinical relevance of the peptide-induced T cell reactivity in ovarian cancer (OC) patients and the in vivo anti-tumor efficacy of these CTLs remain unexplored. In this study, dendritic cells were sensitized with ACRBP peptide (ALLVLCYSI) and co-cultured with autologous CD8(+)T cells to induce the production of specific cytotoxic T lymphocytes (Pep-CTLs). The anti-tumor effects of Pep-CTLs were evaluated in SCID mice bearing human ovarian cancer (OC) OVCAR-3 cells. Concurrently, we co-cultured ALLVLCYSI peptide with peripheral blood mononuclear cells (PBMCs) from OC patients (HLA-A2(+), ACRBP(+)) and assessed the number of specific T cells using ELISPOT assays. The immunological impact of the ACRBP peptide against human OC was validated through both in vitro and in vivo experiments. These findings establish a preclinical foundationfor developing ACRBP peptide-based vaccines in OC immunotherapy. To further elucidate ACRBP's role in OC treatment, the study analyzed single-cell RNA sequencing data from 8 OC patients and bulk RNA sequencing data from the Cancer Genome Atlas Project (TCGA) comprising 308 ovarian cancer cases. This analysis aimed to explore the heterogeneity among ACRBP-expressing tumor cell populations and to investigate the correlation between ACRBP expression and immune molecule expression (including MHC and chemokines) alongside chemotherapy response. These insights furnish a theoretical framework supporting the future application of ACRBP in tumor immunotherapy and strategies to prevent immune escape.