Sequential 5-Aza-2 deoxycytidine-depsipeptide FR901228 treatment induces apoptosis preferentially in cancer cells and facilitates their recognition by cytolytic T lymphocytes specific for NY-ESO-1.

Global alterations in chromatin structure profoundly influence gene expression in thoracic neoplasms, silencing tumor suppressors while facilitating the expression of various cancer testis antigens such as NY-ESO-1. Although recent studies have shown that histone deacetylase inhibitors can potentiate tumor suppressor gene induction mediated by demethylating agents in cancer cells, the ability of these agents to augment cancer testis antigen expression have not been fully defined. The authors designed the current study to determine whether the histone deacetylase inhibitor, depsipeptide FR901228 (DP), could enhance NY-ESO-1 induction mediated by the DNA demethylating agent 5-Aza-2'-deoxycytidine (DAC) in cell lines established primarily from thoracic cancers. Quantitative reverse-transcriptase polymerase chain reaction analysis revealed that, under exposure conditions potentially achievable in clinical settings, DAC dramatically induced NY-ESO-1 expression in cultured cancer lines. DP alone mediated negligible target gene induction but significantly augmented DAC-mediated induction of NY-ESO-1. After DAC or sequential DAC-DP treatment, HLA-A*0201 cancer cells were recognized by an HLA-A*0201 CTL specific for NY-ESO-1. Although sequential DAC/DP exposure did not uniformly enhance immune recognition of target cells compared with DAC alone, this treatment mediated profound induction of apoptosis in cancer cells but not normal human bronchial epithelia. The apoptotic effects of DAC, DP, or sequential DAC-DP did not correlate in an obvious manner with histology, or the magnitude of NY-ESO-1 induction in cancer cells. Although the mechanisms have not been fully defined, sequential DAC-DP treatment may be a novel strategy to augment antitumor immunity in cancer patients.

Induction of tumor-reactive cytotoxic T-lymphocytes using a peptide from NY-ESO-1 modified at the carboxy-terminus to enhance HLA-A2.1 binding affinity and stability in solution.

NY-ESO-1 is an attractive candidate tumor antigen for the development of immunotherapy for a wide variety of cancers. It is expressed in multiple types of tumors, but its normal tissue distribution is predominantly limited to the testes and ovaries; furthermore, both humoral and cellular immune responses can be mounted against this protein. Three overlapping HLA-A2.1-restricted T-cell epitopes have been identified within NY-ESO-1. In this investigation, the authors evaluated the in vitro immunogenicity of these peptides. From 2 of 12 HLA-A2.1+ patients with metastatic melanoma, peptide-reactive cytotoxic T-lymphocytes were generated using either NY-ESO-1:157-167 or NY-ESO-1:157-165 but not NY-ESO-1:155-163. Because NY-ESO-1:157-165 is a 9 amino acid peptide completely contained within NY-ESO-1:157-167, it seemed likely that this peptide was the minimal determinant, and thus it was selected for continued study. An amino acid substitution of C to V was introduced into NY-ESO-1:157-165 at P9 to attempt to improve its immunogenicity by enhancing its binding affinity to HLA-A2.1 and increasing its stability in solution, because the C residue is readily oxidized, leading to dimerization of the peptide. From 5 of 20 HLA-A2.1+ patients with metastatic melanoma, NY-ESO-1:157-165(165V) stimulated cytotoxic T-lymphocytes in vitro, which recognized peptide-pulsed target cells and HLA-A2.1+ NY-ESO-1+ tumor cells, suggesting that this peptide may be clinically valuable for the treatment of patients with NY-ESO-1+ tumors.