Abstract 4024: Epigenetic priming potentiates immune checkpoints inhibitors in ovarian cancer

Background: Ovarian cancer (OC) progression is accompanied by the establishment of stable and transcriptionally repressive epigenetic modifications. An important mechanism of immune evasion is represented by epigenetic silencing of tumor antigens (NY-ESO-1, Muc16 and MAGE). We hypothesize that by reversing DNA methylation, DNA methyl transferase inhibitors (DNMTIs) restore the expression of such antigens, potentiating anti-tumor immune response. The targeting of immune checkpoints regulated by programmed cell death protein-1(PD-1) signaling represents a novel therapeutic strategy in cancer, including in OC. Here we set out to measure the anti-tumor effects of epigenetic priming in combination with PD-1/PDL-1 blockade in OC preclinical models. Methods: The ID8 intraperitoneal (ip) immunocompetent syngeneic mouse model was used to measure the effects of the novel DNMTI guadecitabine (SGI-110, Astex Pharmaceuticals Inc) and PDL1 blockade. The experimental groups consisted of non-specific IgG (control), guadecitabine 2mg/m2 sq bi-weekly, murine anti-PDL1 inhibitory antibody (10mg/kg) bi-weekly and combination of guadecitabine with anti-PDL1 antibody (n = 6 mice/group, 3 week treatment). Immune cells collected from the ascites and spleens of tumor bearing mice were either directly processed or co-cultured with ID8 cells for 48 hours. Cells were immuno-phenotyped by flow cytometry. In OC cells treated with guadecitabine, changes in gene expression were analyzed by real time-PCR. Results: In ID8 tumors bearing mice, the combination of PDL1 blockade with guadecitabine significantly decreased primary tumor formation (P