Abstract BACKGROUND Chimeric antigen receptor T cells against the glycolipid GD2 (GD2.CARTs) have shown promise against Diffuse Midline Glioma (DMG) in clinical trials but are not yet curative. Previous studies in neuroblastoma demonstrate that histone deacetylase inhibitor (HDACi) treatment can increase GD2 on tumor cells and improve targeting by GD2.CARTs. Our lab previously found that simultaneous HDACi and lysine-demethylase 1 inhibitor (LSD1i) treatment in DMG cells causes synergistic alterations in gene expression and reduces DMG growth. Here, we find that treating GD2-low DMG cell lines with combinations of LSD1i and HDACi improves DMG response to GD2.CARTs. METHODS Surface expression of GD2 before and after LSD1i/HDACi treatment were analyzed using immunofluorescence microscopy and flow cytometry. The cytotoxicity of GD2.CARTs against DMG cells was determined from co-culture experiments and in patient-derived orthotopic xenograft models using flow cytometry and bioluminescent imaging. RESULTS Since low target antigen expression is one mechanism by which tumor cells can escape CAR T cell therapy, we profiled GD2 expression on 9 different H3K27M-mutant DMG cell lines. This analysis shows that only 5 of the 9 cell lines exhibit high GD2 expression while the remaining 4 lines have low GD2 expression. When treating these cell lines with GD2.CARTs, we find that low GD2 expression on DMG cells correlates with tumor cell escape and resistance to GD2.CARTs. Treating GD2-low DMG cells with LSD1i+HDACi increases GD2 expression and enhances tumor cell targeting by GD2.CARTs in subsequent co-culture assays. Further studies in mice bearing GD2-low DMG tumors were initially GD2.CART-insensitive but showed reduced tumor growth when pre-treated with LSD1i+HDACi before intravenous GD2.CART infusion. CONCLUSIONS These studies suggest that variable GD2 expression is a major driver of DMG resistance to GD2.CARTs and that LSD1i+HDACi pre-treatment may improve DMG patient responses to GD2.CART therapy by increasing target antigen expression.