IMMUNOMODULATION WITH RESIQUIMOD REPOLARIZES THE IMMUNE MICROENVIRONMENT TO INHIBIT MEDULLOBLASTOMA PROGRESSION

Abstract BACKGROUND New, non-cytotoxic treatments may improve outcomes for medulloblastoma, the most common malignant pediatric brain tumor. Sonic hedgehog (SHH) subgroup medulloblastoma, which includes subtypes with poor prognosis, can be modeled in immunocompetent, transgenic mice. These models are ideal for preclinical testing of immunotherapies. Here, we show that immune stimulation using resiquimod, a small molecule agonist of Toll-like receptor 7 and 8 (TLR 7/8), alters myeloid populations in medulloblastoma and significantly reduces tumor growth. METHOD We generated mice with medulloblastoma by interbreeding the hGFAP-Cre and SmoM2 mouse lines. The resultant hGFAP-Cre/SmoM2 (G-Smo) mice develop SHH medulloblastoma with 100% frequency. We analyzed myeloid populations and demonstrated TLR7/8 expression patterns in G-Smo tumors. We then compared survival of untreated G-Smo mice versus G-Smo mice treated with three doses of resiquimod at postnatal days 10, 12, and 14. We also assessed pharmacodynamic effects at progressive intervals after a single dose. RESULTS Approximately 10% of cells in G-Smo medulloblastomas were myeloid cells, and these cells were the only cells that expressed TLR7/8. Resiquimod slowed tumor growth and increased the survival of mice with medulloblastoma. Untreated median survival was 14.5 days (n=12), compared to resiquimod-treated median survival of 37 days (n=10; p=0.0003). All treated mice eventually demonstrated tumor progression. Immunohistochemistry for IBA1, a pan-macrophage marker, demonstrated significant increase in myeloid cells within the tumor by 24 hours after treatment (p=0.0178), however the IGF1+ fraction of myeloid cells decreased (p=0.0275). CONCLUSION Resiquimod prolongs survival in mice with SHH-driven medulloblastoma, demonstrating the potential for therapies that target myeloid cells to produce significant anti-tumor effects. Myeloid-derived IGF-1 has been shown to support tumor progression and resiquimod may act by disrupting this paracrine signaling.