IMMU-23. TARGETING METASTATIC AND CNS TUMORS VIA MANNAN-BAM, TLR LIGANDS AND ANTI-CD40 ANTIBODY

Abstract

Abstract Immunotherapy based on activation of innate immunity has been tested in syngeneic mouse tumor models via intratumoral administration of the following components: phagocytosis-stimulating ligands (Mannan-BAM), toll-like receptor (TLR) agonists, and immunostimulant anti-CD40 antibody (abbreviated as MBTA). In this study, syngeneic colon carcinoma (CT26) and glioma (GL261) models were established to assess MBTA’s efficacy in generating immune responses against distal metastatic lesions and CNS tumors. Additionally, we investigated if therapeutic delivery of MBTA could be optimized beyond intratumoral delivery. In the colon carcinoma model, intratumoral injection of MBTA significantly reduced all metastatic CT26 tumor growth rate and induced complete remission (CR) in 33% (3/9) of treated animals. In the glioma model, subcutaneous injection of GL261 cells incubated with MBTA resulted in the complete regression of intracranial gliomas in 87.5% (7/8) of treated animals. Therapeutic effect of MBTA was abrogated in CD4+ and CD8+ lymphocyte depleted mice. Tumor infiltrating leukocyte analyses demonstrated significantly increased CD8+ cytotoxic T-lymphocytes (CTL) in metastatic tumors with higher percentages of TNFα and IFNγ positive cells. Further assessments with MHC I tetramers revealed significantly increased CT26-associated peptide (AH1) specific CTLs in the blood of MBTA treated animals. All animals that achieved complete remission in the colon carcinoma model resisted subsequent peripheral and intracranial challenges with CT26 cells, confirming the induction of immunological memory against CT26 tumors. Collectively, our investigation demonstrates that MBTA can effectively induce a tumor-specific adaptive immune response that can target tumors located in the periphery and within the CNS.