Abstract
102 Background: Immunotoxins can induce direct and rapid cytotoxicity by targeting specific tumor antigens. D2C7 is a unique recombinant immunotoxin targeting EGFRwt/EGFRvIII, two frequently overexpressed proteins on gliomas, and is currently being tested in a phase I/II clinical trial (NCT02303678) for recurrent malignant gliomas. Immunotoxins have also been shown to induce a secondary antitumor immune response via stimulation of cytotoxic T lymphocytes (CTLs). Immune checkpoint inhibitors, which have successfully treated several advanced tumors by promoting the antitumor function of CTLs, may further enhance this immunotoxin-induced antitumor response. Thus, we hypothesize that combining D2C7 with immune checkpoint inhibitors will promote long-term tumor regression due to primary cytotoxicity and enhanced anti-tumor immunity. Methods: We developed a CT2A-mD2C7 mouse glioma cell line with robust in vitro cytotoxicity of D2C7 (IC50= 0.47 ng/mL). In vivo anti-tumor efficacy was evaluated by intratumoral injection of D2C7 combined with intraperitoneal injection of anti-CTLA4 or anti-PD1 antibodies in single-side and bilateral subcutaneous (SC) CT2A-mD2C7 glioma models in C57BL/6 immunocompetent mice. Results: In the single-side model, D2C7 monotherapy and combinatorial therapy showed a significant tumor growth delay (P < 0.01). Complete regression ( ≥ 40%) was only observed in combinatorial therapy groups. All cured mice rejected the rechallenging of CT2A parental cells in the contralateral flank and the subsequent rechallenging of CT2A-mD2C7 cells in the brain. In the bilateral model, the larger right tumors were treated with D2C7/anti-CTLA4/anti-PD1 monotherapy or D2C7+anti-CTLA4/PD1 combinatorial therapy, while the left tumors were untreated by D2C7. In the groups where the right tumors were treated with monotherapy or combinatorial therapy, the left untreated tumors also grew much slower. Furthermore, the combinatorial therapy led to the most significantly delayed growth of the left untreated tumors (P < 0.05). Conclusions: Immune checkpoint inhibitors can enhance D2C7-induced anti-tumor immunity to achieve a synergistic long-term tumor regression.
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