Abstract

Abstract BACKGROUND The outstanding efficacy of bi-specific T-cell engagers (BiTE against hematological malignancies offers hope that they can similarly target solid tumors like GBM. In this study, we have designed a BiTE protein with specificity to the tumor-associated antigen, IL13Rα2, and investigated how BiTE protein engages a host’s T cell immune response to promote anti-glioma activity in pre-clinical models of GBM. MATERIAL AND METHODS BiTE molecule consisting of two single chain variable regions (scFv) of antibodies against either murine or human CD3ε and scFv47 against human IL13Rα2 connected through a flexible linker (BiTEIL13Rα2) were sub-cloned in a lentiviral expression cassette. The BiTE molecule (BiTEIL13Rα2off) modified to abrogate the interaction of scFv47 with IL13Rα2 served as a negative control. The BiTE proteins were isolated from the supernatants of HEK293T cells using His-Tag affinity chromatography and validated in SDS-PAGE, Western Blot, and ELISA assays. The BiTEIL13Rα2-induced T cells activation was measured in (i) cytotoxicity assay against IL13Rα2+ glioma cells, (ii) flow cytometry measuring for CD69 and CD25 T cells’ activation markers, and (iii) the production of cytokines, IFNγ and TNFα. For in vivo analysis, VmDk and C57Bl/6 mice bearing established intracranial glioma were treated systemically with BiTE proteins. The survival of the mice was recorded and analyzed using the log-rank test. RESULTS Here we show that BiTEIL13Rα2 specifically binds to IL13Rα2 but not to IL13Rα1, whereas BiTEIL13Rα2off has no binding activity to both IL13 receptors. The co-culture of naïve murine or donor’s human CD3+ T cells with IL13Rα2+ glioma cells in the presence of BiTEIL13Rα2 but not with BiTEIL13Rα2off (i) activates CD3+CD8+ T cells as judged by upregulation of CD69, CD25, and production of IFNγ and TNFα and (ii) results in concentration- and antigen-dependent cytotoxicity in glioma cells. Furthermore, a direct comparison of CD3+ T cells obtained from the peripheral blood and tumor tissue of GBM patients revealed that BiTEIL13Rα2 induces a potent cytotoxic activity of CD3+ T cells against IL13Rα2+ glioma cells. Finally, treatment of immunocompetent mice bearing IL13Rα2+ murine glioma with BiTEIL13Rα2 resulted in a higher frequency of intratumoral CD8+ T cells, and significant (p<0.05) improvement of survival over a negative control, BiTEIL13Rα2off group of mice. CONCLUSION Our data demonstrate that BiTEIL13Rα2 protein activates CD3+ T cells in an antigen-specific fashion. Furthermore, systemic treatment with BiTEIL13Rα2 protein confers a significant survival benefit in pre-clinical syngeneic glioma models, warranting investigations in other IL13Rα2-expressing cancers and translation to clinical settings.

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