Abstract
The Wilms’ tumor oncogene protein (WT1) is an intracellular, oncogenic transcription factor that is over-expressed in a wide range of leukemias and solid cancers. RMFPNAPYL (RMF), a WT1-derived CD8 T cell HLA-A0201epitope, is a validated target for T cell-based immunotherapy. We generated a high affinity, fully human IgG1 mAb specific for the RMF/HLA-A0201 complex. The mAb shows potent anti-leukemia activity both in vitro and in vivo in mouse models. Bi-specific T cell engaging antibodies (BiTE) have been used effectively to target cell surface proteins and kill cancers. We have developed a new, potent form of the ESK mAb that is a bi-specific T cell engaging antibody (BiTE) specific for tumor cells coexpressing the intracellular oncoprotein, WT-1 and HLA A0201. ESK-BiTE and an irrelevant control BiTE were constructed with ESK1 scFv or irrelevant ScFv on one arm, and anti-CD3 ScFv fragment as the other arm. The BiTE constructs were expressed in CHO cells. Both the ESK-BiTE and the control BiTE bind human CD3 T cells. The ESK-BiTE selectively bind to leukemia cells that express both WT1 and HLA-A0201. The ESK-BiTE activated human resting T cells and EBV-specific T cells retargeting potent cytotoxicity against WT-1+ HLA A0201+ human leukemia cells in vitro. In an NSG mouse xenograft model, injection of ESK-BiTE (20 ug/ml) twice a week, following I.V. administration of 2x107 human EBV-specific T cells, once a week, significantly inhibited the growth of a previously established disseminated HLA A0201+, WT-1+ human Ph+ ALL, BV173 expressing luciferase, as measured by bioluminescence imaging. In a second NSG mouse model mice injected I.V. with an aggressive human AML, SET-2, on day 0, were treated on day 4 with ESK-Bite for 6 days consecutively at 20 ug/day together with EBV-specific T cells given twice a week. In this setting, the ESK-BiTE and T cells resulted in undetectable leukemic growth for 14 days post-leukemia inoculation, with a minimal tumor burden detected by day 18, while all control groups showed massive increases in leukemia burden by day 14. Mice bearing SET-2 leukemia, that received ESK-BiTE and T cells also showed longer survival and delayed limb paralysis. As expected, the human T cells, which were EBV-specific, did not induce signs of GVHD in mice. Our data provide evidence that ESK-BiTE is a potent and specific therapeutic agent against aggressive human leukemias expressing WT1 and HLA-A0201. This is the first study showing efficacy of a TCR-like BiTE antibody targeting an intracellular tumor antigen expressed at low density.
Supported by the Leukemia and Lymphoma Society, NIH R01CA55349 and P01 23766.
No relevant conflicts of interest to declare.
Author notes
Asterisk with author names denotes non-ASH members.