BI 836845, a fully human IGF ligand neutralizing antibody, to improve the efficacy of rapamycin by blocking rapamycin-induced AKT activation.

Abstract

3092 Background: Analogs of rapamycin (rapalogs) targeting mammalian target of rapamycin complex 1 (mTORC1) have shown clinical activity in several cancers. Nonetheless, preclinical and clinical data suggest that there may be intrinsic resistance to rapalogs through a feedback loop which activates upstream signaling when mTORC1 is blocked. BI 836845 is a fully human antibody, currently in phase I clinical trials, which potently neutralizes both IGF-1 and IGF-2. We tested whether BI 836845 is able to improve the efficacy of rapamycin by inhibiting upstream signaling in preclinical models. Methods: Cancer cell lines were profiled in vitro and in vivo for sensitivity to BI 836845 and rapamycin, alone or in combination. Mitogenic signaling was examined by measuring levels of phosphorylated AKT (pAKT) using Western blot analysis. IGF bioactivity was determined using a cellular IGF-1R phosphorylation ELISA. Results: The combination of BI 836845 and rapamycin was more effective than either agent alone at inhibiting the proliferation of Ewing’s sarcoma cells cultured in vitro as well as in a nude mouse xenograft model in vivo. Analysis of cell signaling upstream of mTOR demonstrated that treatment with rapamycin alone resulted in elevated pAKT, indicating feedback loop activation. BI 836845 treatment alone or in combination with rapamycin inhibited AKT phosphorylation, demonstrating that the rapamycin-induced increase in pAKT was due to elevated IGF bioactivity. Consistent with this we demonstrated that rapamycin increased IGF bioactivity in mice and that this could be inhibited by BI 836845. We extended these studies to include other cancer cell lines and profiled the correlation between improved efficacy of the combination with BI 836845 inhibition of rapamycin-induced feedback. A correlation has been observed for cancer cells derived from several indications. Conclusions: Rapamycin treatment increases AKT activation via elevated IGF ligand bioactivity. This effect can be inhibited by BI 836845, thus explaining the improved pre-clinical efficacy seen when both agents are combined. These data provide a rationale for the clinical combination of rapalogs and BI 836845.