hMENA(11a) contributes to HER3-mediated resistance to PI3K inhibitors in HER2 overexpressing breast cancer cells

Human Mena (hMENA), an actin regulatory protein of the ENA/VASP family, cooperates with ErbB receptor family signaling in breast cancer. It is overexpressed in high-risk preneoplastic lesions and in primary breast tumors where it correlates with HER2 overexpression and an activated status of AKT and MAPK. The concomitant overexpression of hMENA and HER2 identifies breast cancer patients with a worse prognosis. hMENA is expressed along with alternatively expressed isoforms, hMENA11a and hMENAΔv6 with opposite functions. By Reverse Phase Protein Assay, we identified a novel role for the epithelial associated hMENA11a isoform in sustaining HER3 activation and pro-survival pathways in HER2 overexpressing breast luminal cancer cells. Since HER3 activation is crucial in mechanisms of cell resistance to PI3K inhibitors, we explored whether hMENA11a is involved in these resistance mechanisms. The specific hMENA11a depletion switched off the HER3-related pathway activated by PI3K inhibitors and impaired the nuclear accumulation of HER3 transcription factor FOXO3a induced by PI3K inhibitors. On the other hand, PI3K inhibitors activated hMENA11a phosphorylation and affected its localization. At the functional level, we found that hMENA11a sustains cell proliferation and survival in response to PI3K inhibitor treatment whereas hMENA11a silencing increases molecules involved in cancer cell apoptosis. As shown in three-dimensional cultured breast cancer cells hMENA11a contributes to cancer cells resistance to PI3K inhibition since the depletion of hMENA11a drastically reduced cell viability upon treatment with PI3K inhibitor BEZ235. Altogether, these results indicate that hMENA11a in HER2 overexpressing breast cancer cells sustains HER3/AKT axis activation and contributes to HER3-mediated resistance mechanisms to PI3K inhibitors. Thus, hMENA11a expression can be proposed as a marker of HER3 activation and of resistance to PI3K inhibition therapies, to select patients who can benefit from these combined targeted treatments. hMENA11a activity may represent a new target for anti-proliferative therapies in breast cancer.