Abstract 898: Elucidation of the molecular mechanism of MenaINVexpression, invadopodium maturation and tumor cell intravasation during breast cancer dissemination by TMEM

Numerous clinical studies have identified Tumor MicroEnvironment of Metastasis (TMEM) and MenaCalc as distinct but functionally interrelated prognostic indicators of distant metastasis in breast cancer patients. TMEM sites are the only sites where tumor cells intravasate in mammary tumors. TMEM score is calculated histologically as the density of tripartite microanatomical structures involving a perivascular macrophage, a Mena-expressing tumor cell and an endothelial cell, all three in direct physical contact. On the other hand, MenaCalc represents the pattern of Mena splice-isoforms present in a tumor sample. MenaINV is the key metastasis-promoting Mena splice-isoform driving tumor cell migration toward blood vessels, intravasation and dissemination. However, the precise molecular mechanisms relating TMEM formation and function and MenaINV expression in these critical steps of the metastatic cascade have not been elucidated. Here we show that MenaINV promotes invadopodium-based proteolysis, which is required for tumor cell invasion and transendothelial migration, by preventing the localization of the phosphatase PTP1B to invadopodia. Interestingly, PTP1B regulates invadopodium maturation by limiting cortactin phosphorylation at a key residue (Y421) that is necessary for actin polymerization during invadopodium maturation. Additionally, we demonstrate that MenaINV expression, invadopodium activity, and subsequent transendothelial migration are induced in tumor cells via Notch1-mediated signaling induced by contact of tumor cells with macrophages. Knock-down of MenaINV expression in tumor cells leads to a proportional decrease in mature invadopodium formation. Complete knock-out of Mena in mouse mammary tumors (PyMT-MMTV) abolishes TMEM assembly and TMEM functions, including TMEM-dependent vascular permeability, circulating tumor cells and lung metastases. In summary, our work shows that macrophage contact of TMEM-associated tumor cells during TMEM assembly stimulates Notch1 to drive expression of MenaINV in tumor cells. MenaINV expression then inhibits PTP1B at invadopodia to promote cortactin phosphorylation at invadopodium precursors, driving invadopodium maturation and promoting transendothelial migration. These findings provide, for the first time, an integrative molecular mechanism for two clinically validated prognostic indicators of metastatic risk, TMEM and MenaCalc, and identify new drug targets for limiting the metastatic spread of breast cancer. Citation Format: Maxwell D. Weidmann, Chinmay R. Surve, Jeanine Pignatelli, Javier J. Bravo-Cordero, George S. Karagiannis, Maja H. Oktay, John S. Condeelis. Elucidation of the molecular mechanism of MenaINV expression, invadopodium maturation and tumor cell intravasation during breast cancer dissemination by TMEM [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 898. doi:10.1158/1538-7445.AM2017-898