TOM1L1 drives membrane delivery of MT1-MMP to promote ERBB2-induced breast cancer cell invasion.

ERBB2 overexpression in human breast cancer leads to invasive carcinoma but the mechanism is not clearly understood. Here we report that TOM1L1 is co-amplified with ERBB2 and defines a subgroup of HER2(+)/ER(+) tumours with early metastatic relapse. TOM1L1 encodes a GAT domain-containing trafficking protein and is a SRC substrate that negatively regulates tyrosine kinase signalling. We demonstrate that TOM1L1 upregulation enhances the invasiveness of ERBB2-transformed cells. This pro-tumoural function does not involve SRC, but implicates membrane-bound membrane-type 1 MMP (MT1-MMP)-dependent activation of invadopodia, membrane protrusions specialized in extracellular matrix degradation. Mechanistically, ERBB2 elicits the indirect phosphorylation of TOM1L1 on Ser321. The phosphorylation event promotes GAT-dependent association of TOM1L1 with the sorting protein TOLLIP and trafficking of the metalloprotease MT1-MMP from endocytic compartments to invadopodia for tumour cell invasion. Collectively, these results show that TOM1L1 is an important element of an ERBB2-driven proteolytic invasive programme and that TOM1L1 amplification potentially enhances the metastatic progression of ERBB2-positive breast cancers.

Citation

Clément Chevalier, Guillaume Collin, Simon Descamps, Heiani Touaitahuata, Valérie Simon, Nicolas Reymond, Laurent Fernandez, Pierre-Emmanuel Milhiet, Virginie Georget, Serge Urbach, Laurence Lasorsa, Béatrice Orsetti, Florence Boissière-Michot, Evelyne Lopez-Crapez, Charles Theillet, Serge Roche, Christine Benistant. TOM1L1 drives membrane delivery of MT1-MMP to promote ERBB2-induced breast cancer cell invasion. Nature communications. 2016;7:10765

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PMID: 26899482

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