Wnt/PCP signaling mediates breast cancer metastasis by promoting pro-invasive protrusion formation in collectively motile leader cells

Abstract

AbstractAs evidence supporting essential roles for collective cell migration in carcinoma metastasis continues to accumulate, a better understanding of the underlying cellular and molecular mechanisms will be critical to translating these findings to the treatment of advanced cancers. Here we report that Wnt/PCP, a non-canonical Wnt signaling pathway, mediates breast cancer collective migration and metastasis. We observe that mammary gland-specific knockout of Vangl2, a tetraspanin-like scaffolding protein required for Wnt5a-induced signaling and motility in cultured breast cancer cell lines, results in a striking decrease in metastatic efficiency but not primary tumor growth in the MMTV-NDL transgenic mouse model of HER2-positive breast cancer. We also observe that expression levels of core Wnt/PCP components Wnt5a, Vangl1 and Vangl2 are selectively elevated in K14-positive leader cells relative to follower cells within a collectively migrating cohort, and that Vangl2 expression selectively promotes RhoA activation in leading edge cells. Moreover, Vangl expression drives collective migration in three-dimensional ex vivo tumor organoids, and Vangl protein specifically accumulates within pro-migratory filamentous actin-rich protrusions of leader cells. Together, our observations point to a model whereby Wnt/PCP upregulation facilitates breast tumor collective cell motility by selectively augmenting the formation pro-migratory protrusions within leader cells.