Abstract Breast cancer is a devastating disease that claims around 50 million lives per year worldwide, and almost all of these deaths result from metastatic disease rather than from primary tumor burden. Recent studies clearly demonstrate that there is significant intratumor heterogeneity in breast cancer, and that this heterogeneity contributes to malignant progression. Our laboratories previously demonstrated that breast cancer cells that had undergone an oncogenic epithelial-to-mesenchymal transition (EMT) could increase metastasis of neighboring cells via activation of non-canonical GLI transcription factor activity in a paracrine manner that is dependent on Six1 expression in the EMT cells. However, the mechanism by which these Six1-expressing EMT cells activate GLI signaling thereby imparting aggressive properties on neighboring cells remained unknown. Herein we describe the novel discovery that VEGF-C, which is transcriptionally upregulated by Six1, mediates paracrine non-canonical activation of GLI and resultant enhancement of metastatic properties in cells that do not express Six1. Our data demonstrate that VEGF-C is upregulated in HMLER-Snail1 cells, MCF7-Six1 cells and in Met-1 cells endogenously expressing Six1, in a manner that depends on Six1 expression, and that VEGF-C is secreted into the conditioned media (CM) of these cells. Inhibition of VEGF-C in the HMLER-Snail1, MCF7-Six1, and the Met-1 models abrogates paracrine GLI activation and attenuates non-cell autonomous induction of proliferation, migration, and invasion in vitro. In vivo, we show that cells expressing Six1 can enhance the growth and metastasis of those not expressing Six1, and studies will be discussed that examine whether VEGF-C inhibition in Six1 expressing cells disrupts the crosstalk and inhibits non-cell autonomous induction of metastasis by Six1. Finally, by interrogating the TCGA dataset we find that VEGF-C and GLI1 expression significantly positively correlate in human breast cancer encompassing all molecular subtypes. Taken together, these data suggest that VEGF-C secretion may be a novel and conserved paracrine means by which EMT cells activate GLI in neighboring tumor cells that do not express these EMT-inducing transcription factors (TF), ultimately enhancing overall metastasis of heterogenous breast tumors. Citation Format: Deguang Kong, Deepika Neelakantan, Hengbo Zhou, Michael T. Lewis, Heide L. Ford. EMT cells increase the metastatic potential of neighboring carcinoma cells via non-canonical activation of GLI signaling through secretion of VEGF-C [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 5152.