Cell extrusion is a morphogenetic process that is implicated in epithelial homeostasis and elicited by stimuli ranging from apoptosis to oncogenic transformation. To explore whether the morphogenetic transcription factor Snail (SNAI1) induces extrusion, we inducibly expressed a stabilized Snail6SA transgene in confluent MCF-7 monolayers. When expressed in small clusters (less than three cells) within otherwise wild-type confluent monolayers, Snail6SA expression induced apical cell extrusion. In contrast, larger clusters or homogenous cultures of Snail6SA cells did not show enhanced apical extrusion, but eventually displayed sporadic basal delamination. Transcriptomic profiling revealed that Snail6SA did not substantively alter the balance of epithelial and mesenchymal genes. However, we identified a transcriptional network that led to upregulated RhoA signalling and cortical contractility in cells expressing Snail6SA. Enhanced contractility was necessary, but not sufficient, to drive extrusion, suggesting that Snail collaborates with other factors. Indeed, we found that the transcriptional downregulation of cell–matrix adhesion cooperates with contractility to mediate basal delamination. This provides a pathway for Snail to influence epithelial morphogenesis independently of classic epithelial-to-mesenchymal transition.

Keywords:
Snail, RhoA, Contractility, Extrusion, ECM, Adhesion, Delamination
Subjects:
Adhesion

Author contributions

Conceptualization: K.W., A.S.Y., S.B.; Methodology: K.W., M.J.D., S.B.; Software: S.H.-z., M.J.D.; Validation: K.W., M.J.D.; Formal analysis: K.W., S.B., M.J.D., S.H.-z.; Investigation: K.W., K.D., S.V., B.N.N., M.J.D., S.B.; Resources: K.W., S.H.-z., A.V., S.B.; Data curation: K.W., S.H.-z., S.K., M.J.D., S.B.; Writing - original draft: K.W., S.B.; Writing - review & editing: K.W., R.J.D., A.S.Y., M.J.D., S.B.; Visualization: K.W., M.J.D., S.B.; Supervision: A.S.Y., S.B.; Project administration: K.W., S.B.; Funding acquisition: A.S.Y.

Funding

This work was supported by an Australian Postgraduate Award, to K.W., and grants and fellowships from the Queensland Cancer Council (1086587, 112823), and the National Health and Medical Research Council of Australia (1044041, 1136592, 1067405) to A.S.Y. M.J.D. is supported by National Breast Cancer Foundation (ECF-14-043 and CG-10-04; funding of the EMPathy Breast Cancer Network) and the Australian Research Council Center of Excellence in Convergent Bio-Nano Science and Technology (project number CE140100036). R.J.D. is supported by NHMRC Fellowship APP1058540.

Data availability

The RNA-seq data generated for this study has been submitted to NCBI SRA under accession no. PRJNA541097.

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2020
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