The Rho GTPase Cdc42 is required for primary mammary epithelial cell morphogenesis in vitro.

The Rho GTPase Cdc42 is overexpressed and hyperactivated in breast cancer, and several studies have described mechanisms by which it may promote tumor formation and progression. However, little is known about the role of Cdc42 during normal mammary epithelial cell (MEC) morphogenesis. Here we aimed to define the precise role for Cdc42 during primary mammary acinus formation in vitro. For these studies, MECs were isolated from Cdc42fl/fl conditional knockout mice, transduced with Adeno-cre-GFP virus to delete Cdc42 or Adeno-GFP control virus, and effects on morphogenesis were investigated using a three-dimensional (3D) culture assay. Interestingly, markedly fewer mammary acini developed in Cdc42 deficient cultures, and the acini that formed were significantly smaller and disorganized. Cellular proliferation and survival were reduced in the Cdc42 deficient acini. However, control and knockout MECs cultured as monolayers displayed similar cell cycle profiles, suggesting that Cdc42 is important for MEC proliferation in the context of 3D polarity. Overexpression of cyclin D1, which promotes cell cycle progression downstream of Cdc42, failed to rescue the defect in acinus size. Furthermore, lumen formation and apical-basal polarity were disrupted, and mitotic spindle orientation and Cdc42/aPKC polarity complex defects likely contributed to these phenotypes. Studies using dominant negative Cdc42 and siRNa to knockdown Cdc42 in MDcK and Caco-2 cell lines undergoing cystogenesis in 3D cultures revealed critical roles for Cdc42 in spindle orientation, polarity and lumen formation. Our studies, using complete knockout in primary epithelial cells, demonstrate that Cdc42 is not only an important regulator of polarity and lumen formation; it is also essential for proliferation and survival, which are key cellular processes that drive MEC morphogenesis in vitro and in vivo.