The scaffold protein IQGAP1 promotes reorientation of epithelial cell polarity at the two-cell stage for cystogenesis.

A single epithelial cell embedded in extracellular matrix (ECM) can proliferate to form an apical lumen-harboring cyst, whose formation is a fundamental step in epithelial organ development. At an early two-cell stage after cell division, the cell doublet typically displays "inverted" polarity, with apical and basolateral proteins being located to the ECM-facing and cell-cell-contacting plasma membranes, respectively. Correct cystogenesis requires polarity reorientation, a process containing apical protein endocytosis from the ECM-abutting periphery and subsequent apical vesicle delivery to a cell-cell contact site for lumen formation. Here, we show that downstream of the ECM-signal-transducer β1-integrin, Rac1, and its effector IQGAP1 promote apical protein endocytosis, contributing to polarity reorientation of mammalian epithelial Madin-Darby canine kidney (MDCK) cells at a later two-cell stage in three-dimensional culture. Rac1-GTP facilitates IQGAP1 interaction with the Rac-specific activator Tiam1, which also contributes to the endocytosis and enhances the effect of IQGAP1. These findings suggest that Tiam1 and IQGAP1 form a positive feedback loop to activate Rac1. With Rac1-GTP, IQGAP1 also binds to AP2α, an adaptor protein subunit for clathrin-mediated endocytosis; depletion of the AP2 complex impairs apical protein endocytosis in MDCK doublets. Thus, Rac1 likely participates in polarity reorientation at the two-cell stage via its interaction with IQGAP1.