Apical Size Reduction by Macropinocytosis Alleviates Tissue Crowding

Abstract

Tissue crowding represents a critical challenge to epithelial tissues, which often respond via the irreversible process of live cell extrusion. We report cell size reduction via macropinocytosis as an alternative mechanism. Macropinocytosis is triggered by tissue crowding via mechanosensory signaling, leading to substantial internalization of apical membrane and driving a reduction in apical cell size that remodels the epithelium to alleviate crowding. We report that this mechanism regulates the long-term organization of developing epithelium in response to proliferation-induced crowding but also serves as an immediate response to acute external compression. In both cases, inhibiting macropinocytosis induces a dramatic increase in cell extrusion suggesting cooperation between cell extrusion and macropinocytosis in response to compression. Our findings implicate macropinocytosis as an important regulator of dynamic epithelial remodeling.