Membrane curvature governs the distribution of Piezo1 in cellulo

Abstract

Piezo1 is a bona fide mechanosensitive ion channel ubiquitously expressed in mammalian cells. The distribution of Piezo1 within a cell is essential for various biological processes including cytokinesis, cell migration, and wound healing. However, the underlying principles that guide the subcellular distribution of Piezo1 remain largely unexplored. Here, we demonstrate that membrane curvature serves as a key regulator of the spatial distribution of Piezo1 in the plasma membrane of living cells, leading to depletion of Piezo1 from filopodia. Quantification of the curvature-dependent sorting of Piezo1 directly reveals its nano-geometry in situ. Piezo1 density on filopodia increases upon activation, independent of Ca²⁺, suggesting flattening of the channel upon opening. Consequently, the expression of Piezo1 inhibits filopodia formation, an effect that is abolished with channel activation.