[PDF][PDF] Dynamin and the actin cytoskeleton cooperatively regulate plasma membrane invagination by BAR and F-BAR proteins

T Itoh, KS Erdmann, A Roux, B Habermann, H Werner… - Developmental cell, 2005 - cell.com
T Itoh, KS Erdmann, A Roux, B Habermann, H Werner, P De Camilli
Developmental cell, 2005cell.com
Cell membranes undergo continuous curvature changes as a result of membrane trafficking
and cell motility. Deformations are achieved both by forces extrinsic to the membrane as well
as by structural modifications in the bilayer or at the bilayer surface that favor the acquisition
of curvature. We report here that a family of proteins previously implicated in the regulation
of the actin cytoskeleton also have powerful lipid bilayer-deforming properties via an N-
terminal module (F-BAR) similar to the BAR domain. Several such proteins, like a subset of …
Summary
Cell membranes undergo continuous curvature changes as a result of membrane trafficking and cell motility. Deformations are achieved both by forces extrinsic to the membrane as well as by structural modifications in the bilayer or at the bilayer surface that favor the acquisition of curvature. We report here that a family of proteins previously implicated in the regulation of the actin cytoskeleton also have powerful lipid bilayer-deforming properties via an N-terminal module (F-BAR) similar to the BAR domain. Several such proteins, like a subset of BAR domain proteins, bind to dynamin, a GTPase implicated in endocytosis and actin dynamics, via SH3 domains. The ability of BAR and F-BAR domain proteins to induce tubular invaginations of the plasma membrane is enhanced by disruption of the actin cytoskeleton and is antagonized by dynamin. These results suggest a close interplay between the mechanisms that control actin dynamics and those that mediate plasma membrane invagination and fission.
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