%0 Journal Article
%T dAsap regulates cellular protrusions via an Arf6-dependent actin regulatory pathway in S2R+ cells.
%A Kushwaha S
%A Mallik B
%A Bisht A
%A Mushtaq Z
%A Pippadpally S
%A Chandra N
%A Das S
%A Ratnaparkhi G
%A Kumar V
%J FEBS Lett
%V 598
%N 12
%D 2024 Jun 11
%M 38862211
%F 3.864
%R 10.1002/1873-3468.14954
%X Membrane protrusions are fundamental to cellular functions like migration, adhesion, and communication and depend upon dynamic reorganization of the cytoskeleton. GAP-dependent GTP hydrolysis of Arf proteins regulates actin-dependent membrane remodeling. Here, we show that dAsap regulates membrane protrusions in S2R+ cells by a mechanism that critically relies on its ArfGAP domain and relocalization of actin regulators, SCAR, and Ena. While our data reinforce the preference of dAsap for Arf1 GTP hydrolysis in vitro, we demonstrate that induction of membrane protrusions in S2R+ cells depends on Arf6 inactivation. This study furthers our understanding of how dAsap-dependent GTP hydrolysis maintains a balance between active and inactive states of Arf6 to regulate cell shape.