Binding of Ca2+-independent C2 domains to lipid membranes: A multi-scale molecular dynamics study
Andreas Haahr Larsen, Mark S.P. Sansom
Abstract
C2 domains facilitate protein interactions with lipid bilayers in either a Ca 2+ -dependent or -independent manner. We used molecular dynamics (MD) simulations to explore six Ca 2+ -independent C2 domains, from KIBRA, PI3KC2α, RIM2, PTEN, SHIP2, and Smurf2. In coarse-grained MD simulations these C2 domains formed transient interactions with zwitterionic bilayers, compared with longer-lived interactions with anionic bilayers containing phosphatidylinositol bisphosphate (PIP 2 ). Type I C2 domains bound non-canonically via the front, back, or side of the β sandwich, whereas type II C2 domains bound canonically, via the top loops. C2 domains interacted strongly with membranes containing PIP 2 , causing bound anionic lipids to cluster around the protein. Binding modes were refined via atomistic simulations. For PTEN and SHIP2, CG simulations of their phosphatase plus C2 domains with PIP 2 -containing bilayers were also performed, and the roles of the two domains in membrane localization compared. These studies establish a simulation protocol for membrane-recognition proteins.