Lipid packing and local geometry influence septin curvature sensing

Septins can assemble into scaffolds at the plasma membrane to regulate cell morphology. While septins preferentially bind convex membranes via amphipathic helices, their assembly on varied geometries in cells suggests additional localization cues. We tested the hypothesis that lipid composition directs septin assembly through the property of lipid packing. We used pharmacological perturbations that alter fatty acid chain saturation to manipulate lipid packing and found septin structures were selectively disrupted at flat regions of the plasma membrane. To determine whether lipid packing is sufficient to impact septin assembly, molecular dynamics simulations were used to design lipid mixtures with varied packing to monitor septin adsorption in vitro. Septins strongly favored loosely packed lipid bilayers, but additional geometrical cues act in conjunction with this membrane property. This work demonstrates that packing defects and geometry jointly regulate septin localization, highlighting how distinct membrane properties are integrated to organize the septin cytoskeleton.