Potent Macromolecule-Sized Poration of Lipid Bilayers by the Macrolittins, A Synthetically Evolved Family of Pore-Forming Peptides

Pore-forming peptides with novel functions have potential utility in many biotechnological applications. However, the sequence-structure-function relationships of pore forming peptides are not understood well enough to empower rational design. Therefore, in this work, we used synthetic molecular evolution to identify a novel family of peptides that are highly potent and cause macromolecular poration in synthetic lipid vesicles at low peptide concentration and at neutral pH. These unique 26-residue peptides, which we call macrolittins, release macromolecules from lipid bilayer vesicles made from zwitterionic PC lipids at peptide to lipid ratios as low as 1:1000, a property that is almost unprecedented among known membrane permeabilizing peptides. The macrolittins exist as membrane-spanning a-helices. They cause dramatic bilayer thinning and form large pores in planar supported bilayers. The high potency of these peptides is likely due to their ability to stabilize bilayer edges by a process that requires specific electrostatic interactions between peptides.