Abstract
The pH low insertion peptide (pHLIP) is an important tool for drug delivery and visualization of acidic tissues produced by various maladies, including cancer, inflammation, and ischemia. Numerous studies indicate that pHLIP exists in three states: unfolded and soluble in water at neutral pH (State I), unfolded and bound to the surface of a phosphatidylcholine membrane at neutral pH (State II), and inserted across the membrane as an α-helix at low pH (State III). Here we report how changes in lipid composition modulate this insertion scheme. First, the presence of either anionic lipids, cholesterol, or phosphoethanolamine eliminates membrane binding at neutral pH (State II). Second, the apparent pKa for the insertion transition (State I → State III) is increased with increasing content of anionic lipids, suggesting that electrostatic interactions in the interfacial region modulate protonation of acidic residues of pHLIP responsible for transbilayer insertion. These findings indicate a possibility for triggering protonation-coupled conformational switching in proteins at membrane interfaces through changes in lipid composition.
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