Anchor Residues Guide Form and Function in Grafted Peptides.

Loops at protein-protein interfaces are a rich source of peptide leads that have high specificity and low toxicity. Although such peptides typically need to be constrained to overcome thermodynamic and metabolic limitations, design guidelines to obtain a successfully constrained peptides, and thus facilitate the transition from loop to drug, are relatively poorly formulated. In this work, we surveyed the structures of interface loops and found the position of the terminal residues to be a key determinant of conformation. We used this knowledge to improve the process of molecular grafting, a valuable approach for constraining and stabilising peptides by fusing them to a suitable scaffold. We show that an informed choice of where a loop is "anchored" to a scaffold improves its form and function. This knowledge can help guide the choice of loop and its matching scaffold, and thus increase the success rate for designing stable and potent peptide drug leads.