Litcius/Paper detail

Cell-permeable chameleonic peptides: Exploiting conformational dynamics in de novo cyclic peptide design

Theresa A. Ramelot, Jonathan Palmer, G.T. Montelione, Gaurav Bhardwaj

2023Current Opinion in Structural Biology25 citationsDOIOpen Access PDF

Abstract

Membrane-traversing peptides offer opportunities for targeting intracellular proteins and oral delivery. Despite progress in understanding the mechanisms underlying membrane traversal in natural cell-permeable peptides, there are still several challenges to designing membrane-traversing peptides with diverse shapes and sizes. Conformational flexibility appears to be a key determinant of membrane permeability of large macrocycles. We review recent developments in the design and validation of chameleonic cyclic peptides, which can switch between alternative conformations to enable improved permeability through cell membranes, while still maintaining reasonable solubility and exposed polar functional groups for target protein binding. Finally, we discuss the principles, strategies, and practical considerations for rational design, discovery, and validation of permeable chameleonic peptides.

Topics & Concepts

Cyclic peptideRational designMembrane biophysicsMembranePeptideChemistryBiophysicsMembrane permeabilityMembrane proteinComputational biologyBiochemistryBiologyNanotechnologyMaterials scienceAntimicrobial Peptides and ActivitiesRNA Interference and Gene DeliveryChemical Synthesis and Analysis