Litcius/Paper detail

To Fold or Not to Fold: Diastereomeric Optimization of an α-Helical Antimicrobial Peptide

Hippolyte Personne, Thierry Paschoud, Sofia Fulgencio, S. Baeriswyl, Thilo Köhler, Christian van Delden, Achim Stocker, Sacha Javor, Jean‐Louis Reymond

2023Journal of Medicinal Chemistry28 citationsDOIOpen Access PDF

Abstract

Membrane disruptive α-helical antimicrobial peptides (AMPs) offer an opportunity to address multidrug resistance; however, most AMPs are toxic and unstable in serum. These limitations can be partly overcome by introducing D-residues, which often confers protease resistance and reduces toxicity without affecting antibacterial activity, presumably due to lowered α-helicity. Here, we investigated 31 diastereomers of the α-helical AMP KKLLKLLKLLL. Three diastereomers containing two, three, and four D-residues showed increased antibacterial effects, comparable hemolysis, reduced toxicity against HEK293 cells, and excellent serum stability, while another diastereomer with four D-residues additionally displayed lower hemolysis. X-ray crystallography confirmed that high or low α-helicity as measured by circular dichroism indicated α-helical or disordered structures independently of the number of chirality switched residues. In contrast to previous reports, α-helicity across diastereomers correlated with both antibacterial activity and hemolysis and revealed a complex relationship between stereochemistry, activity, and toxicity, highlighting the potential of diastereomers for property optimization.

Topics & Concepts

DiastereomerCircular dichroismChemistryHemolysisStereochemistryAntibacterial activityChirality (physics)StereoisomerismPeptideBiochemistryBacteriaBiologyCatalysisQuantum mechanicsGeneticsPhysicsQuarkChiral symmetry breakingNambu–Jona-Lasinio modelImmunologyAntimicrobial Peptides and ActivitiesAntibiotic Resistance in BacteriaChemical Synthesis and Analysis