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Article Abstract
In this work, by capping a macrolactam ring at the C-terminus of a de novo-designed peptide, namely zp80, we have constructed a small peptide library via the solid phase peptide synthesis for screening. Eight peptides bearing different aspartic acid-rich macrolactam rings but the same linear (IIRR) unit exhibited improved antibacterial activities, hemolytic activity, and selectivity index. Mechanistic studies revealed that they could destroy the integrity of bacterial envelope, leading to cytoplasm leakage and rapid dissipation of membrane potential. One of these peptides, zp90 with a macrolactam ring of (KaDGD), demonstrated preferential interaction with calcium ions at a stoichiometric ratio of 1:1, promoting the affinity of designed peptides to bacterial membrane. Overall, this work provides a feasible strategy for medicinal chemists to further develop potent, selective, and multifunctional de novo-designed antimicrobial peptides.
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C-terminal modification of a de novo designed antimicrobial peptide via capping of macrolactam rings.
Bioorg Chem
January 2023
State Key Laboratory of Chemical Biology and Drug Discovery and Department of Applied Biology and Chemical Technology, The Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong. Electronic address:
In this work, by capping a macrolactam ring at the C-terminus of a de novo-designed peptide, namely zp80, we have constructed a small peptide library via the solid phase peptide synthesis for screening. Eight peptides bearing different aspartic acid-rich macrolactam rings but the same linear (IIRR) unit exhibited improved antibacterial activities, hemolytic activity, and selectivity index. Mechanistic studies revealed that they could destroy the integrity of bacterial envelope, leading to cytoplasm leakage and rapid dissipation of membrane potential.
View Article and Find Full Text PDFA proline-derived transannular N-cap for nucleation of short α-helical peptides.
Chem Commun (Camb)
July 2016
School of Chemical Biology and Biotechnology, Shenzhen Graduate School of Peking University, Shenzhen, 518055, China.
We report herein a proline-derived transannular N-cap as a helix nucleating template in diverse bio-related peptide sequences via macrolactamization on resin. This approach takes advantage of synergistic stabilization effects of both N-capping properties of proline and substitution of a main chain hydrogen bond with a covalent bond.
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Article Synopsis
- A build/couple/pair (B/C/P) strategy was used to create a library of 7936 different 12-membered macrolactams.
- All 8 stereoisomers of a linear amine precursor were transformed into 16 macrocyclic scaffolds through head-to-tail cyclization.
- These scaffolds were then diversified further by capping amine functionalities using a targeted reagent selection approach to cover a wide range of chemical variations.