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Peptide Double-Stapling and Arginine <i>N</i>-Glycosylation Triggered the Development of Therapeutic Antimicrobial Peptides Capable of Killing Drug-Resistant Bacteria in Mice

Xiang Li, Yanjiao Ding, Jingwen Xue, Yinxue Fu, Fang Yan, Nannan Song, Honggang Hu, Wei Cong, Zhiyuan Lu, Yulei Li

2025Journal of Medicinal Chemistry17 citationsDOI

Abstract

Antimicrobial peptides SAAP-148 exhibited excellent antimicrobial activities but suffered from inherent disadvantages, including cytotoxicity and poor proteolytic stability. Herein, we developed a novel strategy combining one unique silver-catalyzed solid-phase glycosylation-enabled arginine N -glycosylation strategy and all-hydrocarbon peptide double-stapling, and five-round peptide libraries were rationally constructed containing over 50 stapled and/or arginine N -glycosylated peptides. SLP-51 consisting of two introduced all-hydrocarbon staples and the C-terminal arginine glycosylation exhibited superior in vitro antimicrobial activities against drug-resistant Gram-positive or -negative clinical isolates. SLP-51 also exhibited improved proteolytic stability than the parent peptide SLP-0, and importantly, significantly weakened hemolysis. Experimental and modeling mechanism research indicated that SLP-51 exerted similar but stronger killing abilities by destroying the integrality of the bacterial membranes. In both skin wound and drug-resistant bacterial pneumonia models, SLP-51 showcased a potent therapeutic effect in treating both MRSA and Klebsiella pneumoniae infection in vivo and dramatical improvement of inflammatory injury.

Topics & Concepts

ChemistryPeptideAntimicrobialArginineBacteriaDrugGlycosylationBiochemistryAntibioticsMicrobiologyPharmacologyAmino acidBiologyOrganic chemistryMedicineGeneticsAntimicrobial Peptides and ActivitiesBacteriophages and microbial interactionsChemical Synthesis and Analysis
Peptide Double-Stapling and Arginine <i>N</i>-Glycosylation Triggered the Development of Therapeutic Antimicrobial Peptides Capable of Killing Drug-Resistant Bacteria in Mice | Litcius