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An Antibacterial Peptide with High Resistance to Trypsin Obtained by Substituting d-Amino Acids for Trypsin Cleavage Sites

Xiaoou Zhao, Mengna Zhang, Muhammad Inam, Qi Cui, Haipeng Zhang, Jia Yu, Qi-Jun Xu, Lingcong Kong, Hongxia Ma

2021Antibiotics37 citationsDOIOpen Access PDF

Abstract

The poor stability of antibacterial peptide to protease limits its clinical application. Among these limitations, trypsin mainly exists in digestive tract, which is an insurmountable obstacle to orally delivered peptides. OM19R is a random curly polyproline cationic antimicrobial peptide, which has high antibacterial activity against some gram-negative bacteria, but its stability against pancreatin is poor. According to the structure-activity relationship of OM19R, all cationic amino acid residues (l-arginine and l-lysine) at the trypsin cleavage sites were replaced with corresponding d-amino acid residues to obtain the designed peptide OM19D, which not only maintained its antibacterial activity but also enhanced the stability of trypsin. Proceeding high concentrations of trypsin and long-time (such as 10 mg/mL, 8 h) treatment, it still had high antibacterial activity (MIC = 16-32 µg/mL). In addition, OM19D also showed high stability to serum, plasma and other environmental factors. It is similar to its parent peptide in secondary structure and mechanism of action. Therefore, this strategy is beneficial to improve the protease stability of antibacterial peptides.

Topics & Concepts

TrypsinPeptideProteaseChemistryAntibacterial activityBiochemistryAmino acidLysineAntibacterial peptidePeptide sequenceArginineAntibacterial agentBacteriaEnzymeBiologyAntibioticsGeneGeneticsAntimicrobial Peptides and ActivitiesChemical Synthesis and AnalysisProtein Hydrolysis and Bioactive Peptides
An Antibacterial Peptide with High Resistance to Trypsin Obtained by Substituting d-Amino Acids for Trypsin Cleavage Sites | Litcius