Real‐Time Monitoring of Multitarget Antimicrobial Mechanisms of Peptoids Using Label‐Free Imaging with Optical Diffraction Tomography

Minsang Kim; Yeongmi Cheon; Dongmin Shin; Jieun Choi; Josefine Eilsø Nielsen; Myeong Seon Jeong; Ho Yeon Nam; Sung‐Hak Kim; Reidar Lund; Håvard Jenssen; Annelise E. Barron; Seongsoo Lee; Jiwon Seo

doi:10.1002/advs.202302483

Advanced Science (Aug 2023)

Real‐Time Monitoring of Multitarget Antimicrobial Mechanisms of Peptoids Using Label‐Free Imaging with Optical Diffraction Tomography

Minsang Kim,
Yeongmi Cheon,
Dongmin Shin,
Jieun Choi,
Josefine Eilsø Nielsen,
Myeong Seon Jeong,
Ho Yeon Nam,
Sung‐Hak Kim,
Reidar Lund,
Håvard Jenssen,
Annelise E. Barron,
Seongsoo Lee,
Jiwon Seo

Affiliations

Minsang Kim: Department of Chemistry Gwangju Institute of Science and Technology (GIST) 123, Cheomdangwagi‐ro, Buk‐guGwangju61005Republic of Korea
Yeongmi Cheon: Gwangju Center Korea Basic Science Institute (KBSI) 49, Dosicheomdansaneop‐ro, Nam‐guGwangju61751Republic of Korea
Dongmin Shin: Department of Chemistry Gwangju Institute of Science and Technology (GIST) 123, Cheomdangwagi‐ro, Buk‐guGwangju61005Republic of Korea
Jieun Choi: Department of Chemistry Gwangju Institute of Science and Technology (GIST) 123, Cheomdangwagi‐ro, Buk‐guGwangju61005Republic of Korea
Josefine Eilsø Nielsen: Department of Science and Environment Roskilde University Universitetsvej 1Roskilde4000Denmark
Myeong Seon Jeong: Chuncheon Center Korea Basic Science Institute (KBSI) 1, Kangwondaehak‐gil, Chuncheon‐siGangwon‐do24341Republic of Korea
Ho Yeon Nam: Department of Chemistry Gwangju Institute of Science and Technology (GIST) 123, Cheomdangwagi‐ro, Buk‐guGwangju61005Republic of Korea
Sung‐Hak Kim: Laboratory of Molecular Biochemistry Chonnam National University 77, Yongbong‐ro, Buk‐guGwangju61186Republic of Korea
Reidar Lund: Department of Chemistry University of Oslo Problemveien 7Oslo0315Norway
Håvard Jenssen: Department of Science and Environment Roskilde University Universitetsvej 1Roskilde4000Denmark
Annelise E. Barron: Department of Bioengineering, Schools of Medicine and EngineeringStanford University443 Via OrtegaStanfordCalifornia94305United States
Seongsoo Lee: Gwangju Center Korea Basic Science Institute (KBSI) 49, Dosicheomdansaneop‐ro, Nam‐guGwangju61751Republic of Korea
Jiwon Seo: Department of Chemistry Gwangju Institute of Science and Technology (GIST) 123, Cheomdangwagi‐ro, Buk‐guGwangju61005Republic of Korea

DOI: https://doi.org/10.1002/advs.202302483
Journal volume & issue: Vol. 10, no. 24
pp. n/a – n/a

Abstract

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Abstract Antimicrobial peptides (AMPs) are promising therapeutics in the fight against multidrug‐resistant bacteria. As a mimic of AMPs, peptoids with N‐substituted glycine backbone have been utilized for antimicrobials with resistance against proteolytic degradation. Antimicrobial peptoids are known to kill bacteria by membrane disruption; however, the nonspecific aggregation of intracellular contents is also suggested as an important bactericidal mechanism. Here,structure‐activity relationship (SAR) of a library of indole side chain‐containing peptoids resulting in peptoid 29 as a hit compound is investigated. Then, quantitative morphological analyses of live bacteria treated with AMPs and peptoid 29 in a label‐free manner using optical diffraction tomography (ODT) are performed. It is unambiguously demonstrated that both membrane disruption and intracellular biomass flocculation are primary mechanisms of bacterial killing by monitoring real‐time morphological changes of bacteria. These multitarget mechanisms and rapid action can be a merit for the discovery of a resistance‐breaking novel antibiotic drug.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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