Outer Membranes of Polymyxin-Resistant Acinetobacter baumannii with Phosphoethanolamine-modified Lipid A and Lipopolysaccharide Loss Display Different Atomic-Scale Interactions with Polymyxins

Jiang, Xukai; Yang, Kai; Han, Mei-Ling; Yuan, Bing; Li, Jingliang; Gong, Bin; Velkov, Tony; Schreiber, Falk; Wang, Lushan; Li, Jian

Publikation:
Outer Membranes of Polymyxin-Resistant Acinetobacter baumannii with Phosphoethanolamine-modified Lipid A and Lipopolysaccharide Loss Display Different Atomic-Scale Interactions with Polymyxins

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2020

Autor:innen

Jiang, Xukai

Yang, Kai

Han, Mei-Ling

Yuan, Bing

Li, Jingliang

Gong, Bin

Velkov, Tony

Schreiber, Falk

Wang, Lushan

Li, Jian

DOI (zitierfähiger Link)

https://doi.org/10.1021/acsinfecdis.0c00330

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ACS infectious diseases. ACS Publications. 2020, 6(10), pp. 2698-2708. eISSN 2373-8227. Available under: doi: 10.1021/acsinfecdis.0c00330

Zusammenfassung

Resistance to the last-line polymyxins is increasingly reported in multidrug-resistant Gram-negative pathogens, including Acinetobacter baumannii which develops resistance via either lipid A modification or even lipopolysaccharides (LPS) loss in the outer membrane (OM). Considering these two different mechanisms, quantitative membrane lipidomics data were utilized to develop three OM models representing polymyxin-susceptible and -resistant A. baumannii strains. Through all-atom molecular simulations with enhanced sampling techniques, the effect of lipid A-pEtN modification and LPS loss on the action of colistin (i.e. polymyxin E) was examined for the first time, with a focus on the dynamics and energetics of colistin penetration into these OMs. Lipid A-pEtN modification improved the OM stability, impeding the penetration of colistin into the OM; this differed from the current literature that lipid A-pEtN modification confers resistance by diminishing the initial interaction with polymyxins. In contrast, LPS deficiency significantly reduced the negative charges on the OM surface, diminishing the binding of colistin. Moreover, both lipid A-pEtN modification and LPS loss also constituted colistin resistance through disturbing the conformational transitions of the colistin molecule. Collectively, atomic-scale interactions between polymyxins and different bacterial OMs are very different and the findings may facilitate the discovery of new-generation polymyxins against the Gram-negative 'superbugs'.

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004 Informatik

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antimicrobial resistance, polymyxin, colistin, Acinetobacter baumannii, molecular dynamics

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JIANG, Xukai, Kai YANG, Mei-Ling HAN, Bing YUAN, Jingliang LI, Bin GONG, Tony VELKOV, Falk SCHREIBER, Lushan WANG, Jian LI, 2020. Outer Membranes of Polymyxin-Resistant Acinetobacter baumannii with Phosphoethanolamine-modified Lipid A and Lipopolysaccharide Loss Display Different Atomic-Scale Interactions with Polymyxins. In: ACS infectious diseases. ACS Publications. 2020, 6(10), pp. 2698-2708. eISSN 2373-8227. Available under: doi: 10.1021/acsinfecdis.0c00330

BibTex

@article{Jiang2020Outer-50904,
  year={2020},
  doi={10.1021/acsinfecdis.0c00330},
  title={Outer Membranes of Polymyxin-Resistant Acinetobacter baumannii with Phosphoethanolamine-modified Lipid A and Lipopolysaccharide Loss Display Different Atomic-Scale Interactions with Polymyxins},
  number={10},
  volume={6},
  journal={ACS infectious diseases},
  pages={2698--2708},
  author={Jiang, Xukai and Yang, Kai and Han, Mei-Ling and Yuan, Bing and Li, Jingliang and Gong, Bin and Velkov, Tony and Schreiber, Falk and Wang, Lushan and Li, Jian}
}

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    <dcterms:abstract xml:lang="eng">Resistance to the last-line polymyxins is increasingly reported in multidrug-resistant Gram-negative pathogens, including Acinetobacter baumannii which develops resistance via either lipid A modification or even lipopolysaccharides (LPS) loss in the outer membrane (OM). Considering these two different mechanisms, quantitative membrane lipidomics data were utilized to develop three OM models representing polymyxin-susceptible and -resistant A. baumannii strains. Through all-atom molecular simulations with enhanced sampling techniques, the effect of lipid A-pEtN modification and LPS loss on the action of colistin (i.e. polymyxin E) was examined for the first time, with a focus on the dynamics and energetics of colistin penetration into these OMs. Lipid A-pEtN modification improved the OM stability, impeding the penetration of colistin into the OM; this differed from the current literature that lipid A-pEtN modification confers resistance by diminishing the initial interaction with polymyxins. In contrast, LPS deficiency significantly reduced the negative charges on the OM surface, diminishing the binding of colistin. Moreover, both lipid A-pEtN modification and LPS loss also constituted colistin resistance through disturbing the conformational transitions of the colistin molecule. Collectively, atomic-scale interactions between polymyxins and different bacterial OMs are very different and the findings may facilitate the discovery of new-generation polymyxins against the Gram-negative 'superbugs'.</dcterms:abstract>
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Publikation: Outer Membranes of Polymyxin-Resistant Acinetobacter baumannii with Phosphoethanolamine-modified Lipid A and Lipopolysaccharide Loss Display Different Atomic-Scale Interactions with Polymyxins

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Publikation:
Outer Membranes of Polymyxin-Resistant Acinetobacter baumannii with Phosphoethanolamine-modified Lipid A and Lipopolysaccharide Loss Display Different Atomic-Scale Interactions with Polymyxins