Lipid A in outer membrane vesicles shields bacteria from polymyxins-Reference-Cited by-同舟云学术

Lipid A in outer membrane vesicles shields bacteria from polymyxins

Published:2024-05 Issue:5 Volume:13 Page:
ISSN:2001-3078
Container-title:Journal of Extracellular Vesicles
language:en
Short-container-title:J of Extracellular Vesicle

Author:

Burt Marie¹,Angelidou Georgia²³,Mais Christopher Nils⁴,Preußer Christian⁵⁶,Glatter Timo³,Heimerl Thomas⁴,Groß Rüdiger⁷,Serrania Javier⁴,Boosarpu Gowtham¹,Pogge von Strandmann Elke⁵⁶,Müller Janis A.⁸^ORCID,Bange Gert⁴,Becker Anke⁴,Lehmann Mareike¹⁹¹⁰,Jonigk Danny¹¹¹²,Neubert Lavinia¹¹¹³,Freitag Hinrich¹¹¹³,Paczia Nicole²,Schmeck Bernd¹⁴¹⁰¹⁴¹⁵,Jung Anna Lena¹¹⁶^ORCID

Affiliation:

1. Institute for Lung Research, Universities of Giessen and Marburg Lung Center, German Center for Lung Research (DZL) Philipps‐University Marburg Marburg Germany

2. Core Facility for Metabolomics and Small Molecules Mass Spectrometry Max Planck Institute for Terrestrial Microbiology Marburg Germany

3. Core Facility for Mass Spectrometry and Proteomics Max Planck Institute for terrestrial Microbiology Marburg Germany

4. Center for Synthetic Microbiology (SYNMIKRO) Philipps‐University Marburg Marburg Germany

5. Institute for Tumor Immunology Philipps‐University Marburg Marburg Germany

6. Core Facility ‐ Extracellular Vesicles Philipps‐University Marburg Marburg Germany

7. Institute of Molecular Virology Ulm University Medical Center Ulm Germany

8. Institute of Virology Philipps‐University Marburg Marburg Germany

9. Comprehensive Pneumology Center (CPC), Institute of Lung Health and Immunity Helmholtz Zentrum München German Center for Lung Research (DZL) Munich Germany

10. Institute for Lung Health (ILH) Giessen Germany

11. Biomedical Research in Endstage and Obstructive Lung Disease Hannover (BREATH) German Center of Lung Research (DZL) Hannover Germany

12. Institute of Pathology University Medical Center RWTH University of Aachen Aachen Germany

13. Institute of Pathology Hannover Medical School Hannover Germany

14. Department of Medicine, Pulmonary and Critical Care Medicine University Medical Center Marburg Universities of Giessen and Marburg Lung Center Philipps‐University Marburg Marburg Germany

15. Member of the German Center for Infectious Disease Research (DZIF) Marburg Germany

16. Core Facility Flow Cytometry – Bacterial Vesicles Philipps‐University Marburg Marburg Germany

Abstract

AbstractThe continuous emergence of multidrug‐resistant bacterial pathogens poses a major global healthcare challenge, with Klebsiella pneumoniae being a prominent threat. We conducted a comprehensive study on K. pneumoniae’s antibiotic resistance mechanisms, focusing on outer membrane vesicles (OMVs) and polymyxin, a last‐resort antibiotic. Our research demonstrates that OMVs protect bacteria from polymyxins. OMVs derived from Polymyxin B (PB)‐stressed K. pneumoniae exhibited heightened protective efficacy due to increased vesiculation, compared to OMVs from unstressed Klebsiella. OMVs also shield bacteria from different bacterial families. This was validated ex vivo and in vivo using precision cut lung slices (PCLS) and Galleria mellonella. In all models, OMVs protected K. pneumoniae from PB and reduced the associated stress response on protein level. We observed significant changes in the lipid composition of OMVs upon PB treatment, affecting their binding capacity to PB. The altered binding capacity of single OMVs from PB stressed K. pneumoniae could be linked to a reduction in the lipid A amount of their released vesicles. Although the amount of lipid A per vesicle is reduced, the overall increase in the number of vesicles results in an increased protection because the sum of lipid A and therefore PB binding sites have increased. This unravels the mechanism of the altered PB protective efficacy of OMVs from PB stressed K. pneumoniae compared to control OMVs. The lipid A‐dependent protective effect against PB was confirmed in vitro using artificial vesicles. Moreover, artificial vesicles successfully protected Klebsiella from PB ex vivo and in vivo. The findings indicate that OMVs act as protective shields for bacteria by binding to polymyxins, effectively serving as decoys and preventing antibiotic interaction with the cell surface. Our findings provide valuable insights into the mechanisms underlying antibiotic cross‐protection and offer potential avenues for the development of novel therapeutic interventions to address the escalating threat of multidrug‐resistant bacterial infections.

Funder

Hessisches Ministerium für Wissenschaft und Kunst

Publisher

Wiley

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