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Inappropriate use of antibiotic enhances antibiotic resistance dissemination in ESBL-EC: Role of ydcz in outer membrane vesicles biogenesis and protein transport.

Authors :
Li, Jinpeng
Li, Chao
Tan, Chang
Xu, Heting
Han, Yun
Hu, Yulian
Yang, Jian
Tang, Yizhi
Lei, Changwei
Wang, Hongning
Source :
Microbiological Research. Aug2024, Vol. 285, pN.PAG-N.PAG. 1p.
Publication Year :
2024

Abstract

Extended-spectrumβ-lactam producing Escherichia coli (ESBL-EC) readily colonizes live poultry and serves as a major source of contamination in retail chicken meat, posing significant threats to public health. This study aims to investigate the impact of inappropriate antibiotic use on the dissemination and exacerbation of antibiotic resistance in ESBL-EC and explore the underlying molecular mechanisms. Through experimental analysis, we propose a hypothesis that inappropriate antibiotic use may exacerbate resistance by affecting vesicle formation and protein secretion. Experimental results demonstrate that under the influence of amoxicillin, the concentration of proteins secreted in outer membrane vehicles (OMVs) by ESBL-EC significantly increases, along with a significant upregulation in the expression of the CTX-M-55-type Extended-spectrum beta-lactamase (CTX-M-55). Proteomic analysis and differential gene knockout experiments identified the key protein YdcZ, associated with OMVs formation and protein transportation in ESBL-EC under amoxicillin treatment. Further investigations reveal direct interactions between YdcZ and other proteins (YdiH and BssR). Upon ydcz gene knockout, a significant decrease in protein concentration within OMVs is observed, accompanied by a noticeable reduction in protection against sensitive bacteria. These findings suggest a critical role of YdcZ in regulating the process of protein transportation to OMVs in ESBL-EC under the influence of amoxicillin. In summary, our research uncovers the significant role of inappropriate antibiotic use in promoting the secretion of OMVs by ESBL-EC, aiding the survival of antibiotic-sensitive bacteria in the vicinity of infection sites. These findings provide new insights into the mechanisms underlying antibiotic-induced bacterial resistance dissemination and offer novel avenues for exploring prevention and control strategies against bacterial resistance propagation. • Unveiled antibiotic-vesicle dynamics, vital for food safety. • Revealed intricate dynamics, notably increased OMVs secretion in response to subinhibitory amoxicillin. • Emphasizes OMVs' potential role in antibiotic resistance transmission, paving the way for innovative strategies. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09445013
Volume :
285
Database :
Academic Search Index
Journal :
Microbiological Research
Publication Type :
Academic Journal
Accession number :
177878426
Full Text :
https://doi.org/10.1016/j.micres.2024.127774