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Metabolic response of Klebsiella oxytoca to ciprofloxacin exposure: a metabolomics approach

Metabolic response of Klebsiella oxytoca to ciprofloxacin exposure: a metabolomics approach
Metabolic response of Klebsiella oxytoca to ciprofloxacin exposure: a metabolomics approach
Introduction: rapid detection and identification of pathogens and antimicrobial susceptibility is essential for guiding appropriate antimicrobial therapy and reducing morbidity and mortality associated with sepsis.

Objectives: the metabolic response of clinical isolates of Klebsiella oxytoca exposed to different concentrations of ciprofloxacin (the second generation of quinolones antibiotics) were studied in order to investigate underlying mechanisms associated with antimicrobial resistance (AMR).

Methods: metabolomics investigations were performed using Fourier-transform infrared (FT-IR) spectroscopy as a metabolic fingerprinting approach combined with gas chromatography-mass spectrometry (GC-MS) for metabolic profiling.

Results: our findings demonstrated that metabolic fingerprints provided by FT-IR analysis allowed for the differentiation of susceptible and resistant isolates. GC-MS analysis validated these findings, while also providing a deeper understanding of the metabolic alterations caused by exposure to ciprofloxacin. GC-MS metabolic profiling detected 176 metabolic features in the cellular extracts cultivated on BHI broth, and of these, 137 could be identified to Metabolomics Standards Initiative Level 2. Data analysis showed that 40 metabolites (30 Level 2 and 10 unknown) were differentiated between susceptible and resistant isolates. The identified metabolites belonging to central carbon metabolism; arginine and proline metabolism; alanine, aspartate and glutamate metabolism; and pyruvate metabolism. Univariate receiver operating characteristic (ROC) curve analyses revealed that six of these metabolites (glycerol-3-phosphate, O-phosphoethanolamine, asparagine dehydrate, maleimide, tyrosine, and alanine) have a crucial role in distinguishing susceptible from resistant isolates (AUC > 0.84) and contributing to antimicrobial resistance in K. oxtytoca.

Conclusion: our study provides invaluable new insights into the mechanisms underlying development of antimicrobial resistance in K. oxytoca suggests potential therapeutic targets for prevention and identification of AMR in K. oxytoca infections.
1573-3882
Ahmed, Shwan
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Trivedi, Dakshat
0306079b-4ce0-468f-85ff-181aecca2619
Shams, Sahand
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Lima, Cassio
0e8a57be-3c3d-494d-8183-6a16c390584e
McGalliard, Rachel
e70e4bce-af4a-4a20-83aa-8162897a3a7a
Parry, Christopher M.
599e36e6-888e-413f-8c68-4923c6174fce
Carrol, Enitan D.
f643dc8c-745c-4919-be79-971266c9d483
Muhamadali, Howbeer
c0fbfd3f-2b73-4325-8876-c03a81281883
Goodacre, Royston
44cc069e-26e3-4003-8375-82fc3e13cac1
Ahmed, Shwan
9ba5daeb-eb87-4e1d-836d-6e30a6234377
Trivedi, Dakshat
0306079b-4ce0-468f-85ff-181aecca2619
Shams, Sahand
624bd3c3-e7ac-4887-94a2-78e7346820d8
Lima, Cassio
0e8a57be-3c3d-494d-8183-6a16c390584e
McGalliard, Rachel
e70e4bce-af4a-4a20-83aa-8162897a3a7a
Parry, Christopher M.
599e36e6-888e-413f-8c68-4923c6174fce
Carrol, Enitan D.
f643dc8c-745c-4919-be79-971266c9d483
Muhamadali, Howbeer
c0fbfd3f-2b73-4325-8876-c03a81281883
Goodacre, Royston
44cc069e-26e3-4003-8375-82fc3e13cac1

Ahmed, Shwan, Trivedi, Dakshat, Shams, Sahand, Lima, Cassio, McGalliard, Rachel, Parry, Christopher M., Carrol, Enitan D., Muhamadali, Howbeer and Goodacre, Royston (2024) Metabolic response of Klebsiella oxytoca to ciprofloxacin exposure: a metabolomics approach. Metabolomics, 21, [8]. (doi:10.1007/s11306-024-02206-y).

Record type: Article

Abstract

Introduction: rapid detection and identification of pathogens and antimicrobial susceptibility is essential for guiding appropriate antimicrobial therapy and reducing morbidity and mortality associated with sepsis.

Objectives: the metabolic response of clinical isolates of Klebsiella oxytoca exposed to different concentrations of ciprofloxacin (the second generation of quinolones antibiotics) were studied in order to investigate underlying mechanisms associated with antimicrobial resistance (AMR).

Methods: metabolomics investigations were performed using Fourier-transform infrared (FT-IR) spectroscopy as a metabolic fingerprinting approach combined with gas chromatography-mass spectrometry (GC-MS) for metabolic profiling.

Results: our findings demonstrated that metabolic fingerprints provided by FT-IR analysis allowed for the differentiation of susceptible and resistant isolates. GC-MS analysis validated these findings, while also providing a deeper understanding of the metabolic alterations caused by exposure to ciprofloxacin. GC-MS metabolic profiling detected 176 metabolic features in the cellular extracts cultivated on BHI broth, and of these, 137 could be identified to Metabolomics Standards Initiative Level 2. Data analysis showed that 40 metabolites (30 Level 2 and 10 unknown) were differentiated between susceptible and resistant isolates. The identified metabolites belonging to central carbon metabolism; arginine and proline metabolism; alanine, aspartate and glutamate metabolism; and pyruvate metabolism. Univariate receiver operating characteristic (ROC) curve analyses revealed that six of these metabolites (glycerol-3-phosphate, O-phosphoethanolamine, asparagine dehydrate, maleimide, tyrosine, and alanine) have a crucial role in distinguishing susceptible from resistant isolates (AUC > 0.84) and contributing to antimicrobial resistance in K. oxtytoca.

Conclusion: our study provides invaluable new insights into the mechanisms underlying development of antimicrobial resistance in K. oxytoca suggests potential therapeutic targets for prevention and identification of AMR in K. oxytoca infections.

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Accepted/In Press date: 30 November 2024
Published date: 15 December 2024
Additional Information: A correction to this research output can be found at: https://doi.org/10.1007/s11306-025-02234-2
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Identifiers

Local EPrints ID: 503064
URI: http://eprints.soton.ac.uk/id/eprint/503064
DOI: doi:10.1007/s11306-024-02206-y
ISSN: 1573-3882
PURE UUID: 6860f72c-070e-4c57-a30b-229cdce8175c
ORCID for Dakshat Trivedi: ORCID iD orcid.org/0009-0008-9966-0637

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Date deposited: 18 Jul 2025 17:03
Last modified: 22 Aug 2025 02:43

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Contributors

Author: Shwan Ahmed
Author: Dakshat Trivedi ORCID iD
Author: Sahand Shams
Author: Cassio Lima
Author: Rachel McGalliard
Author: Christopher M. Parry
Author: Enitan D. Carrol
Author: Howbeer Muhamadali
Author: Royston Goodacre

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