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  2. Targeted Metabolomics Analysis Identifies Intestinal Microbiota-Derived Urinary Biomarkers of Colonization Resistance in Antibiotic-Treated Mice

Targeted Metabolomics Analysis Identifies Intestinal Microbiota-Derived Urinary Biomarkers of Colonization Resistance in Antibiotic-Treated Mice

  • Antimicrob Agents Chemother. 2017 Jul 25;61(8):e00477-17. doi: 10.1128/AAC.00477-17.
Mark E Obrenovich 1 2 3 MaryAnn Tima 1 Alex Polinkovsky 1 Renliang Zhang 4 Steven N Emancipator 2 5 Curtis J Donskey 6 7
Affiliations

Affiliations

  • 1 Research Service, Cleveland Veterans Affairs Medical Center, Cleveland, Ohio, USA.
  • 2 Pathology and Laboratory Medicine Service, Cleveland Veterans Affairs Medical Center, Cleveland, Ohio, USA.
  • 3 Cleveland State University, Department of Chemistry, Cleveland, Ohio, USA.
  • 4 Mass Spectrometry II Core Lab, Cleveland Clinic Foundation, Cleveland, Ohio, USA.
  • 5 Case Western Reserve University, Department of Pathology, Cleveland, Ohio, USA.
  • 6 Research Service, Cleveland Veterans Affairs Medical Center, Cleveland, Ohio, USA curtisd123@yahoo.com.
  • 7 Geriatric Research Education and Clinical Center, Cleveland Veterans Affairs Medical Center, Cleveland, Ohio, USA.
Abstract

Antibiotics excreted into the intestinal tract may disrupt the microbiota that provide colonization resistance against enteric pathogens and alter normal metabolic functions of the microbiota. Many of the Bacterial metabolites produced in the intestinal tract are absorbed systemically and excreted in urine. Here, we used a mouse model to test the hypothesis that alterations in levels of targeted Bacterial metabolites in urine specimens could provide useful biomarkers indicating disrupted or intact colonization resistance. To assess in vivo colonization resistance, mice were challenged with Clostridium difficile spores orally 3, 6, and 11 days after the completion of 2 days of treatment with piperacillin-tazobactam, aztreonam, or saline. For concurrent groups of antibiotic-treated mice, urine samples were analyzed by using liquid chromatography-tandem mass spectrometry (LC-MS/MS) to quantify the concentrations of 11 compounds targeted as potential biomarkers of colonization resistance. Aztreonam did not affect colonization resistance, whereas piperacillin-tazobactam disrupted colonization resistance 3 days after piperacillin-tazobactam treatment, with complete recovery by 11 days after treatment. Three of the 11 compounds exhibited a statistically significant and >10-fold increase (the tryptophan metabolite N-acetyltryptophan) or decrease (the plant polyphenyl derivatives cinnamoylglycine and enterodiol) in concentrations in urine 3 days after piperacillin-tazobactam treatment, followed by recovery to baseline that coincided with the restoration of in vivo colonization resistance. These urinary metabolites could provide useful and easily accessible biomarkers indicating intact or disrupted colonization resistance during and after Antibiotic treatment.

Keywords

intestinal microbiota.

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