Clinical Proteomics (Feb 2019)

Rapid detection of colistin resistance protein MCR-1 by LC–MS/MS

  • Honghui Wang,
  • Yong Chen,
  • Jeffrey R. Strich,
  • Steven K. Drake,
  • Jung-Ho Youn,
  • Avi Z. Rosenberg,
  • Marjan Gucek,
  • Patrick T. McGann,
  • Anthony F. Suffredini,
  • John P. Dekker

DOI
https://doi.org/10.1186/s12014-019-9228-2
Journal volume & issue
Vol. 16, no. 1
pp. 1 – 10

Abstract

Read online

Abstract Background Colistin (polymyxin E) and polymixin B are important bactericidal antibiotics used in the treatment of serious infections caused by multi-drug resistant Gram-negative organisms. Transferrable plasmid-mediated colistin resistance, conferred by the product of the mcr-1 gene, has emerged as a global healthcare threat. Consequently, the rapid detection of the MCR-1 protein in clinical bacterial isolates has become increasingly important. We used a genoproteomic approach to identify unique peptides of the MCR-1 protein that could be detected rapidly by liquid chromatography tandem mass spectrometry (LC–MS/MS). Methods MCR-1 tryptic peptides that were efficiently ionized and readily detectable were characterized in a set of mcr-1-containing isolates with triple quadrupole LC–MS. Three optimal peptides were selected for the development of a rapid multiple reaction monitoring LC–MS/MS assay for the MCR-1 protein. To investigate the feasibility of rapid detection of the MCR-1 protein in bacterial isolates using this assay, a blinded 99-sample test set was built that included three additional mcr-1-containing clinical isolates tested in triplicate (9 samples) and 90 negative control isolates. Results All of the mcr-1-containing isolates in the test set were accurately identified with no false positive detections by three independent, blinded operators, yielding an overall performance of 100% sensitivity and specificity for multiple operators. Among the three peptides tested in this study, the best performing was DTFPQLAK. The isolate-to-result time for the assay as implemented is less than 90 min. Conclusions This work demonstrates the feasibility of rapid detection of the MCR-1 protein in bacterial isolates by LC–MS/MS.