posted on 2019-03-19, 00:00authored byCasey
A. Chamberlain, Vanessa Y. Rubio, Timothy J. Garrett
Paper
spray ionization mass spectrometry (PSI-MS) is
a relatively new analytical technique allowing for rapid mass spectrometric
analysis of biological samples with little or no sample preparation.
The expeditious nature of the analysis and minimal requirement for
sample preparation make PSI-MS a promising avenue for future clinical
assays with one potential application in the identification of different
types of bacteria. Although past PSI-MS studies have demonstrated
the ability to distinguish between bacteria of different species and
morphological classes, achieving within-species strain-level differentiation
has never been performed. In this report, we demonstrate the first
strain-level bacterial differentiation by PSI-MS with the mammalian
intestinal bacterium Oxalobacter formigenes (Oxf). This novel application holds promising clinical significance
as it could be used to differentiate between pathogenic bacteria and
their harmless, commensal relatives, saving time and money in clinical
diagnostics. Both whole cells and cell lysates of Oxf strains HC1 and OxWR were analyzed using the Prosolia Velox
360TM PSI source coupled to a Thermo Scientific Q
Exactive high-resolution mass spectrometer with a rapid 30 s analytical
method. Multivariate statistical analysis followed by examination
of significant features provided for and confirmed differentiation
between Oxf HC1 and OxWR. We report a panel
of strain-exclusive metabolites that could serve as potential strain-indicating
biomarkers.