Premium
Towards measuring growth rates of pathogens during infections by D 2 O‐labeling lipidomics
Author(s) -
Neubauer Cajetan,
Sessions Alex L.,
Booth Ian R.,
Bowen Benjamin P.,
Kopf Sebastian H.,
Newman Dianne K.,
Dalleska Nathan F.
Publication year - 2018
Publication title -
rapid communications in mass spectrometry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.528
H-Index - 136
eISSN - 1097-0231
pISSN - 0951-4198
DOI - 10.1002/rcm.8288
Subject(s) - lipidomics , chemistry , chromatography , orbitrap , mass spectrometry , metabolomics , polyunsaturated fatty acid , biochemistry , fatty acid
Rationale Microbial growth rate is an important physiological parameter that is challenging to measure in situ , partly because microbes grow slowly in many environments. Recently, it has been demonstrated that generation times of S. aureus in cystic fibrosis (CF) infections can be determined by D 2 O‐labeling of actively synthesized fatty acids. To improve species specificity and allow growth rate monitoring for a greater range of pathogens during the treatment of infections, it is desirable to accurately quantify trace incorporation of deuterium into phospholipids. Methods Lipid extracts of D 2 O‐treated E. coli cultures were measured on liquid chromatography/electrospray ionization mass spectrometry (LC/ESI‐MS) instruments equipped with time‐of‐flight (TOF) and orbitrap mass analyzers, and used for comparison with the analysis of fatty acids by isotope‐ratio gas chromatography (GC)/MS. We then developed an approach to enable tracking of lipid labeling, by following the transition from stationary into exponential growth in pure cultures. Lastly, we applied D 2 O‐labeling lipidomics to clinical samples from CF patients with chronic lung infections. Results Lipidomics facilitates deuterium quantification in lipids at levels that are useful for many labeling applications (>0.03 at% D). In the E. coli cultures, labeling dynamics of phospholipids depend largely on their acyl chains and between phospholipids we notice differences that are not obvious from absolute concentrations alone. For example, cyclopropyl‐containing lipids reflect the regulation of cyclopropane fatty acid synthase, which is predominantly expressed at the beginning of stationary phase. The deuterium incorporation into a lipid that is specific for S. aureus in CF sputum indicates an average generation time of the pathogen on the order of one cell doubling per day. Conclusions This study demonstrates how trace level measurement of stable isotopes in intact lipids can be used to quantify lipid metabolism in pure cultures and provides guidelines that enable growth rate measurements in microbiome samples after incubation with a low percentage of D 2 O.