Comprehensive lipidome of human plasma using minimal sample manipulation by liquid chromatography coupled with mass spectrometry.

The present work shows a comprehensive chromatographic methods and MS conditions that have been developed according to the chemical properties of each lipid subclass to detect low abundance molecular species. This manuscript shows that the developed methods can detect low and/or very low-abundant lipids like phosphatidic acid (PA) in the glycerophospholipids method, dhCer, dhSPB in the ceramides method, and LPA, LPI, LPG, SPBP in the lysolipids method. Abundant lipid subclasses in human plasma are chromatographically separated from low abundance lipids prior to detection, avoiding the need for derivatisation. Lipid subclasses from the de novo lipogenesis and sphingolipids pathways are presented in this work. Three chromatographic methods here were implemented using a tertiary pumping system to allow for the inclusion of a gradient for analyte separation using A and B pumps, while an isocratic wash elutes interfering compounds. The isocratic wash enabled elution of lipid subclasses not targeted within the method that would otherwise cause background signal in the subsequent sample injection and reduction in column lifetime. Four chromatographic methods coupled with mass spectrometry using targeted and untargeted approaches to separate high and low abundance lipid subclasses are described here. An optimised extraction method for lysolipids is also used in addition to Folch extraction in human plasma.