Simultaneous Determination of Absolute Configuration
and Quantity of Lipopeptides
Using Chiral Liquid Chromatography/Mass Spectrometry and Diastereomeric
Internal Standards
posted on 2017-02-16, 00:00authored byReza Nemati, Christopher Dietz, Emily Anstadt, Robert Clark, Michael Smith, Frank Nichols, Xudong Yao
Lipopeptides promote
innate immune response and are related to
disease pathology. To investigate the newly emerging roles of lipopeptides,
accurate measurements of stereoisomers with multiple chiral centers
are essential yet challenging. This work uses (3R)- and (3S)-(15-methyl-3-((13-methyltetradecanoyl)oxy)hexadecanoyl)glycyl-l-serine, abbreviated as l-serine-(R+S)-Lipid 654, to develop a method that combines
chiral liquid chromatography, a diastereomeric mixture of isotopically
labeled internal standards, and multiple reaction monitoring mass
spectrometry. The new method allows for simultaneously determining
the absolute configuration and quantity of stereoisomers of bacteria-derived
lipopeptides. Total lipid extracts of nine evaluated bacteria strains
had different amounts, but only the (R)-isoform of l-serine-Lipid 654. The developed method also allowed for the
first quantitative analysis of hydrolysis of a nonphospholipid as
a novel substrate of honey bee venom phospholipase A2.