Abstract
Glycerophosphoethanolamine (GPEtn) and glycerophosphoserine (GPSer) lipids were reacted with a multiplexed set of differentially isotopically enriched N-methylpiperazine acetic acid N-hydroxysuccinimide ester reagents, which place isobaric mass labels at a primary amino group. The resulting derivatized aminophospholipids were isobaric and chromatographically indistinguishable but yielded positive reporter ions (m/z 114 or 117) after collisional activation that could be used to identify and quantify individual members of the multiplex set. The chromatographic and mass spectrometric response of N-methylpiperazine amide-tagged aminophospholipids was probed using glycerophosphoethanolamine and glycerophosphoserine lipid standards. The [M+H]+ of each tagged aminophospholipid shifted 144 Da, and during collision-induced dissociation the major fragmentation ion was either m/z 114 or 117. This mode of detecting aminophospholipids was useful for an unbiased analysis of plasmalogen GPEtn lipids. Molecular species information on the esterified fatty acyl substituents was obtained by collisional activation of the [M-H]- ions. The isotope-tagged reagents were used to assess changes in the distribution of GPEtn lipids after exposure of liposomes made from phospholipids extracted from RAW 264.7 cells to Cu2+/H2O2 to illustrate the ability of these reagents to aid in the mass spectrometric identification of aminophospholipid changes that occur during biological stimuli.
Highlights
Glycerophosphoethanolamine (GPEtn) and glycerophosphoserine (GPSer) lipids were reacted with a multiplexed set of differentially isotopically enriched N-methylpiperazine acetic acid N-hydroxysuccinimide ester reagents, which place isobaric mass labels at a primary amino group
Collision-induced dissociation (CID) of the [MϩH]ϩ or [M-H]Ϫ of glycerophospholipids results in fragmentation ions that are related to the polar head group or the fatty acyl substituents esterified to the glycerol backbone, respectively (7)
Because these N-methylpiperazine acetic acid NHS ester reagents react with primary amines, it was thought that phospholipids that contain primary amino groups, such as glycerophosphoethanolamine (GPEtn) and glycerophosphoserine (GPSer) lipids, could be modified using these reagents and that this modification could aid in the mass spectrometric identification of phospholipid changes that occur during biological stimuli
Summary
Glycerophosphoethanolamine (GPEtn) and glycerophosphoserine (GPSer) lipids were reacted with a multiplexed set of differentially isotopically enriched N-methylpiperazine acetic acid N-hydroxysuccinimide ester reagents, which place isobaric mass labels at a primary amino group. Before 114 N-methylpiperazine amide tagging of the phospholipid standards, the abundant [MϩH]ϩ ions observed in the Q3 full-scan positive ion mass spectrum were at m/z and 762 for 16:0a/18:1-GPEtn and 16:0a/18:1-GPSer, respectively.[2] After the reaction of these phospholipid standards with the 114 N-methylpiperazine acetic acid NHS ester reagent, the abundant [MϩH]ϩ ions shifted to m/z 862 and 906 (data not shown), which corresponded to the addition of 145 Da onto the neutral phospholipid species.
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