Your search keyword '"Bollinger JG"' showing total 2 results

1. LC/ESI-MS/MS detection of FAs by charge reversal derivatization with more than four orders of magnitude improvement in sensitivity.

Author

Bollinger JG, Naika GS, Sadilek M, and Gelb MH

Subjects

Animals, Fatty Acids blood, Mice, Chromatography, Liquid methods, Fatty Acids analysis, Fatty Acids chemistry, Limit of Detection, Spectrometry, Mass, Electrospray Ionization methods, Tandem Mass Spectrometry methods

Abstract

Quantitative analysis of fatty acids (FAs) is an important area of analytical biochemistry. Ultra high sensitivity FA analysis usually is done with gas chromatography of pentafluorobenzyl esters coupled to an electron-capture detector. With the popularity of electrospray ionization (ESI) mass spectrometers coupled to liquid chromatography, it would be convenient to develop a method for ultra high sensitivity FA detection using this equipment. Although FAs can be analyzed by ESI in negative ion mode, this method is not very sensitive. In this study, we demonstrate a new method of FA analysis based on conversion of the carboxylic acid to an amide bearing a permanent positive charge, N-(4-aminomethylphenyl)pyridinium (AMPP) combined with analysis on a reverse-phase liquid chromatography column coupled to an ESI mass spectrometer operating in positive ion mode. This leads to an ∼60,000-fold increase in sensitivity compared with the same method carried out with underivatized FAs. The new method is about 10-fold more sensitive than the existing method of gas chromatography/electron-capture mass spectrometry of FA pentafluorobenzyl esters. Furthermore, significant fragmentation of the precursor ions in the nontag portion improves analytical specificity. We show that a large number of FA molecular species can be analyzed with this method in complex biological samples such as mouse serum.

Published

2013

2. Improved method for the quantification of lysophospholipids including enol ether species by liquid chromatography-tandem mass spectrometry.

Author

Bollinger JG, Ii H, Sadilek M, and Gelb MH

Subjects

Cell Line, Chromatography, Liquid, Gene Expression Regulation, Enzymologic, Group X Phospholipases A2 metabolism, Group X Phospholipases A2 pharmacology, Humans, Lysophospholipids blood, Lysophospholipids metabolism, Spectrometry, Mass, Electrospray Ionization, Tandem Mass Spectrometry, Time Factors, Analytic Sample Preparation Methods methods, Ethers metabolism, Lysophospholipids analysis, Lysophospholipids isolation & purification

Abstract

LC/ESI-MS/MS has been previously demonstrated to be a powerful method to detect and quantify molecular species of glycerophospholipids including lysophospholipids. In this study, we provide an improved pre-mass spectrometry lipid extraction procedure that avoids the acid-catalyzed decomposition of plasmenyl phospholipids that is problematic with previously reported methods. We show that the use of lysophospholipid internal standards with perdeuterated fatty acyl chains avoids isobar problems associated with the use of internal standards containing odd carbon number fatty acyl chains. We also show that LC prior to MS is required to avoid numerous problems associated with isobars and with MS in-source decomposition of lysophosphatidylserine. The reported method of using normal phase chromatography/ESI-MS is used to quantify lysophospholipids in serum and to quantify lysophospholipids produced in mammalian cells by human group X secreted phospholipase A(2). The latter shows that group X phospholipase A(2) added exogenously to cells generates a different set of lysophospholipids compared with enzyme produced endogenously in cells, which supports earlier studies showing that this phospholipase A(2) can act on cell membranes prior to externalization from cells.

Published

2010