Phospholipids, including ether phospholipids, are composed of numerous isomeric and isobaric species that have the same backbone and acyl chains. This structural resemblance results in similar fragmentation patterns by collision-induced dissociation of phospholipids regardless of class, yielding complicated MS/MS spectra when isobaric species are analyzed together. Furthermore, the presence of isobaric species can lead to misassignment of species when made solely based on their molecular weights. In this study, we used normal-phase HPLC for ESI-MS/MS analysis of phospholipids from bovine heart mitochondria. Class separation by HPLC eliminates chances for misidentification of isobaric species from different classes of phospholipids. Chromatography yields simple MS/MS spectra without interference from isobaric species, allowing clear identification of peaks corresponding to fragmented ions containing monoacylglycerol backbone derived from losing one acyl chain. Using these fragmented ions, we characterized individual and isomeric species in each class of mitochondrial phospholipids, including unusual species, such as PS, containing an ether linkage and species containing odd-numbered acyl chains in cardiolipin, PS, PI, and PG. We also characterized monolysocardiolipin and dilysocardiolipin, the least abundant but nevertheless important mitochondrial phospholipids. The results clearly show the power of HPLC-MS/MS for identification and characterization of phospholipids, including minor species.
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| http://dx.doi.org/10.1194/jlr.RA120001044 | DOI Listing |
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Article Synopsis
- Ether-linked phosphatidylcholines (PCs) comprise plasmanyl and plasmenyl types, which are difficult to analyze due to the presence of isomeric and isobaric varieties in biological samples.
- This study uses radical directed dissociation (RDD) to effectively differentiate and quantify ether PCs, identifying 30 PC-O and 21 PC-P species, along with changes in abundance related to type 2 diabetes.
- The findings indicate that specific ether PCs are more prominent in human plasma and reveal significant decreases in certain PC species among type 2 diabetic individuals, marking the first use of RDD mass spectrometry for investigating these lipids.
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