This subproject is one of many research subprojects utilizing the resources provided by a Center grant funded by NIH/NCRR. Primary support for the subproject and the subproject's principal investigator may have been provided by other sources, including other NIH sources. The Total Cost listed for the subproject likely represents the estimated amount of Center infrastructure utilized by the subproject, not direct funding provided by the NCRR grant to the subproject or subproject staff. While nanospray MS is a good choice for the characterization of simple lipid mixtures (1,2), it is often not sufficient for the qualitative and quantitative analysis of highly complex samples. Most separation methods described are limited, in that they either target only specific classes of interest (3), or are not well suited for MS, the superior detection method, especially for analyses of small amounts of samples. We previously developed a simple, reproducible three-step method for lipid analysis by adapting separation systems described in the literature for the chromatography of lipids (4,5,6). After an optional initial fractionation, normal phase HPLC-MS first provided class separation and then a reversed phase LC-MS/MS system answered remaining questions. Isolated and extracted LDL lipids and lipid standards were separated by 1D or 2D LC and detected by mass spectrometry in positive and negative ion modes. Two different gradients were used for the separation of more nonpolar and more polar lipids. Quantification was based on this step. We are now simplifying this method using UPLC. Fractions are characterized by LC-MS/MS using athe QStar QoTOF MS, or LTQ-Orbitrap MS, or by nanospray MS/MS and/or precursor ion scanning. Lipid and glycolipid standards containing diverse nonpolar, phospho- and glycolipids have been reproducibly separated on the basis of polarity. This step, when used for biological samples, also serves to protect the following column, but is not always necessary. The accuracy of the quantification depends mostly on the quality of internal and external standards available. The system is being applied to the analysis of lipids associated with prions and to sulfatide fractions from human milk that show anti-HIV acrivity. 1) M. Puffer and R.C. Murphy (2003). Mass Spectrometry Reviews 22, 332-64. 2) X. Han and R.W. Gross (2005). Mass Spectrom Rev. 24, 367-412. 3) R.C. Murphy et al. (2001). Chem. Rev. 101, 479-526. 4) J. Hamilton, and K. Comai (1988). Lipids 23, 1046-49 &1150-53. 5) W.W. Christie et al. (1995). J. High Resol. Chromatogr. 18, 97-100. 6) F.K. Welty et al. (1991). J. Clin. Invest. 87, 1748-1754. 7) U. Sommer et al. (2006) J. Lipid Res. 47, 804-814.

Agency
National Institute of Health (NIH)
Institute
National Center for Research Resources (NCRR)
Type
Biotechnology Resource Grants (P41)
Project #
5P41RR010888-15
Application #
8365492
Study Section
Special Emphasis Panel (ZRG1-BCMB-H (40))
Project Start
2011-06-01
Project End
2012-08-09
Budget Start
2011-06-01
Budget End
2012-08-31
Support Year
15
Fiscal Year
2011
Total Cost
$14,186
Indirect Cost
Name
Boston University
Department
Biochemistry
Type
Schools of Medicine
DUNS #
604483045
City
Boston
State
MA
Country
United States
Zip Code
02118
Lu, Yanyan; Jiang, Yan; Prokaeva, Tatiana et al. (2017) Oxidative Post-Translational Modifications of an Amyloidogenic Immunoglobulin Light Chain Protein. Int J Mass Spectrom 416:71-79
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Steinhorn, Benjamin S; Loscalzo, Joseph; Michel, Thomas (2015) Nitroglycerin and Nitric Oxide--A Rondo of Themes in Cardiovascular Therapeutics. N Engl J Med 373:277-80

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