Abstract
Eicosanoids, including the prostaglandins, leukotrienes, hydroxyeicosatetraenoic acids, epoxyeicosatetraenoic acids, and related compounds, are biosynthetic, bioactive mediators derived from arachidonic acid (AA), a 20:4(n-6) fatty acid. We have developed a comprehensive and sensitive mass spectral analysis to survey eicosanoid release from endotoxin-stimulated RAW 264.7 macrophage-like cells that is capable of detecting over 70 diverse eicosanoids and eicosanoid metabolites, should they be present. We now address the question: Are biologically significant eicosanoids being overlooked? Herein, we illustrate a general approach to diverse isotope metabolic profiling of labeled exogenous substrates using mass spectrometry (DIMPLES/MS), demonstrated for one substrate (AA) and its resultant products (eicosanoids). RAW cells were incubated in medium supplemented with deuterium-labeled AA. When the cells are stimulated, two sets of eicosanoids are produced, one from endogenous AA and the other from the supplemented (exogenous) deuterium-labeled form. This produces a signature mass spectral "doublet" pattern, allowing for a comprehensive and diverse eicosanoid search requiring no previous knowledge or assumptions as to what these species may be, in contrast to traditional methods. We report herein observing unexpected AA metabolites generated by the cells, some of which may constitute novel bioactive eicosanoids or eicosanoid inactivation metabolites, as well as demonstrating differing metabolic pathways for the generation of isomeric prostaglandins and potential peroxisome proliferator-activated receptor activators. Unexpectedly, we report observing a series of 1a, 1b-dihomologue prostaglandins, products of adrenic acid (22:4(n-6)), resulting from the two-carbon elongation of AA by the RAW cells.
Highlights
Starting in the early 1960s with the first structural characterization of the prostaglandins (1), mass spectrometry (MS)2 has
DIMPLES/MS and Unexpected Metabolites—A strategy has been described for diverse isotope metabolic profiling of labeled substrates using mass spectrometry (DIMPLES/MS), devoid of any previous knowledge and assumptions as to what these metabolites may be
When RAW macrophage-like cells are incubated in medium supplemented with arachidonic acid (AA)-d8, over time the endogenous fatty acids esterified to the sn-2 position of cell membrane glycerophospholipids are exchanged for the exogenous deuterated AA analog, it appears that the endogenous AA is not completely replaced
Summary
Materials—Dulbecco’s modified Eagle’s medium, penicillin/streptomycin, the Quant-iT DNA assay kit and the Vybrant Cytotoxicity assay kit were purchased from Invitrogen. The Turbo V ion source was operated in atmospheric pressure chemical ionization mode when employing chiral chromatography using the following settings: CUR ϭ 10 p.s.i., GS1 ϭ 45 p.s.i., GS2 ϭ 60 p.s.i., NC ϭ Ϫ3.0 A, collisional activated dissociation ϭ HIGH, temperature ϭ 400 °C, ihe ϭ ON, DP ϭ Ϫ60 V, EP ϭ Ϫ15 V, and CXP ϭ Ϫ10 V. A set of customized Excel Visual Basic macros was used to load a pair of array files (AA-d8 supplemented and control), perform data normalization and subtractive analyses, view peaks of interest, and generate a list of detected mass spectral “doublets,” according to user-defined criteria
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