Kannan Rangiah scite author profile

An ultrasensitive stable isotope dilution liquid chromatography-tandem mass spectrometry method (LC-MS/MS) was developed and validated for multiplexed quantitative analysis of six unconjugated and conjugated estrogens in human serum. The quantification utilized a new derivatization procedure, which formed analytes as pre-ionized N-methyl pyridinium-3-sulfonyl (NMPS) derivatives. This method required only 0.1 mL of human serum, yet was capable of simultaneously quantifying six estrogens within 20 min. The lower limit of quantitation (LLOQ) for estradiol (E2), 16α-hydroxy (OH)-E2, 4-methoxy (MeO)-E2 and 2-MeO-E2 was 1 fg on column, and was 10 fg on column for 4-OH-E2 and 2-OH-E2. All analytes demonstrated a linear response from 0.5 to 200 pg/mL (5–2000 pg/mL for 4-OH-E2 and 2-OH-E2). Using this validated method, the estrogen levels in human serum samples from 20 female patients and 20 male patients were analyzed and compared. The levels found for unconjugated serum E2 from postmenopausal women (mean 2.7 pg/mL) were very similar to those obtained by highly sensitive gas chromatography-mass spectrometry (GC-MS) methodology. However, the level obtained in serum from older men (mean 9.5 pg/mL) was lower than has been reported previously by both GC-MS and LC-MS procedures. The total (unconjugated + conjugated) 4-MeO-E2 levels were significantly higher in female samples compared with males (p<0.05). The enhanced sensitivity offered by the present method will allow for a more specific analysis of estrogens and their metabolites. Our observations might suggest that the level of total 4-MeO-E2 could be a potential biomarker for breast cancer cases.

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Cyclooxygenase-2-Mediated Metabolism of Arachidonic Acid to 15-Oxo-eicosatetraenoic Acid by Rat Intestinal Epithelial Cells

Lee

Rangiah

Williams

et al. 2007

Chem. Res. Toxicol.

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Rat intestinal epithelial cells that permanently express the cyclooxygenase-2 (COX-2) gene (RIES cells) were used to investigate COX-2-mediated arachidonic acid (AA) metabolism. A targeted chiral lipidomics approach was employed to quantify AA metabolites that were secreted by the cells into the culture media. When intact RIES cells were treated with calcium ionophore A-23187 (1 microM) for 1 h, 11-(R)-hydroxyeicosatetraenoic acid (HETE) was the most abundant metabolite, followed by prostaglandin (PG) E 2, 15-(S)-HETE, 15-oxo-eicosatetraenoic acid (ETE), and 15-(R)-HETE. Incubation for a further 23 h after the calcium ionophore was removed resulted in a substantial increase in PGE 2 concentrations while HETE and 15-oxo-ETE concentrations decreased to almost undetectable levels. A similar metabolic profile was observed when RIES cells were treated with increasing concentrations of AA for 24 h. Incubation of the RIES cells with 10 microM AA revealed that maximal concentrations of 11-(R)-HETE, 15-(S)-HETE, and 15-oxo-ETE occurred after 10 min of incubation when the 15-( S)-HETE concentrations were approximately twice that of PGE 2. There was a gradual decrease in the concentrations of HETE and 15-oxo-ETE over time, whereas PGE 2 concentrations increased steadily until they reached a maximum after 24 h of incubation. The ratio of PGE 2 to 15-(S)-HETE was then approximately 20:1. 15-(S)-HETE and 15-oxo-ETE concentrations declined in the cell media during prolonged incubations with pseudo-first-order rate constants of 0.0121 and 0.0073 min(-1), respectively. 15-(S)-HETE was shown to undergo metabolism primarily to 15-oxo-ETE, which was further metabolized to a glutathione (GSH) adduct. The GSH adduct of 15-oxo-ETE was further metabolized in the extracellular milieu to a cysteinylglycine adduct. Thus, we have established for the first time that 15-oxo-ETE can be formed biosynthetically from AA, that 15-(S)-HETE is its immediate precursor, and that 15-oxo-ETE forms a GSH adduct. For ionophore-A-23187-stimulated cells and at early time points for AA-stimulated cells, 11-(R)-HETE was the major eicosanoid to be secreted into the media. Adding increasing concentrations of AA to cells in culture made it possible to estimate with surprising accuracy endogenous eicosanoid production using regression analyses. Thus, after 24 h in the absence of added AA, 11-(R)-HETE and 15-(R)-HETE were estimated to be present at concentrations close to the detection limit of our very sensitive assay. These data further highlight the importance of endogenous COX-2-mediated lipid peroxidation and illustrate the necessity to monitor eicosanoid formation from endogenous stores of AA in cell culture experiments.

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Kannan Rangiah

Ultrasensitive quantification of serum estrogens in postmenopausal women and older men by liquid chromatography–tandem mass spectrometry

Cyclooxygenase-2-Mediated Metabolism of Arachidonic Acid to 15-Oxo-eicosatetraenoic Acid by Rat Intestinal Epithelial Cells

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