| Title | Profiling Endogenous Serum Estrogen and Estrogen-Glucuronides by Liquid Chromatography-Tandem Mass Spectrometry. | | Author(s) | Caron P, Audet-Walsh E, Lépine J, Bélanger A, Guillemette C | | Institution | Centre Hospitalier Universitaire du Quebec (CHUQ) Research Center and Laval University Research Center, Faculty of Pharmacy, Faculty of Medicine, and Canada Research Chair in Pharmacogenomics, Laval University, Quebec, Canada G1V 4G2. | | Source | Anal Chem 2009 Nov 16. | | Abstract | Estrogens, namely, 17beta-estradiol (E(2)), are conjugated to glucuronides (G), and this metabolic conversion is part of their tissular-concentration control-mechanism. This inactivation process has been observed, in addition to the liver, in several estrogen-dependent tissues and the resulting polar metabolites are detected in circulation. We developed and validated a highly sensitive and specific mass spectrometry-based method to directly measure estrogen-G serum levels. The method uses deuterated standards but does not involve enzymatic hydrolysis, a major improvement over previous techniques. Estrone (E(1)), E(1)-sulfate, E(2), the 3-G of E(1), E(2), 2-methoxy-E(1) (2-MeOE(1)) and 2-methoxy-E(2) (2-MeOE(2)), and the 17-G of E(2) were measured in serum of 19 premenopausal and 10 postmenopausal healthy women. Two extractions, solid-phase and liquid-liquid, were performed to isolate the estrogens. Estrogens were then quantified by mass spectrometry in the negative MRM ion mode using an API3200 spectrometer with a turbo ionspray source. The method selectively measured estrogen glucuronides with sensitivity >/=5 pg/mL, accuracy 90-111%, and reproducibility (CV = 1.4-13.3%). The method is applicable between 5 and 1000 pg/mL. For the ovarian follicular phase, the major metabolite found was E(1)-3G, with E(2)-3G and 2-MeOE(1)-3G found in lesser amounts (54, 10.4, and 7.8 pg/mL, respectively) These concentrations are 2.6- to 3-fold greater than found for luteal-phase estrogens. The concentrations of E(2)-17G and 2-MeOE(2)-3G were usually less than the limit of quantification. In serum of postmenopausal women, E(1)-3G was the most abundant estrogen found (30.9 pg/mL). Our method profiles estrogens and estrogen-glucuronides and may represent a new tool to identify biomarkers in hormone-dependent diseases. | | Language | ENG | | Pub Type(s) | JOURNAL ARTICLE
| | PubMed ID | 19916521 |
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