Derivatization-free LC-MS/MS method for estrogen quantification in mouse brain highlights a local metabolic regulation after oral versus subcutaneous administration

Abstract

17β-Estradiol (17β-E₂) is a steroid with pleiotropic actions. In addition to being a sexual hormone, it is also produced in the brain where it modulates the reproductive axis. It has been shown that 17β-E₂ also acts on synaptic plasticity and plays a role in neurological pathways and in neurodegenerative diseases. Assaying this steroid in the brain is thus interesting to improve our knowledge of 17β-E₂ effects in the brain. However, 17β-E₂ concentration in the central nervous system has been reported to be of a few nanograms per gram wet weight (nanomolar range concentration); therefore, its quantification requires both an efficient extraction process and a sensitive detection method. Herein is presented a derivatization-free procedure based on solid-phase extraction followed by LC-MS/MS analysis, targeted on 17β-E₂, its isomer17α-E₂, and its metabolites estrone (E₁) and estriol (E₃). This extraction process allowed reaching 96% 17β-E₂ recovery from the mouse brain. Limit of detection (LOD) and limit of quantification (LOQ) values of 0.5 and 2.5 pmol mL^-1, respectively, were reached for both 17α-E₂ and 17β-E₂. LOD values for E₁ and E₃ were 0.01 and 0.025 pmol mL^-1, respectively. The variation coefficients for intra- and inter-assays were 6 and 14%, respectively, for both estradiol forms. The method was applied to assess estrogen levels in the mouse brain and hippocampus after 17β-E₂ acute (subcutaneous injection) and chronic (drinking water) physiological administration. Total estrogen levels were determined after enzymatic deconjugation and compared to free estrogen levels. While 17α-E₂ was not detected in biological samples, 17β-E₂ and metabolite measurements highlight a local biotransformation of estrogens after physiological administration via drinking water. Graphical abstract Method workflow: After oral or subcutaneous Estradiol administration, mouse brain or hippocampus was removed. Samples were homogenized and prepared according to a liquid-liquid extraction, followed by a solid-phase extraction. Then, LC-MS/MS was optimized to quantify 17ß-E₂, its isomer17α-E₂, its metabolites estrone (E₁) and estriol (E₃) and their conjugates.

Keywords: 17β-Estradiol; Estriol; Estrone; Hippocampus; Liquid chromatography; Mass spectrometry.