Synthesis of multiply deuterated 3- and 21-monosulfates of allo-tetrahydrocorticosteroids as internal standards for mass spectrometry

Spontaneous conversion of prenyl halides to acids: application in metal-free preparation of deuterated compounds under mild conditions

Here we reveal a simple generation of deuterium halide (DX) from common and inexpensive reagents readily available in a synthetic chemistry laboratory, i.e. prenyl-, allyl-, and propargyl halides, under mild conditions. We envisaged that in situ generation of an acid, deuterium halide, would be useful for acid-catalyzed reactions and could be employed for organocatalytic deuteration. The present work reports a metal-free method for deuterium labeling covering a broad range of substrate including phenolic compounds (i.e. flavonoids and stilbenes), indoles, pyrroles, carbonyl compounds, and steroids. This method was also applied for commonly used drugs such as loxoprofen, haloperidol, stanolone, progesterone, androstenedione, donepezil, ketorolac, adrenosterone, cortisone, pregnenolone, and dexamethasone. A gram-scale chromatography-free synthesis of some deuterated compounds is demonstrated in this work. This work provides a simple, clean and by-product-free, site-selective deuteration, and the deuterated products are obtained without chromatographic separation. When applying these initiators for other acid-catalyzed reactions, the deuterium isotope effects of DX may provide products which are different from those obtained from reactions using common acids. Although the mechanism of the spontaneous transformation of prenyl halides to acid is unclear, this overlooked chemistry may be useful for many reactions.

Determination of ketosteroid hormones in meat by liquid chromatography tandem mass spectrometry and derivatization chemistry

A method for the determination and quantification of ketosteroid hormones in meat by mass spectrometry, based on the derivatization of the carbonyl moiety of steroids by O-methylhydroxylamine, is presented. The quantitative assay is performed by means of multiple-reaction-monitoring (MRM) scan mode and using the corresponding labelled species, obtained by reaction with d 3-methoxylamine, as internal standard. The accuracy of the method was established by evaluating artificially spiked samples, obtaining values in the range 90-110%. Recovery tests were performed on blank matrix samples spiked with non-natural steroids including trenbolone and melengestrol acetate. The latter experiment revealed that the yield of the extraction processes was approximately 60%. Good values of LOQ and LOD were achieved, making this method competitive with current hormone assay methods.

[Detailed characterization of bile acid and glucocorticoid world by mass spectrometry]

  The Nobel Prize in Chemistry for 2002 was shared by John B. Fenn and Koichi Tanaka "for their development of soft desorption methods for mass spectrometric analyses of biological macromolecules". Indeed, electrospray ionization and soft laser desorption ionization have proved to be of great value in "omics", such as metabolomics, transcriptomics and proteomics in providing a systematic and quantitative approach to the study of biological systems and networks. Moreover, these techniques have made great contributions to metabolic studies that are used for development of new drugs, as well as to the diagnosis of diseases including cancer based on the specific and sensitive detection of molecular biomarkers. In this article, we describe our recent results on characterization of bile acid metabolism in hepatobiliary disease as well as measurement of conjugated urinary tetrahydrocorticosteroids for assessment of altered corticoid metabolism in endocrine disease and the metabolic syndrome.