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.

Simultaneous analysis by LC-MS/MS of 22 ketosteroids with hydroxylamine derivatization and underivatized estradiol from human plasma, serum and prostate tissue.

This study describes a validated LC-MS/MS method for assaying 23 steroids within a single run from 150 µl of human plasma, serum or prostatic tissue homogenate. Isotope-labeled steroids were used as internal standards. Samples were extracted with toluene, and ketosteroids were derivatized with hydroxylamine prior to LC-MS/MS analysis. The steroids were separated on a C18 column and methanol was used as an organic solvent with the addition of 0.2 mM ammonium fluoride to improve underivatized estradiol (E2) ionization. Certified reference serums as well as plasma samples, and homogenates of prostate tissue were utilized in the method validation. The specificity of the method was inspected with a total of 27 steroids. The validation proved that the method was suitable for the quantitative analysis of a wide panel of androgens (testosterone, T (3.3 pM-13 nM); androstenedione, A4 (3.3 pM-13 nM); 5α-androstanedione, DHA4 (13 pM-13 nM); dehydroepiandrosterone, DHEA (67 pM-133 nM); dihydrotestosterone, DHT (33 pM-33 nM); 11-ketodihydrotestosterone, 11KDHT (13 pM-13nM); 11-ketotestosterone, 11KT (33 pM-6.7 nM); 11ß-hydroxyandrostenedione, 11bOHA4 (33 pM-13 nM); 11ß-hydroxytestosterone, 11OHT (13 pM-33 nM)), as well as estrogens (estrone, E1 (3.3 pM-13 nM)), progestagens (17α-hydroxypregnenolone, 17OHP5 (32 pM-127 nM); 17α-hydroxyprogesterone, 17OHP4 (67 pM-133 nM); progesterone, P4 (3.3 pM-13 nM); pregnenolone, P5 (6.6 pM-13 nM)), and glucocorticoids (cortisol, F (33 pM-134 nM); cortisone E (66 pM-131 nM); corticosterone, B (33 pM-67 nM); 11-deoxycortisol, S (33 pM-66 nM); 21-hydroxyprogesterone, 21OHP4 (32 pM-13 nM)). Furthermore, E2 (335 pM-134 nM) and 11α-hydroxyandrostenedione, 11aOHA4 (33 pM-33 nM) could be analyzed if the concentration in the sample was high enough. In addition, aldosterone, A (128 pM-64 nM) and 11-ketoandrostenedione, 11KA4 (33 pM-13 nM) could be analyzed semiquantitatively. The limits of quantification for all compounds ranged from 0.9 to 91 pg/ml, and from 0.009 to 0.9 pg/mg tissue. Compared to our previous method, this new method also permits the analysis of the more challenging steroids, like DHT, DHEA and P5, and a panel of 11-ketosteroids.

2-hydrazino-1-methylpyridine: a highly sensitive derivatization reagent for oxosteroids in liquid chromatography-electrospray ionization-mass spectrometry.

A derivatization reagent, 2-hydrazino-1-methylpyridine, was developed for the liquid chromatography-electrospray ionization-mass spectrometry (LC-ESI-MS) of oxosteroids. The reagent quantitatively reacted with oxosteroids at 60 degrees C within 1h and the resulting derivatives of the mono-oxosteroids provided a 70-1600-fold higher sensitivity compared to intact steroids. However, HMP was unsuitable for di-oxosteroids, such as androstenedione and progesterone. The developed derivatization procedure was applied to the LC-ESI-MS analysis of 5alpha-dihydrotestosterone in human prostate, and allowed the reproducible quantification of nanogram/gram level of the androgen with a 10-mg sample.

21-Hydroxypregna-1,4-diene-3,11,20-trione: a biliary metabolite of a cartilaginous fish, Raja sp.

21-Hydroxypregna-1,4-diene-3,11,20-trione was isolated from skate bile and as an in vivo metabolite of 3H-1alpha-hydroxycorticosterone. Identity was established by chromatography and derivatization to constant 3H/14C ratio and mass spectrometry of the 20,21-acetonide. The new steroid was present in the free form and as the glucuronoside.

Analysis of steroids Part 50. Derivatization of ketosteroids for their separation and determination by capillary electrophoresis.

4-Ene-3-ketosteroids and 17-ketosteroids were quantitatively transformed into the corresponding hydrazones using Girard P and T reagents, respectively. The positively charged derivatives were separated by capillary electrophoresis. The spectrophotometric characteristics of the derivatives permitted their sensitive detection in the 230-280 nm range. The steroids investigated included nortestosterone and its phenylpropionate, norethisterone and its oenanthate, d,l-norgestrel, dehydroepiandrosterone, androstenedione and ethisterone.

Electron-capturing derivatization of neutral steroids for increasing sensitivity in liquid chromatography/negative atmospheric pressure chemical ionization-mass spectrometry.

Derivatization of neutral steroids for increasing sensitivity in liquid chromatography/negative atmospheric pressure chemical ionization-mass spectrometry (APCI-MS) has been examined. Under APCI conditions, gas-phase electrons are provided by the corona discharge and captured by electron-affinitive compounds. In negative APCI-MS, therefore, ultrahigh sensitivity can be obtained by tagging neutral steroids, whose ionization efficiencies are low in the conventional APCI-MS, with electron-capturing moieties, such as a nitro group. We synthesized various boronic acid and hydrazine derivatives having electron-capturing moieties as derivatization reagents for 1,2-diol compounds and oxosteroids, respectively. Among reagents examined, those having the 2-nitro-4-trifluoromethylphenyl moiety were most effective in increasing sensitivity. That is, the detection responses of the derivatives with these reagents were increased by several to more than 200-fold over intact steroids, where limits of detection were some picograms. The developed derivatization procedures were applied to analyses of small amounts of steroids in human plasma and gave satisfactory results.

0-(2,3,4,5,6-pentafluorobenzyl)hydroxylamine hydrochloride as a sensitive derivatizing agent for the electron capture gas liquid chromatographic analysis of keto steroids.

0-(2,3,4,5,6-pentafluorobenzyl)hydroxylamine hydrochloride was used to prepare oximes of steroids with keto groups in selected positions; 3,17 and 20-monoketo; 3,17 and 3,20-diketo. Some of the 3-keto steroids had hindered 17-hydroxyl groups which were not readily amenable to esterification with perfluoroanhydrides, the most commonly used derivatizing agents for electron capture gas chromatographic analysis of hydroxy steroids. The oximes were readily prepared from 5 ng of each of the compounds tested, and with testosterone it was demonstrated that the derivative could be prepared from as little as 0.1 ng. The derivatives were stable to gas chromatography and extremely sensitive to electron capture detection. The sensitivity ranged from 1.5 X 10(4) coulombs per mole of progesterone. Because of the ease of preparation of the derivatives, their stability in common solvents and analytical manipulative techniques, the reagent would be suitable for the micro analysis of biologically significant keto steroids by electron capture gas chromatography.

[Conformation of the dienone system of delta 4,9-19-nor-3-ketosteroids from x-ray analysis data and its relation to reception and hormonal activity]. / Konformatsiia dienonovoi sistemy delta 4,9-19-nor-3-ketosteroidov po dannym rentgenostrukturnogo analiza i ee sviaz' s retseptsiei i gormonal'noi aktivnost'iu.

Basing on the data of the X-ray analysis of 2 beta-methylestr-4,9-dien-3-one-17 beta-ol (C19H26O2) and A-ring unsubstituted steroid 4,9-dien-3-ones, the noncomplanarity and flexibility of the conjugated dienone system in these transformed steroids has been demonstrated. The results have been also confirmed by UV spectroscopy. The ability of the dienone system to assume conformations with the out of- plane C3 = O3 and/or C9 = C10 bonds allows the AB-fragment of the steroid molecule to adopt the conformations required for interacting with various receptors. This property may also account for a simultaneous enhancement of several hormonal activities upon such a modification of steroids. The results of the X-ray analysis of 2 beta-methylestra-4,9-dien-3-one-17 beta-ol (space group P2(1)2(1)2(1), a 8,543(2), b 9,783(2), c 18,690(7) A, R 8,7%) are presented.

[Analysis of neurosteroids].

The term neurosteroids applies to those steroids that are both synthesized in the nervous system, either de novo from cholesterol or from steroid hormone precursors, and that accumulate in the nervous system to levels that are at least in part independent of steroidogenic gland secretion rates. Neurosteroids consist of 17- or 20-oxosteroids and accumulate in the brain as unconjugated form and their sulfates, fatty acid esters and sulfolipids. The characterization and determination of neurosteroids including conjugates in the brain are summarized in this review. For example, the separation and characterization of 3-fatty acid esters (stearate, palmitate) of pregnenolone and dehydroepiandrosterone in the rat brain are carried out using liquid chromatography-atmospheric pressure chemical ionization mass spectrometry (LC/APCI-MS) operating in the positive-ion mode. The fatty acid esters obtained from the rat brain were derivatized with O-methylhydroxylamine to give the respective methyloximes, which were identified in comparison with their chromatographic behavior with authentic samples during LC/APCI-MS. The function of the steroids are also briefly described.

Matrix-assisted laser desorption/ionisation time of flight spectrometry for the fast screening of oxosteroids using aromatic hydrated hydrazines as versatile probes.

To make the use of MALDI-based mass spectrometry feasible for the fast analysis of oxosteroids, three new aromatic probes have been designed to be used simultaneously as derivatisation agents and MALDI matrices. This concept brings a number of benefits: the sample handling is reduced, the workflow is less time consuming allowing high throughput and the interferences caused by the MALDI matrix are avoided. Identification was successfully attained for all oxosteroids used in this study. As proof-of-concept, the identification of oxosteroids in urine was performed to evaluate the robustness of the new methodology. The oxosteroids 17-α-methyltestosterone, nandrolone, boldenone, 17-α-Trenbolone, fluoxymesterolone, mesterolone and bolasterone were identified in human urine at the minimum concentration level recommended by the world anti-doping agency, 2 ng/mL.