Andreu Fabregat scite author profile

In humans, conjugation with glucuronic acid is the most important phase II metabolic reaction of steroidal compounds. Glucuronoconjugated metabolites have been conventionally studied by using β-glucuronidase enzymes to release the phase I metabolites. It is well-known that hydrolysis with β-glucuronidase presents some limitations that may result in the underestimation of some conjugates. The aim of the present work was to develop and to evaluate liquid chromatography-tandem mass spectrometry (LC-MS/MS) scan methods for the open detection of steroid glucuronides in urine samples. The mass spectrometric behavior of thirteen representative steroid glucuronides, used as model compounds, was studied. Characteristic ionization and collision induced dissociation behaviors were observed depending on the steroid glucuronide structure. Neutral loss (NL of 176, 194, 211, and 229 Da) and precursor ion (PI of m/z 141, 159, and 177, in positive mode and m/z 75, 85, and 113, in negative mode) scan methods were evaluated. The NL scan method was chosen for the open detection of glucuronoconjugated steroids due to its sensitivity and the structural information provided by this method. The application of the NL scan method to urine samples collected after testosterone (T) undecanoate administration revealed the presence of two T metabolites which remain conjugated as glucuronides after an enzymatic hydrolysis of the urine. 3α,6β-Dihydroxy-5α-androstan-17-one (6β-hydroxyandrosterone) glucuronide and 3α,6β-dihydroxy-5β-androstan-17-one (6β-hydroxyetiocholanolone) glucuronide were established as the structures for these metabolites, by comparing the structure of the steroids released after chemical hydrolysis with reference materials. An increase of 50-300-fold of these metabolites after oral administration of T undecanoate was observed, proving that their determination can be useful in the doping control field. Moreover, these results exemplify that significant information might be missed, unless direct methods for the determination of steroid glucuronides are employed.

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Detection and characterization of urinary metabolites of boldione by LC‐MS/MS. Part I: Phase I metabolites excreted free, as glucuronide and sulfate conjugates, and released after alkaline treatment of the urine

Gómez

Pozo

Fabregat

et al. 2012

Drug Testing and Analysis

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Boldione (1,4-androstadiene-3,17-dione) is included in the list of prohibited substances, issued by the World Antidoping Agency, in the group of exogenous anabolic steroids.Endogenous production of low concentrations of boldione has also been reported. The objective of the study was to assess boldione metabolism in humans. Detection of Metabolite M7 was identified as the 5β-isomer of 1-androstenedione, and metabolites M1 to M4 were hydroxylated metabolites and tentative structures were proposed based on mass spectrometric data. After β-glucuronidase hydrolysis, five additional metabolites excreted only as conjugates with glucuronic acid were detected: boldenone, (5β)-1-testosterone (M9), and three metabolites resulting from reduction of the 3-keto group. In addition, four metabolites (M3, M4, M5, M6) increased their concentration in urine after treatment of the urine in alkaline conditions. Boldenone, epiboldenone, and hydroxylated metabolites of boldione, boldenone and 1-testosterone were detected as conjugates with sulphate. The longer detection time was observed for metabolite M4 after alkaline treatment of the urine, which was detected up to 5 days after boldione administration.

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Andreu Fabregat

Analytical strategies based on mass spectrometric techniques for the study of steroid metabolism

Use of LC-MS/MS for the Open Detection of Steroid Metabolites Conjugated with Glucuronic Acid

Detection and characterization of urinary metabolites of boldione by LC‐MS/MS. Part I: Phase I metabolites excreted free, as glucuronide and sulfate conjugates, and released after alkaline treatment of the urine

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