Probing for the Presence of Semenogelin in Human Urine by Immunological and Chromatographic-mass Spectrometric Methods in the Context of Sports Drug Testing

Overview

Journal Anal Sci Adv

Specialty Biotechnology

Date 2024 May 8

PMID 38716057

Authors

Johanna Breuer

Andreas Thomas

Hans Geyer

Mario Thevis

Affiliations

Soon will be listed here.

Abstract

Rationale: An increasing number of adverse analytical findings (AAFs) in routine doping controls has been suspected and debated to presumably result from intimate contact with bodily fluids (including ejaculate), potentially facilitating the transfer of prohibited substances. More precisely, the possibility of prohibited drugs being present in ejaculate and introduced by sexual intercourse into the vagina of an athlete and, subsequently, into doping control urine samples, was discussed.

Methods: Two testing strategies to determine trace amounts of semenogelin I, a major and specific constituent of semen, were assessed as to their applicability to urine samples. First, the testing protocol of a lateral flow immunochromatographic test directed against semenogelin was adapted. Second, a liquid chromatography/tandem mass spectrometry (LC-MS/MS)-based method was established, employing solid-phase extraction of urine, trypsinization of the retained protein content, and subsequent detection of semenogelin I-specific peptides. Sensitivity, specificity, and reproducibility, but also recovery, linearity, precision, and identification capability of the approaches were assessed. Both assays were used to determine the analyte stability in urine (at 3 µL/mL) at room temperature, +4°C, and -20°C, and authentic urine samples collected either after (self-reported) celibacy or sexual intercourse were subjected to the established assays for proof-of-concept.

Results: No signals for semenogelin were observed in either assay when analyzing blank urine specimens, demonstrating the methods' specificity. Limits of detection were estimated with 1 µL and 10 nL of ejaculate per mL of urine for the immunochromatographic and the mass spectrometric approach, respectively, and figures of merit for the latter assay further included intra- and interday imprecision (4.5-10.7% and 3.8-21.6%), recovery (44%), and linearity within the working range of 0-100 nL/mL. Spiked urine tested positive for semenogelin under all storage conditions up to 12 weeks, and specimens collected after sexual intercourse were found to contain trace amounts of semenogelin up to 55-72 h.

Citing Articles

Probing for the presence of semenogelin in human urine by immunological and chromatographic-mass spectrometric methods in the context of sports drug testing.

Breuer J, Thomas A, Geyer H, Thevis M Anal Sci Adv. 2024; 3(1-2):21-28.

PMID: 38716057 PMC: 10989523. DOI: 10.1002/ansa.202100058.

Complementary information concerning the suspected interindividual transmission of GW1516, a substance prohibited in sport, through intimate contact: a case report.

Breuer J, Garzinsky A, Thomas A, Nieschlag E, Kliesch S, Fedoruk M Forensic Toxicol. 2024; 42(2):248-254.

PMID: 38704758 PMC: 11269478. DOI: 10.1007/s11419-024-00689-x.

Investigations into the concentration and metabolite profiles of stanozolol and LGD-4033 in blood plasma and seminal fluid using liquid chromatography high-resolution mass spectrometry.

Breuer J, Thomas A, Delahaut P, Schanzer W, Geyer H, Thevis M Anal Bioanal Chem. 2022; 415(4):669-681.

PMID: 36441233 PMC: 9839828. DOI: 10.1007/s00216-022-04456-y.

Sexually transmitted doping: The impact of urine contamination of semen.

Handelsman D, Bacha F, DeBono M, Sleiman S, Janu M Drug Test Anal. 2022; 14(9):1623-1628.

PMID: 35655428 PMC: 9545268. DOI: 10.1002/dta.3331.

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