Comparison of various in vitro model systems of the metabolism of synthetic doping peptides: Proteolytic enzymes, human blood serum, liver and kidney microsomes and liver S9 fraction

Several high-profile revelations concerning anti-doping rule violations over the past 12 months have outlined the importance of tackling prevailing challenges and reducing the limitations of the current anti-doping system. At this time, the necessity to enhance, expand, and improve analytical test methods in response to the substances outlined in the World Anti-Doping Agency's (WADA) Prohibited List represents an increasingly crucial task for modern sports drug-testing programs. The ability to improve analytical testing methods often relies on the expedient application of novel information regarding superior target analytes for sports drug-testing assays, drug elimination profiles, alternative test matrices, together with recent advances in instrumental developments. This annual banned-substance review evaluates literature published between October 2016 and September 2017 offering an in-depth evaluation of developments in these arenas and their potential application to substances reported in WADA's 2017 Prohibited List.

Section: Peptide Hormones Growth Factors Related Substances and MImentioning

confidence: 99%

Annual banned‐substance review: Analytical approaches in human sports drug testing

Thevis

Kuuranne

Geyer

2017

“…Peptides with a molecular mass below 2 kDa and assumed performance‐enhancing properties have been in the focus of sports drug testing for several years. Analytical procedures, which mainly utilize liquid chromatographic‐mass spectrometric (LC–MS) approaches, were readily established and adverse analytical findings have been reported worldwide by various different anti‐doping laboratories . In contrast to peptides or proteins >2 kDa, the sample preparation and analysis for lower molecular mass peptides can be handled similarly to the well‐known analysis of non‐peptidic target analytes (such as steroids, stimulants, etc.).…”

Section: Introductionmentioning

confidence: 99%

“…Analytical procedures, which mainly utilize liquid chromatographic-mass spectrometric (LC-MS) approaches, were readily established and adverse analytical findings have been reported worldwide by various different anti-doping laboratories. [1][2][3][4][5][6][7] In contrast to peptides or proteins >2 kDa, the sample preparation and analysis for lower molecular mass peptides can be handled similarly to the well-known analysis of non-peptidic target analytes (such as steroids, stimulants, etc.). Urine analysis represents the most common strategy in doping controls, thus, the metabolism of the administered compound must be taken into consideration when new assays are developed.…”

Section: Introductionmentioning

confidence: 99%

“…[4,8] Metabolism studies for lower molecular mass performanceenhancing peptides is not entirely new and several earlier studies yielded considerable results lately. [4,7,8,11] Besides the simple incubation with serum or plasma, also classical approaches with human liver microsomes (HLM) or respective enzymes were successfully applied. Separation and detection was usually achieved by means of LC-MS.…”

Section: Introductionmentioning

confidence: 99%

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Characterization of in vitro generated metabolites of selected peptides <2 kDa prohibited in sports

Thomas

Knoop

Schänzer

et al. 2017

With an increasing number of prohibited substances in doping controls, knowledge about their metabolism is crucial for efficient analysis. While for low molecular mass molecules, standard protocols for in vitro metabolism experiments are well established, the situation with peptidic drugs has been shown to be substantially more heterogeneous and complex. Two principle strategies aiming at simulating the metabolism of lower molecular mass peptides in vitro are presented within this study. The prohibited peptides ARA-290, GHRP-3, and Peforelin, with a to-date unknown metabolism, were chosen as model compounds for these experiments and metabolism after incubation with different blood specimens (EDTA-, heparin-, citrate-plasma, and serum) and exposure to recombinant amidase were investigated. The characterization of in vitro generated drug-derived peptidic analytes was accomplished by means of liquid chromatography coupled to high resolution mass spectrometry. Identification of the generated metabolites was ensured by dedicated high resolution product ion experiments after liquid chromatographic separation. While extensive exopeptidase-driven metabolism was observed for ARA-290 (with one main metabolite PyrEQLERALN), GHRP-3 and Peforelin were found to exhibit a considerable metabolic stability with a low tendency for deamidation only. Copyright © 2017 John Wiley & Sons, Ltd.

“…Thus, some methods for anti-doping analysis of GnRH, 15 its 3 synthetic analogues (buserelin, triptorelin, leuprolide), 16 and other peptides, such as GHRPs [16][17][18][19][20][21] and TB-500 22 in urine were developed. As was shown in various in vivo 17,[23][24][25] and in vitro 20,24,[26][27][28] studies, prohibited substances metabolites identification is of considerable importance, so some of these methods include not only the parent substance but also target metabolites.…”

Section: Introductionmentioning

confidence: 99%

Determination of GnRH and its synthetic analogues' abuse in doping control: Small bioactive peptide UPLC–MS/MS method extension by addition of in vitro and in vivo metabolism data; evaluation of LH and steroid profile parameter fluctuations as suitable biomarkers

Zvereva¹,

Dudko²,

Dikunets³

2017

Self Cite

Gonadotropin-releasing hormone (GnRH) and its small peptide synthetic analogues are included in Section S2 of the World Anti-Doping Agency (WADA) Prohibited List as they stimulate pituitary luteinizing hormone (LH) and testicular testosterone (T) secretion. Both the following approaches can be applied for determination of abuse of these peptides: direct identification of intact compounds and their metabolites in athletes' biofluids and evaluation of LH and T concentrations as mediate markers of drug intake. To develop an effective concept for GnRH and its analogues determination in anti-doping control, in vitro and in vivo studies were conducted. A new method was applied to the evaluation of the slow-release profile of buserelin, goserelin, and leuprolide biodegradable microspheres after the intramuscular injection in male volunteers. Eight metabolites of 10 GnRH analogues were identified after incubation with human kidney microsomes, most of them were leuprolide degradation products. Obtained data were added into ultra-performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS) method for GnRH analogues determination. The detection time windows for administered peptides and their metabolites in urine samples were evaluated with 2 sample preparation techniques: dilute-and-shoot and solid-phase extraction. To support the second hypothesis, the measurement of LH and the main parameters of the steroid profile were performed in urine samples. Just 1 compound among those investigated resulted in the LH concentration dropping to non-physiological levels. Thus, for doping-control purposes, monitoring of hormone levels fluctuations could be applied only together with longitudinal passport steroid profile data.