IntroductionAnabolic steroids are frequently misused for performance enhancement during sports competitions. One of the major bottlenecks in the confident analysis of steroids and their metabolites is the non-availability/cost of standard reference compounds.ObjectiveThe study objective was to identify the common metabolites of prohibited anabolic steroids that are produced in both fungi and human and thus can be synthesized in bulk using fungal cultures. Mesterolone is used as a case study.MethodsThe study was conducted in three steps; we first studied the fungal transformation of mesterolone. In the second step, these metabolites were used as references to detect in human urine after the oral use of mesterolone using LC-ESI-QqQ-MS/MS. In the third step, 12 fungal cultures were screened to evaluate their potential to produce reference markers.ResultsThis led to the detection of two metabolites, 6α-hydroxymesterolone (M1) and 7α-hydroxymesterolone (M2) that were found to be common in both, fungal cultures and human urine samples. Moreover, Rhizopus stolonifer and Beauveria bassiana can be considered as good candidates to produce M1 and M2 metabolites, respectively.ConclusionThis approach can be employed for the synthesis of marker compounds of other prohibited anabolic steroids thus can be detected efficiently during national and international sports competitions. |