Racing Laboratory, The Hong Kong Jockey Club, Sha Tin Racecourse, Sha Tin, N. T., Hong Kong, China.
Racing Laboratory, The Hong Kong Jockey Club, Sha Tin Racecourse, Sha Tin, N. T., Hong Kong, China.
J Chromatogr A. 2018 Apr 20;1546:106-118. doi: 10.1016/j.chroma.2018.02.041. Epub 2018 Feb 21.
Methylstenbolone (2,17α-dimethyl-5α-androst-1-en-17β-ol-3-one) is a synthetic anabolic and androgenic steroid (AAS) sold as an oral 'nutritional supplement' under the brand names 'Ultradrol', 'M-Sten' and 'Methyl-Sten'. Like other AASs, methylstenbolone is a prohibited substance in both human and equine sports. This paper describes the studies of the in vitro and in vivo metabolism of methylstenbolone in horses using LC/HRMS, GC/MS and GC/MS/MS. Phase I in vitro metabolic study of methylstenbolone was performed using homogenised horse liver. Hydroxylation was the only biotransformation observed. Six in vitro metabolites were detected including four mono-hydroxylated metabolites, namely 16α/β-hydroxymethylstenbolone (M1a, M1b), 20-hydroxymethylstenbolone (M1c), 6-hydroxymethylstenbolone (M1d), and two dihydroxylated methylstenbolone metabolites (M2c-M2d). An in vivo experiment was carried out using two retired thoroughbred geldings. Each horse was administered with 100 mg methylstenbolone supplement by stomach tubing daily for three consecutive days. Methylstenbolone and 14 metabolites were detected in the post-administration urine samples. The proposed in vivo metabolites included 16α/β-hydroxymethylstenbolone (M1a, M1b), 20-hydroxymethylstenbolone (M1c), two dihydroxylated methylstenbolone (M2a, M2b), 17-epi-methylstenbolone (M3), methasterone (M4), 2,17-dimethylandrostane-16,17-diol-3-one (M5), dihydroxylated and reduced methylstenbolone (M6), 2α,17α-dimethylandrostane-3α,17β-diol (M7), 2,17-dimethylandrostane-3,16,17-triol (M8a-M8c) and 2,17-dimethylandrostane-2,3,16,17-tetraol (M9), formed from hydroxylation, reduction and epimerisation. Methylstenbolone and ten of its metabolites could be detected in post-administration plasma samples. The highest concentration of methylstenbolone detected in urine was about 10-36 ng/mL at 3-4 h after the last administration, while the maximum concentration in plasma was about 0.4-0.7 ng/mL at 1 h after the last administration. For controlling the misuse of methylstenbolone, M8c and M9 gave the longest detection time in urine, while M4, M5 and M6 were the longest detecting analytes in plasma. They could be detected for up to 5 and 4.5 days respectively in urine and plasma. Apart from 16α/β-hydroxymethylstenbolone (M1a, M1b), the methylstenbolone metabolites reported herein have never been reported before.
17α-甲基-5α-雄甾-1-烯-17β-醇-3-酮(2,17α-二甲基-5α-雄甾-1-烯-17β-醇-3-酮)是一种合成的同化雄性甾体激素(AAS),作为一种口服“营养补充剂”,以“Ultradrol”、“M-Sten”和“Methyl-Sten”的品牌出售。像其他 AAS 一样,甲基斯坦醇在人类和马类运动中都是被禁止的物质。本文描述了使用 LC/HRMS、GC/MS 和 GC/MS/MS 研究马体内甲基斯坦醇的体外和体内代谢。使用马的匀浆肝进行了甲基斯坦醇的体外代谢Ⅰ期研究。观察到的唯一生物转化是羟化。检测到六种体外代谢物,包括四种单羟化代谢物,即 16α/β-羟甲基斯坦醇(M1a、M1b)、20-羟甲基斯坦醇(M1c)、6-羟甲基斯坦醇(M1d)和两种二羟化甲基斯坦醇代谢物(M2c-M2d)。使用两匹退役的纯血马进行了体内实验。每匹马连续三天每天通过胃管给予 100mg 甲基斯坦醇补充剂。在给药后的尿液样本中检测到甲基斯坦醇和 14 种代谢物。提出的体内代谢物包括 16α/β-羟甲基斯坦醇(M1a、M1b)、20-羟甲基斯坦醇(M1c)、两种二羟化甲基斯坦醇(M2a、M2b)、17-表甲基斯坦醇(M3)、美雄酮(M4)、2,17-二甲基-16,17-二醇-3-酮(M5)、二羟化和还原甲基斯坦醇(M6)、2α,17α-二甲基-16-雄烷-3α,17β-二醇(M7)、2,17-二甲基-16-雄烷-3,16,17-三醇(M8a-M8c)和 2,17-二甲基-16-雄烷-2,3,16,17-四醇(M9),这些代谢物是通过羟化、还原和差向异构化形成的。给药后尿液和血浆样本中均可检测到甲基斯坦醇及其十种代谢物。给药后 3-4 小时,尿液中检测到的甲基斯坦醇最高浓度约为 10-36ng/ml,最后一次给药后 1 小时,血浆中最高浓度约为 0.4-0.7ng/ml。为了控制甲基斯坦醇的滥用,M8c 和 M9 在尿液中的检测时间最长,而 M4、M5 和 M6 在血浆中的检测时间最长。它们在尿液中的最长检测时间分别可达 5 天和 4.5 天,在血浆中的最长检测时间分别可达 4.5 天和 4 天。除了 16α/β-羟甲基斯坦醇(M1a、M1b)之外,本文报道的甲基斯坦醇代谢物以前从未报道过。
