超高效液相色谱-串联质谱法测定动物肌肉组织和鸡蛋中残留的11种甾体激素类药物

建立了采用超高效液相色谱-串联质谱(UPLC-MS/MS)同时测定猪、牛、羊和鸡肌肉组织及鸡蛋中睾酮、甲基睾酮、黄体酮、群勃龙、勃地龙、诺龙、美雄酮、司坦唑醇、丙酸诺龙、丙酸睾酮及苯丙酸诺龙等11种甾体激素多残留的分析方法。试样在碱性条件下用叔丁基甲醚提取,冷冻离心脱脂净化,以乙腈和甲酸水溶液为流动相,梯度洗脱,反相液相色谱分离。采用电喷雾离子化、多反应监测方式(MRM),对11种甾体激素同时进行定性定量测定。动物肌肉和鲜蛋中睾酮、甲基睾酮、勃地龙、美雄酮及司坦唑醇的检出限为0.3 μg/kg,群勃龙、诺龙、黄体酮、丙酸诺龙、丙酸睾酮及苯丙酸诺龙的检出限为0.4 μg/kg。在动物组织及鸡蛋中添加1,2及10 μg/kg 水平的药物回收试验中,睾酮、甲基睾酮、勃地龙、美雄酮及司坦唑醇的回收率均在62.3%～105%之间,相对标准偏差为0.5%～15%;群勃龙、诺龙、黄体酮、丙酸诺龙、丙酸睾酮及苯丙酸诺龙的回收率大于50.0%,相对标准偏差小于16%。11种甾体激素在1～100 μg/L范围内,线性关系良好,相关系数都大于0.99。该方法的样品前处理简单、快速,测定灵敏、准确,选择性好,可满足动物源食品中甾体激素类药物多残留的同时测定。     

Partial filling micellar electrokinetic chromatography analysis of androgens and testosterone derivatives using two sequential pseudostationary phases

Separation of anabolic and androgenic steroids by micellar electrokinetic chromatography (MEKC) has been little studied. Simultaneous separation of the endogenous alpha-epimers testosterone and epitestosterone has not been achieved with any electroseparation technique. Here, a partial filling micellar electrokinetic chromatographic (PF-MEKC) method is described for the analysis of three endogenous steroid hormones (androstenedione, testosterone, epitestosterone) and two synthetic anabolic steroids (fluoxymesterone, methyltestosterone). The resolution efficiency of single-isomer sulphated gamma-cyclodextrins and the surfactants sodium dodecyl sulphate and sodium taurocholate was exploited. The method is based on the sequential introduction of short plugs of two different pseudostationary phases into the capillary. The separation was completed in less than 10 min. The method can be used in quantitative analysis. Linear correlation was obtained between concentration and peak area of 0.996 or better. The repeatability (RSD) of the compound peak areas ranged from 3.6% (methyltestosterone) to 6.2% (androstenedione). Limits of detection were between 73 microg/L (testosterone) and 160 microg/L (fluoxymesterone). As a demonstration of the method, androstenedione, testosterone and epitestosterone were determined in a spiked urine sample.     

Separation by capillary zone electrophoresis of the active anthraquinone components of the Chinese herbPolygonum multiflorum Thunb

Summary An optimization strategy was applied to explore the capability of hybrid micellar eluents of sodium dodecyl sulphate (SDS), using acetonitrile or pentanol as modifiers, to resolve mixtures of eleven steroids showing a wide range of hydrophobicity (clostebol acetate, dehydrotestosterone, dydrogesterone, medroxyprogesterone, medroxyprogesterone acetate, methandienone, methyltestosterone, progesterone, testosterone, testosterone enanthate and testosterone propionate). The accurate prediction of the retention behaviour of the steroids, with relative errors in the 0.8–1.7% and 0.4–2.9% ranges for SDS-acetonitrile and SDS-pentanol eluents, respectively, demonstrated the reliability of the methodology. Acetonitrile and pentanol had a complementary effect in these analyses. The elution strength of acetonitrile was weaker, but allowed higher efficiencies. A 0.094 M SDS-16% acetonitrile eluent separated seven steroids (dehydrotestosterone, dydrogesterone, medroxyprogesterone, medroxyprogesterone acetate, methandienone, methyltestosterone and testosterone) in 27 min, while the most hydrophobic steroids were strongly retained. In contrast, a 0.125 M SDS-5.8% pentanol eluent permitted the elution of a mixture of eight steroids (dehydrotestosterone, dydrogesterone, medroxyprogesterone acetate, methandienone, methyltestosterone, progesterone, testosterone enanthate and testosterone propionate) of diverse hydrophobicity in 14 min. With this eluent, however, the peaks of dehydrotestosterone-medroxyprogesterone and methandienone-testosterone were highly overlapping.     

高效液相色谱法同时测定牛肉组织中6种类固醇类激素类药物

建立了高效液相色谱法同时测定牛肉组织中勃地龙、诺龙、美雄酮、甲基睾酮、丙酸睾酮和丙酸诺龙的分析方法.试样经乙腈提取,冷冻离心脱脂净化,以甲醇-水为流动相,梯度洗脱,流速为1.0 mL/min.该方法的检出限(LOD)为0.0051～0.0086 mg/kg,定量限(LOQ)为0.0220～0.0287 mg/kg,在0...     

Ionic Liquid-Based Submerged Single Drop Microextraction: a New Method for the Determination of Aromatic Amines in Environmental Water Samples

A rapid and sensitive liquid chromatography–electrospray tandem mass spectrometry method, combined with solid-phase disk extraction cleanup, was developed and applied to the analysis of fifteen androgens in waste water. Compounds included androstenedione, androstanolone, boldenone, clostebol, danazol, 6-dehydronandrolone acetate, fluoxymesterone, methyltestosterone, nandrolone, nandrolone propionate, testosterone, testosterone acetate, testosterone propionate, trenbolone and trenbolone acetate, respectively. The overall method recoveries ranged from 78.0 to 107.7% and the limits of detection for the fifteen analytes determined in influent samples were between 0.5 and 4 ng L^?1. The analysis of residual androgens was carried out in waste water obtained from the Beijing area and five analytes (androstenedione, fluoxymesterone, methyltestosterone, testosterone and nandrolone) could be detected in levels ranging from 1.6–3.5, 7.6–66.7, 4.1–7.0, 1.2–4.3 and 1.7 ng L^?1, respectively.     

Quantification of testosterone and epitestosterone in biological samples by capillary electrophoresis with immunoaffinity extraction

Testosterone is one of the most common doping drugs abused by athletes. Therefore, it is necessary to develop a sensitive and simple method to monitor testosterone and its epimer epitestosterone. An off-line immunoaffinity extraction followed by capillary electrophoresis for simultaneous determination of testosterone and epitestosterone has been described in this paper. Anti-epitestosterone monoclonal antibody which is specific to both testosterone and epitestosterone had been prepared and immobilized on a Sepharose 4B stationary phase. The immunoaffinity column was used for sample cleanup, extraction and preconcentration. After elution and reconstitution, testosterone and epitestosterone in the sample were separated and quantified by micellar electrokinetic chromatography(MEKC) using the borate buffer (200 mM borate, pH 8.7) containing 40 mM sodium cholate as a chiral selector. The immunoaffinity column was evaluated in different parameters such as the retention mechanism, selectivity, binding capacity, elution protocol, and reusability. The separation of these two compounds by MEKC was also optimized. Limit of detection for testosterone and epitestosterone were 5 and 23 ng mL⁻¹, respectively. It was satisfactory to apply this method to analyze testosterone and epitestosterone in spiked urine sample with the recoveries from 78% to 109%.     

A novel protocol for molecularly imprinted polymer filaments online coupled to GC–MS for the determination of androgenic steroids in urine

An online system that can perform dynamic microextraction, on‐coating derivatization and desorption, and subsequent GC–MS analysis with a large‐volume injection was developed. A derivatization cell as the conjunction of the online system was developed for the online extraction and derivatization. To evaluate the feasibility of the online system, methyltestosterone molecularly imprinted polymer filaments (MIPFs) were prepared for the selective online extraction of five androgenic steroids, namely, methyltestosterone, testosterone, epitestosterone, nandrolone, and metandienone. Under the optimized conditions, the detection limits of testosterone and epitestosterone were 0.09 and 0.12 μg/L, respectively, which were under the minimum required performance limits between 2 and 10 μg/L from the World Anti‐Doping Agency. The detection limits of the other three androgenic steroids were varied from 0.04 to 0.18 μg/L. Finally, the MIPFs–GC–MS method was applied for the determination of androgenic steroids in urine, and satisfactory recovery (78.0–96.9%) and reproducibility (3.2–8.9%) were obtained. The proposed online coupling system offers an attractive alternative for hyphenation to GC instruments and could also be extended to other adsorptive materials.     

Analysis of anabolic steroids by partial filling micellar electrokinetic capillary chromatography and electrospray mass spectrometry

A partial filling micellar electrokinetic capillary chromatography (PF-MEKC) separation of six anabolic androgenic steroids (androstenedione, metandienone, fluoxymesterone, methyltestosterone, 17-epimetandienone and testosterone) is introduced. The method utilises a mixed micellar solution consisting of sodium dodecyl sulphate (SDS) and sodium taurocholate. The analytes are detected with a photodiode array detector at 247 nm wavelength. Methyltestosterone is used as internal standard. The detection limits were 39 microg/L for androstenedione, 40 microg/L for testosterone, 45 microg/L for fluoxymesterone, 45-90 microg/L for 17-epimetandienone, 59 microg/L for methyltestosterone and 90 microg/L for metandienone. Linear correlation between concentration (0.1-5.0 mg/L) and detector response was obtained with r2 of 0.994 for fluoxymesterone, 0.998 for 17-epimetandienone and 0.999 for androstenedione, metandienone and testosterone. In addition, ionisation of the investigated compounds in electrospray mass spectrometry (ESI-MS) was studied in positive ion mode. The most intense signal (100%) was the protonated molecular ion [M + H]+, except for 17-epimetandienone, which gave its strongest signal at m/z corresponding to [M - H2O + H]+. Finally, separation and identification of fluoxymesterone, androstenedione and testosterone by PF-MEKC-ESI-MS is described. This is the first use of PF-MEKC and PF-MEKC-ESI-MS assays for anabolic androgenic steroids.     

免疫亲和色谱特异性剔除中药方剂四逆散中的柚皮苷

为了获得剔除柚皮苷(naringin)的中药方剂四逆散样品以供其药理活性探讨时使用,制备了抗柚皮苷抗体的免疫亲和色谱柱,用于特异性地剔除四逆散中的柚皮苷。首先合成了柚皮苷的完全抗原柚皮苷与牛血清白蛋白的结合物naringin-BSA,并用naringin-BSA对新西兰兔进行免疫获得抗血清,再将其纯化后与经CNBr活化的Sepharose 4B凝胶共价偶联制成免疫亲和色谱柱。将四逆散提取物样品溶液上样该色谱柱,洗脱,制得特异性剔除了柚皮苷的四逆散样品。由检测结果可知,naringin-BSA被成功合成。将其用于免疫新西兰兔,获得的抗血清的效价经酶联免疫吸附法（ELISA）测定达到1∶30000,抗体IgG的纯度达94%,交叉反应率低。在IgG与Sepharose 4B合成的IgG-Sepharose免疫亲和色谱柱中,IgG的偶联率为87%。用该免疫亲和色谱柱处理四逆散后,其中所含的柚皮苷几乎完全被剔除。结果证明,利用抗柚皮苷免疫亲和色谱,能特异性地剔除四逆散或其他样品中的柚皮苷成分。     

LC-MS/MS fast analysis of androgenic steroids in urine

The liquid chromatography-tandem mass spectrometry method (LC-MS/MS) was developed and validated to detect androgenic steroids: trenbolone, nortestosterone, boldenone, methylboldenone, testosterone, methyltestosterone, 17β-1-testosterone and their metabolites in bovine urine. Sample preparation before LC-MS/MS analysis involved an enzymatic hydrolysis with glucuronidase AS-HP, isolation of free hormones from urine on C(18) SPE column and purification of the extract using liquid-liquid extraction with n-pentane and SPE NH(2) column. For the chromatographic separation of steroids, the Poroshell 120-EC C18 column (150?×?2.1 mm, 2.7 μm) was used. Mass spectrometric measurement was achieved using the API 4000 triple quadrupole (QqQ) instrument with a TurboIon-Spray source operating in positive electrospray ionization mode. The procedure was validated according to the Decision 2002/657/EC. Recovery ranged from 76.5% to 118.9% for all examined compounds. The repeatability was below 20% and reproducibility did not exceed the 25%. The linearity was good for all analytes in the whole range of tested concentrations, as proved by the correlation coefficients greater than 0.99. The decision limit (CCα) ranged from 0.10 to 0.17 μg L(-1) for all analytes, whereas the detection capability (CCβ) ranged from 0.17 to 0.29 μg L(-1). The application of an innovative Poroshell column allowed for very good chromatographic separation of steroids with a much shorter time of analysis.     

微囊藻毒素-LR免疫亲和层析柱的研制和应用

用CNBr-activated Sepharose4B和微囊藻毒素-LR的单克隆抗体制备了免疫亲和层析柱,测得抗体偶联率在75.7%~94.1%之间。制得的免疫亲和层析柱最大柱容量在76~95ng之间,柱空白为0,回收率在90.8%~105.1%之间。柱子再生重复使用6次后,回收率不低于75%。建立了免疫亲和层析柱-高效液相色谱测定水样中的微囊藻毒素-LR的方法。该法检出限为5ng/L;线性定量范围为10~500ng/L。实验结果显示,免疫亲和层析柱特异性好,一次净化能除去绝大部分干扰物,净化效果明显优于现有的固相萃取柱。     

Immunoaffinity chromatographic isolation of prostate-specific antigen from seminal plasma for capillary electrophoresis analysis of its isoforms

Prostate-specific antigen (PSA) concentration in serum has been the biomarker employed for prostate cancer diagnosis in the last two decades. However, new more specific biomarkers allowing a better differentiation of cancer from non-malignant prostate diseases are necessary. Glycosylation of PSA gives rise to different forms of the protein which can be separated into several isoforms by analytical techniques, such as CE. Because PSA glycosylation is influenced by pathological conditions, the CE pattern of PSA isoforms could be different in prostate cancer than in non-malignant prostate diseases. To study this CE pattern of PSA, prior purification of the protein from the biological fluid is mandatory. In this study an immunoaffinity chromatography method which allows PSA purification without altering the CE pattern is developed. An in-house prepared column produced with commercial anti-PSA antibodies is employed. The use of 1 M propionic acid as elution agent provides higher than 40% recovery of high purity PSA. CE analysis of PSA immunopurified from seminal plasma of a healthy individual shows the same 8 peaks as the commercially available PSA standard. Sample preparation only requires dilution with phosphate buffered saline prior to immunoaffinity purification. High repeatability for the sample preparation step was achieved (RSD% for percentage of corrected peak area in the range 0.6–5.3 for CE analysis of three independently purified seminal plasma aliquots compared to range 0.8–4.9 for a given aliquot analyzed three times by CE). IAC of five microliters seminal plasma provided enough PSA to achieve signal/noise ratio larger than 5 for the smallest CE isoforms.     

Detection of testosterone,nandrolone and precursors in horse hair

Growing interest among several horse-breeder associations has initiated the development of a screening procedure to test for anabolic agents in hair, which has the advantage over blood and urine specimens of allowing long-term detection. An analytical method was established to monitor in tails or manes several anabolic substances available as veterinary medicines or as so-called nutritional supplements (clenbuterol, different esters or prohormones of nandrolone and testosterone). The analytical procedure to detect steroids in hair samples consists of the following steps: decontamination of the hair strand or segment with methanol/water (1:1), milling, extraction of the hair material in an ultrasonic bath using methanol, purification by liquid–liquid extraction (n-pentane/methanol, 25:1) and HPLC cleanup, derivatisation of the relevant LC fractions with MSTFA, and measurement using GC-MS/MS technique. The first objective of our study was the detection of exogenous nandrolone (nortestosterone, NT) in the horse hair; therefore nandrolone-associated compounds [nandrolone dodecanoate administered intramuscularly (i.m.) and a mixture of 4-estrenediol and 4-estrenedione, transdermal] were administered to four geldings. The highest concentrations of NT following i.m. treatment were measured after 10 days in a 2-cm hair segment (up to 18 pg/mg); NT was detectable for up to 120 days and in some cases up to 330 days in tail hair (limit of detection 0.3 pg/mg). Following transdermal application, nandrolone as well as the administered prohormones were identified in tail and mane until the latest sampling at 3 months. Furthermore, untreated stallions (128) were investigated to estimate the range of endogenous levels of NT and testosterone (T) in hair. Maximum values of 3 pg/mg (NT) and 1 pg/mg (T) were quantified originating from endogenous formation in the male horse. Additionally, a possible relationship between steroid concentrations in hair specimens and the age of stallions was appraised. NT and T were not detected in hair samples of control geldings. Following nandrolone treatment of geldings, highest values in hair exceeded the endogenous amount detected in untreated stallions. Therefore comparison of concentrations measured in control samples with the estimated endogenous levels could give a clue to exogenous application in cases of abnormally high amounts of NT or T. The possibility of the evaluation of threshold values is discussed as a means to verify an exogenous administration of NT and T in hair samples. Furthermore, the detection of a synthetic substance in hair, e. g. the parent steroid ester by itself, would be unequivocal proof of an exogenous origin of NT or T and the previous medication of the stallion.     

Multi-immunoaffinity chromatography: a simple and highly selective clean-up method for multi-anabolic residue analysis of meat

A method for the detection of nortestosterone (NT) in bovine muscle at levels below 1 microgram/kg is described, based on enzymatic digestion of the sample, clean-up by immunoaffinity chromatography after defatting and detection by gas chromatography-mass spectrometry (selected-ion monitoring). The immunoaffinity matrix was prepared after combining the isolated immunoglobulin G fractions from a rabbit antiserum raised against NT and methyltestosterone (MT). Its capacity per millilitre of gel was approximately 10 ng for each of the two steroids. Results for samples containing 0.1 microgram/kg NT and above are described. It is concluded that for multi-residue analysis of samples of muscle at levels as low as 0.1 microgram/kg, multi-immunoaffinity chromatography is a very suitable method of sample clean-up. For purposes of quantification the trideuterated internal standard [16,16,17 alpha-2H3] nortestosterone was synthesized.     

Immunoaffinity extraction of testosterone by antibody immobilized monolithic capillary with on-line laser-induced fluorescence detection

An immunoaffinity capillary column has been made with poly (2-vinyl-4, 4-dimethylazlactone-co-2-hydroxyethyl methacrylate-co-ethylene dimethacrylate) (VDA-co-HEMA-co-EDMA) monolith as a support for the immobilized antibody. The monolith is prepared by UV-initiated in situ polymerization, followed by immobilizing anti-testosterone polyclonal antibody through the rapid reaction with VDA. Fluorescence labeled testosterone at C₃ is designed as a tracer to estimate the extraction ability of this immunoaffinity column, and to optimize the immunoextraction process, such as washing, eluting, incubation and injection. The performance in a more realistic application is then demonstrated successfully for the rapid extraction of testosterone (T) by competitive immunoassay and on-line laser-induced fluorescence (LIF) detection. This immunoaffinity monolith is easily prepared, with high mechanical strength and low flow resistance. It is a satisfactory material as an immunoextractor to detect small molecular compounds specifically and rapidly with high sensitivity (sub ng/mL level).     

超高效液相色谱-串联质谱法同时测定鱼制品中残留的7种性激素

以电喷雾离子源(ESI)为电离源,在正离子采集模式下建立了鱼制品中7种性激素（甲基炔诺酮、甲基睾酮、丙酸睾酮、醋酸甲羟孕酮、醋酸甲地孕酮、醋酸氯地孕酮、诺龙）的超高效液相色谱-质谱/质谱(UPLC-MS/MS)检测方法。样品被酶解后用甲醇提取,提取液经氯化锌(ZnCl2)去脂、LC-C18和LC-NH2固相萃取柱净化、Waters ACQUITYTM UPLC BEH-C18色谱柱(100 mm×2.1 mm, 1.7 μm)分离,在多反应监测模式下进行UPLC-MS/MS分析。7种性激素的方法检出限(S/N=3)为0.08～0.17 μg/kg,定量限(S/N=10)为0.24～0.58 μg/kg。考察了内标法和基质匹配外标法对7种性激素进行定量的回收率与精密度: 添加水平为1, 4 μg/kg时,以内标法定量,7种性激素的平均回收率为76%～118%,相对标准偏差（RSD）为5.0%～11.3%;以基质匹配外标法定量,7种性激素的平均回收率为66%～94%,RSD为4.5%～10.7%。该结果表明两种方法均能够满足鱼制品中7种性激素的多残留检测要求。应用建立的方法对市售脱脂大黄鱼及烤鱼片进行检测,未发现7种目标违禁性激素。     

Screening for testosterone, methyltestosterone, 19-nortestosterone residues and their metabolites in bovine urine with enzyme-linked immunosorbent assay (ELISA)

This work reports on the development of rapid enzyme-linked immunosorbent assay for testosterone, methyltestosterone, 19-nortestosterone and their metabolites in real samples of bovine urine. The assays were based on the competition between an immobilised testosterone-BSA conjugate and the analyte for corresponding antibodies, followed by the use of secondary anti-species (α-IgG-HRP) to determine the degree of competition. Urine samples were analysed after 10-fold dilution with the buffer, omitting extraction and hydrolysis. The limits of detection calculated for the original sample were ca. 74, 266 and 131 pg ml⁻¹ (ppt) for testosterone, methyltestosterone and 19-nortestosterone, respectively. In particular, testosterone and methyltestosterone assays offer the advantage to pick up both parent compounds and their major metabolites due to the high cross-reactivity pattern with corresponding antibody used in each assay. The concentration in bovine urine detected by developed method does indicate 19-nortestosterone administration to heifers. The developed assays were applied to urine samples of heifers treated with above androgens.     

On-line immunoaffinity capillary electrophoresis based on magnetic beads for the determination of alpha-1 acid glycoprotein isoforms profile to facilitate its use as biomarker

An immunoaffinity purification method coupled on-line to capillary electrophoresis (IACE) which allows the determination of several isoforms of intact alpha-1 acid glycoprotein (AGP) in serum samples using UV detection is developed. The immunoaffinity step is based on anti-AGP antibodies (Abs) covalently bound to magnetic beads (MBs) which are captured at the inlet end of the capillary using permanent magnets placed inside the cartridge of the CE instrument. The on-line method includes injection of the MBs with the Ab bound (MBs–Ab) and their trapping by the magnets at the entrance of the separation column, injection of serum sample and capture of AGP by the Abs, release of captured AGP, focus of desorbed protein, separation of AGP isoforms, and removal of MBs–Ab. The optimization of the different factors involved in each step allowed purification, separation and detection of AGP isoforms in a single electrophoretic analysis in about 1 h. Automation, sample and reagents consumption as well as analysis time was improved compared to off-line alternatives which use purification of AGP in an immunochromatographic column and CE separation of AGP isoforms in two independent operations. The analytical methodology developed allows the separation of 10 AGP isoforms in serum samples from a healthy donor. For a serum sample, precision (expressed as relative standard deviation) in terms of corrected area percentage was better than 0.5% for each peak accounting for more than 10% of total AGP and it was better than 4.0% in terms of relative migration time of each AGP isoform considering the whole process.     

Fluorescence-labelled antigen-binding fragments (Fab) from monoclonal antibody 5F12 detect human erythropoietin in immunoaffinity capillary electrophoresis

A faster and more convenient method is required for the detection of recombinant erythropoietin (Epo) in human body fluids. In the present study we wanted to elucidate the principal suitability of immunoaffinity capillary electrophoresis (CE) in this respect. CE offers itself as a high-speed, high-throughput technique provided a suitable affinity reagent is available. We chose monoclonal antibody 5F12 from Amgen which binds to a conformation-independent epitope in the N-terminal region of the human Epo protein. For CE with laser-induced fluorescence detection it was necessary to produce fluorescently labelled antibody with one single antigen binding site. Monomeric antigen-binding fragments (Fab) were obtained by site-selective cleavage of the pure antibody and labelled with the fluorescent dye, Alexa Fluor 488. The mixture of labelled isomers was partially resolved by ion exchange HPLC and isoelectric focusing. The fluorescent Fab could be used to detect erythropoietin by immunoaffinity capillary isoelectric focusing and zone capillary electrophoresis via its antigen complex.Abbreviations BGE background electrolyte - CE capillary electrophoresis - Epo Erythropoietin - Fab antigen-binding fragment - FITC fluorescein isothiocyanate - IEF isoelectric focusing - mAb monoclonal antibody - PBS phosphate-buffered saline - rHuEpo recombinant human erythropoietin - scFv (recombinant) single chain variable fragment - SDS-PAGE denaturing polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate - ECL enzyme-coupled chemoluminescence - v_H variable domain - c_H1–3 constant domains of an antibody's heavy chain     

Mass spectrometry of steroid glucuronide conjugates. II-Electron impact fragmentation of 3-keto-4-en- and 3-keto-5alpha-steroid-17-O-beta glucuronides and 5alpha-steroid-3alpha,17beta-diol 3- and 17-glucuronides

The steroid glucuronide conjugates of 16,16,17-d(3)-testosterone, epitestosterone, nandrolone (19-nortestosterone), 16,16,17-d(3)-nortestosterone, methyltestosterone, metenolone, mesterolone, 5alpha-androstane-3alpha,17beta-diol, 2,2,3,4,4-d(5)-5alpha-androstane-3alpha,17beta-diol, 19-nor-5alpha-androstane-3alpha,17beta-diol, 2,2,4,4-d(4)-19-nor-5alpha-androstane-3alpha,17beta-diol and 1alpha-methyl-5alpha-androstane-3alpha/beta,17beta-diol were synthesized by means of the Koenigs-Knorr reaction. Selective 3- or 17-O-conjugation of bis-hydroxylated steroids was performed either by glucuronidation of the corresponding steroid ketole and subsequent reduction of the keto group or via a four-step synthesis starting from a mono-hydroxylated steroid including (a) protection of the hydroxy group, (b) reduction of the keto group, (c) conjugation reaction and (d) removal of protecting groups. The mass spectra and fragmentation patterns of all glucuronide conjugates were compared with those of the commercially available testosterone glucuronide and their characterization was performed by gas chromatography/mass spectrometry and nuclear magnetic resonance spectroscopy. For mass spectrometry the substances were derivatized to methyl esters followed by trimethylsilylation of hydroxy groups and to pertrimethylsilylated products using labelled and unlabelled trimethylsilylating agents. The resulting electron ionization mass spectra obtained by GC/MS quadrupole and ion trap instruments, full scan and selected reaction monitoring experiments are discussed, common and individual fragment ions are described and their origins are proposed.