Development and validation of a gas chromatography/mass spectrometry method for the assessment of genomic DNA methylation

A method for the determination of DNA global methylation, taken as the ratio (%) of 5‐methylcytosine (5mCyt) versus the sum of cytosine (Cyt) and 5mCyt, via gas chromatography/mass spectrometry (GC/MS), was developed and validated. DNA (2.5 µg) was hydrolyzed with aqueous formic acid 88%, spiked with cytosine‐2,4‐¹³C₂,¹⁵N₃ and 5‐methyl‐²H₃‐cytosine‐6‐²H₁ as internal standards, and derivatized with N‐methyl‐N‐(tert‐butyldimethylsilyl)trifluoroacetamide and 1% tert‐butyldimethylchlorosilane, in the presence of acetonitrile and pyridine. GC/MS, operating in single ion monitoring mode, separated and specifically detected all nucleobases as tert‐butyldimethylsilyl derivatives, without interferences, with the exception of guanosine. The method was linear throughout the range of clinical interest and had good sensitivity, with a limit of quantification of 3.2 pmol for Cyt and 0.056 pmol for 5mCyt, the latter corresponding to a methylation level of 0.41%. Intra‐ and inter‐day precision and accuracy were below 4.0% for both analytes and methylation. The matrix absolute effect, process efficiency and coefficient of variation ranged from 96.5 to 101.2%. The matrix relative effect was below 1%. The method was applied to the analysis of different human DNAs, including: nonmethylated DNA from PCR (methylation 0.00%), hypermethylated DNA prepared using M.SssI CpG methyltransferase (methylation 18.05%), DNA from peripheral blood leukocytes of healthy subjects (N = 6, median methylation 5.45%), DNA from bone marrow of leukemia patients (N = 5, 3.58%) and DNA from myeloma cell lines (N = 4, 2.74%). Copyright © 2009 John Wiley & Sons, Ltd.     

Optimization of global DNA methylation measurement by LC-MS/MS and its application in lung cancer patients

Global analyses of DNA methylation contribute important insights into biology and the wide-ranging role of DNA methylation. We describe the use of online solid-phase extraction and isotope-dilution liquid chromatography/tandem mass spectrometry (LC-MS/MS) for the simultaneous measurement of 5-methyl-2′-deoxycytidine (5-medC) and 2′-deoxycytidine (dC) in DNA. With the incorporation of isotope internal standards and online enrichment techniques, the detection limit of this method was estimated to be as low as 0.065 pg which enables human global DNA methylation detection using only picogram amounts of DNA. This method was applied to assess the optimal amounts of enzymes required for DNA digestion regarding an accurate global DNA methylation determination and completeness of digestion and to determine global methylation in human tumor adjacent lung tissue of 79 lung cancer patients. We further determined methylated (N7-methylguanine (N7-meG), O ⁶-methylguanine (O ⁶-meG), and N3-methyladenine (N3-meA)) and oxidized DNA lesions (8-oxo-7,8-dihydro-2′-deoxyguanosine (8-oxodG)) in lung cancer patients by LC-MS/MS. Optimization experiments revealed that dC was liberated from DNA much more readily than 5-medC by nuclease P1 and alkaline phosphatase (AP) in DNA, which could lead to an error in the global DNA methylation measurement following digestion with insufficient enzymes. Nuclease P1 showed more differential activity for 5-medC and dC than AP. Global DNA methylation levels in adenocarcinoma and squamous cell carcinoma patients were similar in the range of 3.16–4.01 %. Global DNA methylation levels were not affected by smoking and gender and were not correlated with N7-meG or 8-oxodG in lung cancer patients. Levels of O ⁶-meG and N3-meA were however found to be undetectable in all lung tissue samples.

Simultaneous quantification of methylated purines in DNA by isotope dilution LC-MS/MS coupled with automated solid-phase extraction

Since methylation at the N-7 and O⁶ positions of guanine and the N-3 position of adenine in DNA are the predominant reaction sites, N ⁷-methylguanine (N ⁷-MeG), O ⁶-methylguanine (O ⁶-MeG), and N ³-methyladenine (N ³-MeA) have been suggested as good biomarkers for assessing exposure to methylating agents. Here, we report the development of a sensitive and selective assay based on liquid chromatography–tandem mass spectrometry (LC-MS/MS) to simultaneously measure N ⁷-MeG, O ⁶-MeG, and N ³-MeA in DNA hydrolysates. With the use of isotope internal standards (¹⁵N₅-N ⁷-MeG, d ₃-O ⁶-MeG, and d ₃-N ³-MeA) and online solid-phase extraction, DNA hydrolysates can be directly analyzed within 12 min without prior sample purification. The limits of detection were 0.02, 0.002, and 0.01 ng/mL on-column (6.1, 0.6, and 3.4 fmol) for N ⁷-MeG, O ⁶-MeG, and N ³-MeA, respectively. Inter- and intraday imprecision (CV) were 3.6–9.6% and 2.7–13.6%, respectively. Mean recoveries were 96–109%. This method was then applied to quantitate the amounts of methylated purines in calf thymus DNA treated with methyl methanesulfonate (MMS). The levels of N ⁷-MeG, O ⁶-MeG, and N ³-MeA in calf thymus DNA increase with MMS concentration and incubation time. The ratio of relative yields of N ⁷-MeG, O ⁶-MeG, and N ³-MeA in MMS-treated DNA was found to be 1.00:0.0032:0.119, respectively. This LC-MS/MS assay provides the sensitivity and high throughput required to evaluate the extent of methylated lesions in DNA induced by methylating agents.     

Simultaneous detection of stable isotope‐labeled and unlabeled l‐tryptophan and of its main metabolites,l‐kynurenine,serotonin and quinolinic acid,by gas chromatography/negative ion chemical ionization mass spectrometry

A method for the detection of unlabeled and ¹⁵N₂‐labeled l ‐tryptophan (l ‐Trp), l ‐kynurenine (l ‐Kyn), serotonin (5‐HT) and quinolinic acid (QA) in human and rat plasma by GC/MS is described. Labeled and unlabeled versions of these four products were analyzed as their acyl substitution derivatives using pentafluoropropionic anhydride and 2,2,3,3,3‐pentafluoro‐1‐propanol. Products were then separated by GC and analyzed by selected ion monitoring using negative ion chemical ionization mass spectrometry. l ‐[¹³C₁₁, ¹⁵N₂]‐Trp, methyl‐serotonin and 3,5‐pyridinedicarboxylic acid were used as internal standards for this method. The coefficients of variation for inter‐assay repeatability were found to be approximately 5.2% for l ‐Trp and ¹⁵N₂‐Trp, 17.1% for l ‐Kyn, 16.9% for 5‐HT and 5.8% for QA (n = 2). We used this method to determine isotope enrichments in plasma l ‐Trp over the course of a continuous, intravenous infusion of l ‐[¹⁵N₂]Trp in pregnant rat in the fasting state. Plasma ¹⁵N₂‐Trp enrichment reached a plateau at 120 min. The free Trp appearance rate (Ra) into plasma was 49.5 ± 3.35 µmol/kg/h. The GC/MS method was applied to determine the enrichment of ¹⁵N‐labeled l ‐Trp, l ‐Kyn, 5‐HT and QA concurrently with the concentration of non‐labeled l ‐Trp, l ‐Kyn, 5‐HT and QA in plasma. This method may help improve our understanding on l ‐Trp metabolism in vivo in animals and humans and potentially reveal the relative contribution of the four pathways of l ‐Trp metabolism. Copyright © 2014 John Wiley & Sons, Ltd.     

Simultaneous determination of 8‐oxo‐2′‐deoxyguanosine and 8‐oxo‐2′‐deoxyadenosine in DNA using online column‐switching liquid chromatography/tandem mass spectrometry

Sensitive and reliable methods are required for the assessment of oxidative DNA damage, which can result from reactive oxygen species that are generated endogenously from cellular metabolism and inflammatory responses, or by exposure to exogenous agents. The development of a liquid chromatography/tandem mass spectrometry (LC/MS/MS) selected reaction monitoring (SRM) method is described, that utilises online column‐switching valve technology for the simultaneous determination of two DNA adduct biomarkers of oxidative stress, 8‐oxo‐7,8‐dihydro‐2′‐deoxyguanosine (8‐oxodG) and 8‐oxo‐7,8‐dihydro‐2′‐deoxyadenosine (8‐oxodA). To allow for the accurate quantitation of both adducts the corresponding [¹⁵N₅]‐labelled stable isotope internal standards were synthesised and added prior to enzymatic hydrolysis of the DNA samples to 2′‐deoxynucleosides. The method required between 10 and 40 µg of hydrolysed DNA on‐column for the analysis and the limit of detection for both 8‐oxodG and 8‐oxodA was 5 fmol. The analysis of calf thymus DNA treated in vitro with methylene blue (ranging from 5 to 200 µM) plus light showed a dose‐dependent increase in the levels of both 8‐oxodG and 8‐oxodA. The level of 8‐oxodG was on average 29.4‐fold higher than that of 8‐oxodA and an excellent linear correlation (r = 0.999) was observed between the two adducts. The influence of different DNA extraction procedures for 8‐oxodG and 8‐oxodA levels was assessed in DNA extracted from rat livers following dosing with carbon tetrachloride. The levels of 8‐oxodG and 8‐oxodA were on average 2.9 (p = 0.018) and 1.4 (p = 0.018) times higher, respectively, in DNA samples extracted using an anion‐exchange column procedure than in samples extracted using a chaotropic procedure, implying artefactual generation of the two adducts. In conclusion, the online column‐switching LC/MS/MS SRM method provides the advantages of increased sample throughput with reduced matrix effects and concomitant ionisation suppression, making the method ideally suited when used in conjunction with chaotropic DNA extraction for the determination of oxidative DNA damage. Copyright © 2008 John Wiley & Sons, Ltd.     

Detection of Cyclo‐N5− in THF Solution

Compelling evidence has been found for the formation and direct detection of the cyclopentazole anion (cyclo‐N₅^?) in solution. The anion was prepared from phenylpentazole in two steps: reduction by an alkali metal to form the phenylpentazole radical anion, followed by thermal dissociation to yield cyclo‐N₅^?. The reaction solution was analyzed by HPLC coupled with negative mode mass spectrometry. A signal with m/z 70 was eluted about 2.1 min after injection of the sample. Its identification as N₅ was supported by single and double labeling with ¹⁵N, which yielded signals at m/z=71 and 72, respectively, with identical retention times in the HPLC column. MS/MS analysis of the m/z=70 signal revealed a dissociation product with m/z=42, which can be assigned to N₃^?. To our knowledge this is the first preparation of cyclo‐N₅^? in the bulk. The compound is indefinitely stable at temperatures below ?40 °C, and has a half‐life of a few minutes at room temperature.     

Analysis of advanced glycation endproducts in dairy products by isotope dilution liquid chromatography–electrospray tandem mass spectrometry. The particular case of carboxymethyllysine

A fully validated multiple-transition recording isotope dilution liquid chromatography–electrospray tandem mass spectrometry (LC–MS/MS) method for the simultaneous quantitative determination of N^?-carboxymethyllysine (CML) and lysine in dairy products is described. Internal standards were [N-1′,2′-¹³C₂]CML and [1,2,3,4,5,6-¹³C₆-2,6-¹⁵N₂]lysine, and the method was validated by evaluating the selectivity, linearity, precision (repeatability and reproducibility) and trueness, using both powder and liquid products. For liquid dairy products, the repeatability and reproducibility was 2.79% and 11.0%, while 4.85% and 4.92% were determined for powder dairy products, respectively. The trueness of the method ranged from −9.6% to −3.6% for powder and from −0.99% to 6.8% for liquid dairy products. The limit of detection for CML was estimated to be 8 ng CML per mg protein while the limit of quantification was 27 ng CML per mg protein. The method encompasses a proteolytic cleavage mediated by enzymatic digestion to reach a complete release of the amino acids prior to a sample cleanup based on solid phase extraction, and followed by LC–MS/MS analysis of CML and lysine residues. To ensure a suitable performance of the enzymatic digestion, CML measurements were compared to values obtained with an acid hydrolysis-mediated proteolysis. Finally, the method was employed for the analysis of CML in various dairy products. The values compare well to the data available in the literature when similar methods were used, even if some discrepancies were observed upon comparison with the results obtained by other techniques such as enzyme-linked immunosorbent assay and GC–MS.     

超高效液相色谱-串联质谱法测定氧化损伤标志物8-羟基脱氧鸟苷

发展了一种超高效液相色谱-串联质谱法(UPLC-MS/MS)检测脱氧核糖核酸(DNA)分子中8-羟基脱氧鸟苷(8-OHdG)的方法。DNA分子在酶解过程中,脱氧鸟苷(dG)易被氧化形成8-OHdG,从而使得8-OHdG的检测结果不准确。通过加入甲磺酸去铁铵作为保护剂,有效地避免了酶解过程造成的dG氧化。酶解液通过超滤膜(截留相对分子质量为3 000的分子)处理,有效去除大量蛋白分子后,直接进行UPLC-MS/MS测定。采用外标法定量,在17.6～1 400fmol范围内,8-OHdG的峰面积与其物质的量具有良好的线性关系,相关系数为0.999 8。利用本方法测定了小牛胸腺DNA中8-OHdG的含量(用比值8-OHdG/106dG表示)为12.9±2.35,与前人报道的检测结果一致。本方法也可以应用于评价各种氧化因素引起的DNA氧化损伤。     

Direct quantification of 11‐nor‐Δ9‐tetrahydrocannabinol‐9‐carboxylic acid in urine by liquid chromatography/tandem mass spectrometry in relation to doping control analysis

An accurate and precise method for the quantification of 11‐nor‐Δ⁹‐tetrahydrocannabinol‐9‐carboxylic acid (THCA) in urine by liquid chromatography/tandem mass spectrometry (LC/MS/MS) for doping analysis purposes has been developed. The method involves the use of only 200 µL of urine and the use of D₉‐THCA as internal standard. No extraction procedure is used. The urine samples are hydrolysed using sodium hydroxide and diluted with a mixture of methanol/glacial acetic acid (1:1). Chromatographic separation is achieved using a C8 column with gradient elution. All MS and MS/MS parameters were optimised in both positive and negative electrospray ionisation modes. For the identification and the quantification of THCA three product ions are monitored in both ionisation modes. The method is linear over the studied range (5–40 ng/mL), with satisfactory intra‐and inter‐assay precision, and the relative standard deviations (RSDs) are lower than 15%. Good accuracy is achieved with bias less than 10% at all levels tested. No significant matrix effects are observed. The selectivity and specificity are satisfactory, and no interferences are detected. The LC/MS/MS method was applied for the analysis of 48 real urine samples previously analysed with a routine gas chromatography/mass spectrometry (GC/MS) method. A good correlation between the two methods was obtained (r² > 0.98) with a slope close to 1. Copyright © 2010 John Wiley & Sons, Ltd.     

Development and validation of HPLC‐MS/MS method for the determination of lixivaptan in mouse plasma and its application in a pharmacokinetic study

The aim of the present study was to develop a simple, sensitive and accurate liquid chromatography–electrospray ionization tandem mass spectrometry (ESI‐MS/MS) method for the determination of lixivaptan (LIX) in mouse plasma using vildagliptin as the internal standard (IS). A precipitation procedure was used for the extraction of LIX and vildagliptin from mouse plasma. Chromatographic separation of LIX was achieved using a C₁₈ analytical column (50 × 2.1 mm, 1.8 μm) at 25°C. The mobile phase comprised acetonitrile and ammonium formate (10 mm , pH 3.1; 40:60, v /v) pumped at a flow rate of 0.3 mL min⁻¹. A tandem mass spectrometer with an electrospray ionization source was used to perform the assay. Quantification of LIX at m/z 290 → 137 and IS at 154 → 97 was attained through multiple reaction monitoring. The investigated method was authenticated following the bio‐analytical method of validation guidelines of the US Food and Drug Administration. The developed method showed a good linearity over the concentration range from 5 to 500 ng mL⁻¹, and the calibration curve was linear (r = 0.9998). The mean recovery of LIX from mouse plasma was 99.2 ± 0.68%. All validation parameters for LIX were within the levels required for acceptance. The proposed method was effectively used for a pharmacokinetic study of LIX in mouse plasma.     

Analysis of urinary estrogens,their oxidized metabolites,and other endogenous steroids by benchtop orbitrap LCMS versus traditional quadrupole GCMS

Estrogens and other endogenous steroids are known risk markers for cancer. Gas chromatography (GC) with mass spectrometry (MS) has traditionally predominated the analysis of estrogens and other endogenous steroids, but liquid chromatography (LC) MS is increasingly favored. Direct comparisons of the two technologies have hitherto not been performed. Steroids were analyzed from 232 urine samples of 78 premenopausal women in a blinded fashion by benchtop orbitrap LCMS and single quadrupole GCMS. Sixteen steroidal estrogens including oxidized metabolites could be analyzed by LCMS. LCMS–GCMS Spearman rank correlations of the major estrogens E₁, E₂, E₃, 16α-OHE₁, and 2-OHE₁ were very high (r = 0.72–0.91), and absolute concentrations also agreed (<5% difference for E₁, E₂, E₃, 16α-OHE₁). LCMS allowed reinterrogation of the acquired data due to orbitrap technology, which permitted post-analysis quantitation of progesterone, cortisol, and cortisone (LCMS–GCMS Spearman rank correlations = 0.80–0.84; absolute difference, <7%; n = 137). GCMS allows the measurement of a wide range of steroids including non-polar analytes that escape the presented LCMS assay. In contrast, orbitrap-based LCMS can detect more estrogens, is faster, less costly, allows post-data acquisition reinterrogation of certain analytes that had not been targeted a priori, and requires much less urine.     

The glycosyl C1′—N9 bond of deoxyadenosine and deoxyguanosine: response to electrophilic attacks on the purinic nitrogen atoms

Self-consistent-field computations shed light on two relevant conformations of deoxyadenosine (dA) and deoxyguanosine (dG): one with a pseudoequatorial C_1′N₉ glycosyl bond and the other, a slightly more stable one, with its C_1′N₉ bond in a bisectional orientation. In dA, both the N₃ and N₇ nitrogens are plausible sites for electrophilic attack, but only N₇ is a plausible site in dG. The addition of H⁺, CH₃ ⁺, C₂H₅ ⁺ or tert-C₄H₉ ⁺ onto N₇ does not provoke notable structural modifications and leaves the base of dA and dG in an antiperiplanar (or nearly antiperiplanar) position with respect to the sugar C_1′O_4′ bond, but N₃ additions cause the base to adopt a synperiplanar or strongly chiral position. This produces strong interactions between the purine and deoxyribose moieties, whose relief could aid the eventual cleavage of the glycosyl bond of dA. Addition of a radical cation onto N₇ reduces the dissociation energy of the glycosyl bond by an estimated 8 kcal mol⁻¹ in dA and 4 kcal mol⁻¹ in dG – a bond weakening likely to concur to a depurination of DNA induced by radical cations. Received: 13 September 1999 / Accepted: 3 February 2000 / Published online: 21 June 2000     

A novel UPLC–MS–MS method for simultaneous determination of seven uremic retention toxins with cardiovascular relevance in chronic kidney disease patients

Chronic kidney disease (CKD) is a devastating illness characterized by accumulation of uremic retention solutes in the body. The objective of this study was to develop and validate a simple, rapid, and robust UPLC–MS–MS method for simultaneous determination, in serum, of seven organic acid uremic retention toxins, namely uric acid (UA), hippuric acid (HA), indoxylsulfate (IS), p-cresylglucuronide (pCG), p-cresylsulfate (pCS), indole-3-acetic acid (IAA), and 3-carboxy-4-methyl-5-propyl-2-furanpropionic acid (CMPF). Isotopically labeled internal standards (d₅-HA; 1,3-¹⁵N₂-UA, and d₅-IAA) were used to correct for variations in sample preparation and system performance. Separation on a C18 column was followed by negative electrospray ionization and tandem mass spectrometric detection. Accuracy was below the 15 % threshold. Within-day precision varied from 0.60 to 4.54 % and between-day precision was below 13.33 % for all compounds. The applicability of the method was evaluated by analyzing 78 serum samples originating both from healthy controls and from patients at different stages of CKD. These results were compared with those obtained by use of conventional HPLC–PDA–FLD methods. A good correlation was obtained between both methods for all compounds.     

Direct determination of melamine in dairy products by gas chromatography/mass spectrometry with coupled column separation

A coupled capillary column system was developed for the qualitative and quantitative determination of melamine with isotope internal standard in dairy products by gas chromatography/mass spectrometry (GC/MS) without derivatization. A 30 m of DB-5ms ((5%-phenyl)-methylpolysiloxane, 0.25 mm i.d., 0.25 μm df) coupled with a 1.5 m of Innowax (polyethylene glycol, 0.32 mm i.d., 0.25 μm df) by a quartz capillary column connector was introduced as separation column. Three advantages were discussed for the coupled system. The sample was fortified with a ring-labeled ¹³C₃¹⁵N₃-melamine as an isotope internal standard and extracted by 1% of trichloroacetic acid aqueous solution. 2.2% of lead acetate solution was then added to deposit protein in the sample matrix. After purification by cation exchange cartridge, the sample solution was directly injected and detected by GC/MS. A six-point calibration curve ranging from 0.05 to 2 mg kg⁻¹ of melamine in sample was used to establish instrument response. The recovery was 93.9-102% with relative standard deviation from 3.1 to 8.7% when isotope internal standard used. The calculated method detection limit was 0.01 mg kg⁻¹.     

Regioselective arylation of 2′-deoxyribonucleosides on amido or imino sites by copper(II)-mediated direct coupling with arylboronic acids

N¹-Aryl derivatives of 2′-deoxyguanosine (dG) were synthesized by copper(II)-mediated coupling of dG with arylboronic acids. Analogous aryl derivatives of 2′-deoxyinosine (dIn), 2′-deoxyuridine (dU), thymidine (T), 2′-deoxyadenosine (dA), and 2′-deoxycytidine (dC) were also conveniently synthesized by this method. Arylation took place preferentially on the amido functions in dG and dIn and the imino functions in dU or T. Remarkably, the nucleosides themselves served as internal ligands as well as reactants.     

Electrochemical Nucleic Acid Biosensors for the Detection of Interaction Between Peroxynitrite and DNA

We studied the reactivity of peroxynitrite and different nucleic acid molecules using DNA electrochemical biosensors. SIN‐1 (3‐morpholinosydnonimine) has been used for the simultaneous generation of NO?and superoxide, i.e., as a peroxynitrite (ONOO^?) donor. Double strand DNA (dsDNA), single strand DNA (ssDNA) and 15 guanine bases oligonucleotide (Oligo(dG)₁₅) were immobilized on a carbon paste electrode to generate the biosensor and DPV was selected as the electroanalytical technique. Results showed that electrochemical biosensors were very sensitive for detecting interaction between ONOO^? and DNA. A down/up effect was observed, i.e., at low ONOO^? concentrations the guanine oxidation signal decreased while at high ONOO^? concentrations the guanine oxidation current increased. Oligo(dG)₁₅ exhibited greater interaction at low ONOO^? concentrations than the other DNA molecules. The reactivity between ONOO^? and DNA was also evaluated in solution phase, showing the same down/up effect. Finally, the capacity of DNA to hybridize was prevented after interaction with ONOO^?.     

N2‐Substituted 2′‐Deoxyguanosine Triphosphate Derivatives as Selective Substrates for Human DNA Polymerase κ

N²‐Alkyl‐2′‐deoxyguanosine triphosphate (N²‐alkyl‐dGTP) derivatives with methyl, butyl, benzyl, or 4‐ethynylbenzyl substituents were prepared and tested as substrates for human DNA polymerases. N²‐Benzyl‐dGTP was equal to dGTP as a substrate for DNA polymerase κ (pol κ), but was a poor substrate for pols β, δ, η, ι, or ν. In vivo reactivity was evaluated through incubation of N²‐4‐ethynylbenzyl‐dG with wild‐type and pol κ deficient mouse embryonic fibroblasts. CuAAC reaction with 5(6)‐FAM‐azide demonstrated that only cells containing pol κ were able to incorporate N²‐4‐ethynylbenzyl‐dG into the nucleus. This is the first instance of a Y‐family‐polymerase‐specific dNTP, and this method could be used to probe the activity of pol κ in vivo.     

LC–APCI–MS–MS for the Determination of Celastrol in Human Whole Blood

A rapid, sensitive high-performance liquid chromatographic tandem mass spectrometric (HPLC–MS–MS) assay has been developed and validated for the quantitative determination of celastrol in human whole blood using hydrocortisone as an internal standard (I.S.). The celastrol and I.S. were extracted from human whole blood with ethyl acetate. The separation was performed by reversed-phase HPLC using an isocratic mobile phase consisting of 5 mmol L^?1 aqueous ammonium acetate containing 0.05% acetic acid/methanol (25:75, v/v) on a XDB-C₁₈ column (150 mm × 4.6 mm I.D., 5 μm). Detection was by negative atmospheric pressure chemical ionization (APCI) and ion trap tandem mass spectrometry in multiple reaction monitoring (MRM) mode with a transition of m/z 449.4 → 405.1 for celastrol, and 419.2 → 329.1 for I.S. The calibration curve was linear (r ² = 0.9967) in the concentration range of 1.0–200.0 ng mL^?1 in human whole blood with a limit of quantification of 1.0 ng mL^?1. Intra-day and inter-day relative standard deviations (RSDs) were less than 8.5 and 10.1%. The mean extraction recovery was 89.2% for celastrol and 92.6% for I.S. This assay can be used to determine trace celastrol in human whole blood.     

Determination of naltrexone and 6β-naltrexol in human blood: comparison of high-performance liquid chromatography with spectrophotometric and tandem-mass-spectrometric detection

We present data for a comparison of a liquid-chromatographic method coupled with tandem mass spectrometry (LC-MS/MS) and a high-performance liquid-chromatographic method with column switching and UV spectrophotometric detection. The two methods were developed for determination of naltrexone and 6β-naltrexol in blood serum or plasma aiming to be used for therapeutic drug monitoring to guide the treatment of patients with naltrexone. For the high-performance liquid chromatography (HPLC)/UV detection, online sample cleanup was conducted on Perfect Bond C₁₈ material with 2% (vol/vol) acetonitrile in deionized water. Drugs were separated on a C₁₈ column using 11.5% (vol/vol) acetonitrile and 0.4% (vol/vol) N,N,N,N-tetramethylethylenediamine within 20 min. LC-MS/MS used naltrexone-d ₃ and 6β-naltrexol-d ₄ as internal standards. After protein precipitation, the chromatographic separation was performed on a C₁₈ column by applying a methanol gradient (5–100%, vol/vol) with 0.1% formic acid over 9.5 min. The HPLC/UV method was found to be linear for concentrations ranging from 2 to 100 ng/ml, with a regression correlation coefficient of r ²?>?0.998 for naltrexone and 6β-naltrexol. The limit of quantification was 2 ng/ml for naltrexone and 6β-naltrexol. For the LC-MS/MS method the calibration curves were linear (r²?>?0.999) from 0.5 to 200 ng/ml for both substances, and the limit of quantification was 0.5 ng/ml. The concentrations measured by the two methods correlated significantly for both substances (r²?>?0.967; p?<?0.001). Both methods could be used for therapeutic drug monitoring. The HPLC/UV method was advantageous regarding automatization and costs, whereas LC-MS/MS was superior with regard to sensitivity.     

On‐line solid‐phase extraction coupled with liquid chromatography/electrospray ionization mass spectrometry for the determination of trace tributyltin and triphenyltin in water samples

On‐line solid‐phase extraction (SPE) for pre‐concentration and sample cleanup is one strategy to reduce matrix effects and to simultaneously improve detection sensitivity in liquid chromatography/mass spectrometry (LC/MS). This paper describes an on‐line SPE‐LC/MS method for the determination of tributyltin (TBT) and triphenyltin (TPhT) at trace levels in water samples. The direct coupling of an on‐line C₁₈ pre‐column to LC/MS was used to pre‐concentrate TBT and TPhT at trace levels from waters and to remove interfering matrix effects. Pre‐concentration was followed by separation of TBT and TPhT on a C₁₈ column using a mobile phase containing 0.1% (v/v) HCOOH/5 mM HCOONH₄ and methanol. While both electrospray ionization (ESI) and atmospheric pressure chemical ionization (APCI) can be interfaced with MS for the detection of TBT and TPhT, ESI‐MS was preferred for this application. The calibration curve for the targets was linear in the concentration range 0.1–30 µg L^?1. The detection limit (signal‐to‐noise (S/N) ratio = 3) was 0.02 µg L^?1 when 3.0 mL of sample was enriched on the C₁₈ pre‐column. The recoveries of TBT and TPhT in spiked waters were from 81.0 to 101.9%. The reproducibilities for the analysis of the standard mixture (10 µg L^?1) for TBT and TPhT were 13.1 and 5.0%, respectively. The developed method was an easy and fast way to analyze TBT and TPhT in water samples. Copyright © 2009 John Wiley & Sons, Ltd.