Determination of polar organophosphorus pesticides in aqueous samples by direct injection using liquid chromatography-tandem mass spectrometry.

It was demonstrated that four out of six of the very polar organophosphorus pesticides (OPs), i.e. acephate, methamidophos, monocrotophos, omethoate, oxydemeton-methyl and vamidothion, could not be extracted from water using commonly available SPE cartridges. In addition, GC analysis on all six compounds was found to be troublesome due to their polar and thermolabile character. This initiated the development of an alternative highly sensitive and selective method for the determination of the above mentioned very polar OPs in water, based on LC-MS. Large volume (1 ml) water samples were directly injected onto an RP18 HPLC column with a polar endcapping. The latter was essential for obtaining retention and maintaining column performance under 100% aqueous conditions during the sampling. The compounds were ionized using atmospheric pressure chemical ionization and detected on a tandem mass spectrometer operated in multiple reaction-monitoring mode. The detection limits were in the range of 0.01-0.03 microg/l. Compared to conventional GC methods, the developed LC-MS procedure is very straightforward, fast and more reliable. This application demonstrates the applicability of LC-MS for analysis of polar OPs in surface, ground and drinking water, as a more favourable alternative to GC.

Tailoring bioanalysis for PK studies supporting drug discovery.

Over the last years, there has been an exponentially growing need and interest to bring pharmacokinetic expertise into discovery. In order to allow a multidisciplinary selection and a higher attrition rate, both the in vivo and in vitro pharmacokinetic parameters of an ever increasing number of tentative new chemical entities are evaluated in an earlier phase of Drug Discovery. A higher attrition rate at the beginning of the pipeline should result in a lower attrition rate at a later stage in development. In this process, the bioanalytical laboratory has become increasingly important. Analytical strategies needed to be adapted to cope with novel experimental designs such as cassette dosing, cassette analysis or 96-well techniques. At the same time, HT-synthesis programs surfaced a broader variety of chemical classes to be investigated, disfavoring further generalization of analytical approaches. Progress in lab automation, improved chromatographic techniques and the proliferation of LC-MS/MS enabled the analyst to deal with these challenges much faster and with a higher level of confidence. Quality standards regarding method development and method validation, setting the boundaries for more than a decade, needed to be titrated to reach an optimal balance between speed and quality. This review will give an illustrative overview of the bioanalytical techniques and strategies used to support Drug Discovery, together with some pitfalls related to the overzealous use of new techniques.

Quantification of 3-nitrotyrosine in biological tissues and fluids: generating valid results by eliminating artifactual formation.

Reactive nitrogen species such as peroxynitrite can nitrate specific amino acids, whether free or protein bound, and 3-nitrotyrosine is believed to be one marker of this reaction. To examine the significance of this pathway in biological systems we have developed an accurate, sensitive, and specific assay for 3-nitrotyrosine based on combined liquid chromatography tandem mass spectrometry. Our approach allowed simultaneous analysis of both tyrosine and 3-nitrotyrosine and employs isotopomer standards (i.e., [15N1, 13C9]-tyrosine and [13C6]-3nitrotyrosine). Calibration curves were linear (r2 = 0.999) across the range 0.5-100 pg/microL (i.e., 2.2-442 fmol/microL), and the detection limit for standard samples was 0.5 pg/microL (2.2 fmol/microL, or 10 fmol on column; S/N = 5) or 1 pg/microL (4.4 fmol/microL) for extracted (biological) samples. As a component of this study we have undertaken an extensive investigation of artifactual formation of 3-nitrotyrosine under conditions that exist during sample extraction and derivatization. Our studies show that under appropriate conditions (low pH, elevated temperatures, and in the presence of a vast excess of the two substrates, tyrosine and the nitrate anion), 3-nitrotyrosine can readily be formed as an artifact.

A covalent thymine-tyrosine adduct involved in DNA-protein crosslinks: synthesis, characterization, and quantification.

A thymine-tyrosine adduct, (3-[(1,3-dihydro-2,4-dioxopyrimidin-5-yl)methyl]-L-tyrosine), was synthesized using a simple, single-step condensation between 5-(hydroxymethyl)uracil and L-tyrosine. This approach provides access to useful quantities (mg-g) of analytically pure reference material, and with minor modification, to stable isotope-labeled analogues (isotopomers). With reference material and a suitable internal standard available, isotope-dilution liquid chromatography-electrospray ionization-tandem mass spectrometry (LC/MS/MS) was used to assay the adduct in a model system purged of oxygen, i.e., a gamma-irradiated N2O-saturated aqueous solution of thymine and tyrosine. The convenient synthetic route to standards and the method for quantification reported here will prove useful in assessing the significance of the adduct in biological systems. These studies also highlight the potential for artefactual adduct formation if the appropriate substrates are present under acidic conditions.

Chiral interactions in capillary zone electrophoresis: computer simulation and comparison with experiment.

Chiral interaction in capillary electrophoresis can be modeled using pK values, mobilities of analytes, and their formation constants with the chiral selector. An existing steady-state simulation program for CE (HPCESIM) was recently extended with a chiral submenu involving the chiral parameters listed above. These were experimentally determined in both our laboratories for mandelic acid and terbutaline using hydroxypropylated beta-cyclodextrin as chiral selector. A comparison was made between both sets of parameters and between experimental electropherograms and those obtained from simulation. Error analysis of the results indicate the sensitivity of the obtained results.

Capillary electrophoretic enantioseparation of selegiline, methamphetamine and ephedrine using a neutral beta-cyclodextrin epichlorhydrin polymer.

This paper describes the development of a capillary zone electrophoretic method for chiral separation of three basic compounds of the selegiline synthetic pathway: ephedrine, methamphetamine and selegiline. The method developed allows one to separate the studied compounds in one run using a neutral beta-cyclodextrin epichlorhydrin polymer. The effect of various experimental parameters, such as chiral selector concentration, concentration and composition of background electrolyte, pH, temperature, and the addition of some organic solvents, on the resolution and migration time is discussed. For selegiline and methamphetamine, it is possible, under optimal conditions, to quantify less than 0.5% of the minor isomer in an excess of the major one.