Ferry Heus scite author profile

The aim of the here presented study was to combine high performance liquid chromatography with plate reader technology in order to overcome certain drawbacks of integrated online systems as well as offline plate reader approaches. The described method combines an "at-line" enzyme assay for the simultaneous bioactivity determination with parallel QTOF MS data acquisition for analyte identification. All biochemical reagents are added in an online mode directly to the column effluent (postcolumn addition/mixing), and the complete screening assay mixture is subsequently microfractionated into a 1536 well plate. The screening of a natural extract fortified with two well-known Protein Kinase A inhibitors and the identification of an inhibitor in a natural extract showed the applicability of the approach to detect bioactive compounds in low concentrations in a complex mixture. The described mode of operation utilizes today's plate reader technology to its full capacity and directly hyphenates it to a high resolution separation technique which has not been shown before. Furthermore, it allows coupling of a microbore HPLC with a biochemical screening assay without compromising resolution and overcomes problems associated with the 1536 well format.

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High-Resolution Fractionation after Gas Chromatography for Effect-Directed Analysis

Pieke

Heus

Kamstra

et al. 2013

Anal. Chem.

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This research presents an analytical technology for highly efficient, high-resolution, and high-yield fractionation of compounds after gas chromatography (GC) separations. The technology is straightforward, does not require sophisticated cold traps or adsorbent traps, and allows collecting large numbers of fractions during a GC run. The technology is based on direct infusion of a carrier solvent at the end of the GC column, where infusion takes place in the GC oven. Pentane and hexane used as carrier solvent showed good results. Acetonitrile also showed good results as a more polar carrier solvent. Development and optimization of the technology is described, followed by demonstration in a high-throughput effect directed analysis setting toward dioxin receptor bioactivity. The GC fractionation setup was capable of collecting fractions in the second range. As a result, fractionated compounds could be collected into one or two fractions when 6.5 s resolution fractionation was performed. Subsequently, mixtures containing polycyclic aromatic hydrocarbons, of which some are bioactive toward the dioxin receptor, were profiled with a mammalian gene reporter assay. After fractionation into 96-well plates, we used our new approach for direct cell seeding onto the fractions prior to assaying which allowed dioxin receptor bioactivity to be measured directly after fractionation. The current technology represents a great advance in effect directed analysis for environmental screening worldwide as it allows combining the preferred analytical separation technology for often non-polar environmental pollutants with environmentally relevant bioassays, in high resolution.

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Analysis of glutathione adducts of patulin by means of liquid chromatography (HPLC) with biochemical detection (BCD) and electrospray ionization tandem mass spectrometry (ESI-MS/MS)

et al. 2009

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A novel method for the identification of glutathione/electrophile adducts that are inhibiting glutathione-S-transferase (GST) activity was developed and applied for the analysis of the mycotoxin patulin. The method is based on high-performance liquid chromatography (HPLC) coupled to a continuous-flow enzyme reactor serving as biochemical detector (BCD) in parallel to electrospray mass spectrometric detection (ESI-MS). This HPLC-BCD technique combines a separation step and the detection of the inhibition and is therefore ideally suited for the analysis of the activity of single patulin/glutathione adducts within a complex mixture of adducts. Two out of at least 15 detected patulin-glutathione adducts showed strong GST inhibition. In ESI-MS, the inhibitory active adducts were characterized by [M + H]+ ions with m/z 462.1138 and m/z 741.2011, respectively. They could be identified as a dihydropyranone adduct containing one molecule glutathione and a ketohexanoic acid bearing two glutathione molecules.

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Development of a microfluidic confocal fluorescence detection system for the hyphenation of nano-LC to on-line biochemical assays

Heus¹,

Giera²,

Kloe

et al. 2010

Anal Bioanal Chem

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One way to profile complex mixtures for receptor affinity is to couple liquid chromatography (LC) on-line to biochemical detection (BCD). A drawback of this hyphenated screening approach is the relatively high consumption of sample, receptor protein and (fluorescently labeled) tracer ligand. Here, we worked toward minimization of sample and reagent consumption, by coupling nano-LC on-line to a light-emitting diode (LED) based capillary confocal fluorescence detection system capable of on-line BCD with low-flow rates. In this fluorescence detection system, a capillary with an extended light path (bubble cell) was used as a detection cell in order to enhance sensitivity. The technology was applied to a fluorescent enhancement bioassay for the acetylcholine binding protein, a structural analog of the extracellular ligand-binding domain of neuronal nicotinic acetylcholine receptors. In the miniaturized setup, the sensitive and low void volume LED-induced confocal fluorescence detection system operated in flow injection analysis mode allowing the measurement of IC50 values, which were comparable with those measured by a conventional plate reader bioassay. The current setup uses 50 nL as injection volume with a carrier flow rate of 400 nL/min. Finally, coupling of the detection system to gradient reversed-phase nano-LC allowed analysis of mixtures in order to identify the bioactive compounds present by injecting 10 nL of each mixture.Electronic supplementary materialThe online version of this article (doi:10.1007/s00216-010-4210-x) contains supplementary material, which is available to authorized users.

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An efficient analytical platform for on-line microfluidic profiling of neuroactive snake venoms towards nicotinic receptor affinity

Heus

Vonk

Otvos

et al. 2013

Toxicon

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Ferry Heus

Microfractionation Revisited: A 1536 Well High Resolution Screening Assay

High-Resolution Fractionation after Gas Chromatography for Effect-Directed Analysis

Analysis of glutathione adducts of patulin by means of liquid chromatography (HPLC) with biochemical detection (BCD) and electrospray ionization tandem mass spectrometry (ESI-MS/MS)

Development of a microfluidic confocal fluorescence detection system for the hyphenation of nano-LC to on-line biochemical assays

An efficient analytical platform for on-line microfluidic profiling of neuroactive snake venoms towards nicotinic receptor affinity

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