Jarkko Karvinen

Homogeneous Time-Resolved Fluorescence Quenching Assay (LANCE) for Caspase-3

In addition to kinases and G protein—coupled receptors, proteases are one of the main targets in modern drug discovery. Caspases and viral proteases, for instance, are potential targets for new drugs. To satisfy the current need for fast and sensitive high-throughput screening for inhibitors, new homogeneous protease assays are needed. We used a caspase-3 assay as a model to develop a homogeneous time-resolved fluorescence quenching assay technology. The assay utilizes a peptide labeled with both a luminescent europium chelate and a quencher. Cleavage of the peptide by caspase-3 separates the quencher from the chelate and thus recovers europium fluorescence. The sensitivity of the assay was 1 pg/μl for active caspase-3 and 200 pM for the substrate. We evaluated the assay for high-throughput usage by screening 9600 small-molecule compounds. We also evaluated this format for absorption/distribution/metabolism/excretion assays with cell lysates. Additionally, the assay was compared to a commercial fluorescence caspase-3 assay.

Application of Micro Arrayed Compound Screening (pcARCS) to Identify Inhibitors of Caspase-3

Micro Arrayed Compound Screening (pARCS) is a miniaturized ultra-high-throughput screening platform developed at Abbott Laboratories. In this format, 8640 discrete compounds are spotted and dried onto a polystyrene sheet, which has the same footprint as a 96-well plate. A homogeneous time-resolved fluorescence assay format (LANCE) was applied to identify the inhibitors of caspase-3 using a peptide substrate labeled with a fluorescent europium chelate and a dabcyl quencher. The caspase-3 enzyme was cast into a thin agarose gel, which was placed on a sheet containing test compounds. A second gel containing caspase substrate was then laid above the enzyme gel to initiate the reaction. Caspase-3 cleaves the substrate and separates the europium from the quencher, giving rise to a time-resolved fluorescent signal, which was detected using a ViewLux charge-coupled device imaging system. Potential inhibitors of caspase-3 appeared as dark spots on a bright fluorescent background. Results from the pARCS assay format were compared to those from a conventional 96-well plate-screening format.

Novel luminescent samarium(III) chelates

Abstract A series of new stable, luminescent samarium(III) chelates were synthesized and their photophysical properties were measured. The iodoacetamido activated chelate coupled to a peptide was used in a caspase-3 assay.