Assay Development and High-Throughput Screening of Caspases in Microfluidic Format

Ge Wu; Jennifer      Irvine; Chris      Luft; David      Pressley; C.   Nicholas   Hodge; Bill      Janzen

Abstract

Caspase proteases are familiar targets in drug discovery. A common format for screening to identify caspase inhibitors employs fluorogenic or colorimetric tetra-peptide substrates in 96, 384, or 1536 -well microtiter plates. The primary motivation for increasing the number of wells per plate is to reduce the reagent cost per test and increase the throughput of HTS operations. There are significant challenges, however, to moving into or beyond the 1536-well format, such as submicroliter liquid handling, liquid evaporation, increased surface area-to-volume ratios, and the potential for artifacts and interference from small air-borne particles such as lint. Therefore, HTS scientists remain keenly interested in technologies that offer alternatives to the ever-shrinking microtiter plate well. Microfluidic assay technology represents an attractive option that, in theory, consumes only subnanoliter volumes of reagents per test. We have successfully employed a microfluidic assay technology in fluorogenic screening assays for several caspase isoforms utilizing the Caliper Technologies Labchip™ platform. Caspase-3 is used as a representative case to describe microfluidic assay development and initial high-throughput screening results. In addition, microfluidic screening and plate-based screening are compared in terms of reagent consumption, data quality, and ease of operation.

Keywords: caspase, microfluidic, screening, kinetic, apoptosis, chip

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Combinatorial Chemistry & High Throughput Screening

Title: Assay Development and High-Throughput Screening of Caspases in Microfluidic Format

Volume: 6 Issue: 4

Author(s): Ge Wu, Jennifer Irvine, Chris Luft, David Pressley, C. Nicholas Hodge and Bill Janzen

Affiliation:

Keywords: caspase, microfluidic, screening, kinetic, apoptosis, chip

Abstract: Caspase proteases are familiar targets in drug discovery. A common format for screening to identify caspase inhibitors employs fluorogenic or colorimetric tetra-peptide substrates in 96, 384, or 1536 -well microtiter plates. The primary motivation for increasing the number of wells per plate is to reduce the reagent cost per test and increase the throughput of HTS operations. There are significant challenges, however, to moving into or beyond the 1536-well format, such as submicroliter liquid handling, liquid evaporation, increased surface area-to-volume ratios, and the potential for artifacts and interference from small air-borne particles such as lint. Therefore, HTS scientists remain keenly interested in technologies that offer alternatives to the ever-shrinking microtiter plate well. Microfluidic assay technology represents an attractive option that, in theory, consumes only subnanoliter volumes of reagents per test. We have successfully employed a microfluidic assay technology in fluorogenic screening assays for several caspase isoforms utilizing the Caliper Technologies Labchip™ platform. Caspase-3 is used as a representative case to describe microfluidic assay development and initial high-throughput screening results. In addition, microfluidic screening and plate-based screening are compared in terms of reagent consumption, data quality, and ease of operation.

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Ge Wu , Irvine Jennifer, Luft Chris, Pressley David, Hodge Nicholas C. and Janzen Bill, Assay Development and High-Throughput Screening of Caspases in Microfluidic Format, Combinatorial Chemistry & High Throughput Screening 2003; 6 (4) . https://dx.doi.org/10.2174/138620703106298554

DOI https://dx.doi.org/10.2174/138620703106298554	Print ISSN 1386-2073
Publisher Name Bentham Science Publisher	Online ISSN 1875-5402

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