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- Title
Evaluation of Micro-Parallel Liquid Chromatography as a Method for HTS-Coupled Actives Verification.
- Authors
Anton Simeonov; Adam Yasgar; Carleen Klumpp; Wei Zheng; Naeem Shafqat; Udo Oppermann; Christopher P. Austin; James Inglese
- Abstract
The identification of biologically active compounds from high-throughput screening (HTS) can involve considerable postscreening analysis to verify the nature of the sample activity. In this study we evaluated the performance of micro-parallel liquid chromatography (μPLC) as a separation-based enzyme assay platform for follow-up of compound activities found in quantitative HTS of two different targets, a hydrolase and an oxidoreductase. In an effort to couple secondary analysis to primary screening we explored the application of μPLC immediately after a primary screen. In μPLC, up to 24 samples can be loaded and analyzed simultaneously via high-performance liquid chromatography within a specially designed cartridge. In a proof-of-concept experiment for screen-coupled actives verification, we identified, selected, and consolidated the contents of “active” wells from a 1,536-well format HTS experiment into a 384-well plate and subsequently analyzed these samples by a 24-channel μPLC system. The method utilized 0.6 of the original 6-μl 1,536-well assay for the analysis. The analysis revealed several non-biological-based “positive” samples. The main examples included “false” enzyme activators resulting from an increase in well fluorescence due to fluorescent compound or impurity. The μPLC analysis also provided a verification of the activity of two activators of glucocerebrosidase. We discuss the benefits of μPLC and its limitations from the standpoint of ease of use and integration into a seamless postscreen workflow.
- Subjects
HIGH throughput screening (Drug development); LIQUID chromatography; ENZYMES; FIRE assay; DRUG development
- Publication
Assay & Drug Development Technologies, 2007, Vol 5, Issue 6, p815
- ISSN
1540-658X
- Publication type
Article
- DOI
10.1089/adt.2007.097