Abstract
Sentinel assays are a convenient adjunct to LC-MS purity assessment to monitor the integrity of compounds in pharmaceutical screening collections over time. To assess the stability of compounds stored both at room temperature and at -20°C in assay-ready plates that were either vacuum pack-sealed using a convenient industrial vacuum sealing method or individually sealed using conventional foil seals, a diverse collection of ~ 5,000 compounds was assayed using a robust biochemical kinase assay at intervals over a one year period. Assay results at each time point were compared to those of initial assay using a series of correlations of compound Percent of Control (POC) values as well as IC50 values of a subset of compounds in 200 nL or 500 nL plates. The fraction of hits in common between initial assays and assays at later time points ranged from 82% to 95% over one year and remained relatively constant over time with all storage temperatures or sealing methods tested. A majority of the hits that exhibited a consistent gradual trend to lower potency over one year storage were shifted to lower potency upon the rapid removal of DMSO solvent. Compound precipitation rather than compound decomposition is the likely reason for trends to lower potency for most such compounds over the storage period. Plates stored at room temperature featured a significantly higher fraction of hits that exhibited a trend to lower apparent potency than those stored at -20°C suggesting that this lower temperature is preferable for longer-term storage.
Keywords: Assay-ready plates, compound integrity, compound management, DMSO, sentinel assay, storage.
Combinatorial Chemistry & High Throughput Screening
Title:Assessment of the Integrity of Compounds Stored in Assay-Ready Plates Using a Kinase Sentinel Assay
Volume: 16 Issue: 8
Author(s): Ada Chen, Xiaoning Zhao, Laina Mercer, Cheng Su, Leeanne Zalameda, Yichin Liu, Amanda Lembke, Heather Eastwood, Son Dang, Thim Oung, Xiaoyang Xia, Stephen W. Young, Shouhua Xiao and John D. McCarter
Affiliation:
Keywords: Assay-ready plates, compound integrity, compound management, DMSO, sentinel assay, storage.
Abstract: Sentinel assays are a convenient adjunct to LC-MS purity assessment to monitor the integrity of compounds in pharmaceutical screening collections over time. To assess the stability of compounds stored both at room temperature and at -20°C in assay-ready plates that were either vacuum pack-sealed using a convenient industrial vacuum sealing method or individually sealed using conventional foil seals, a diverse collection of ~ 5,000 compounds was assayed using a robust biochemical kinase assay at intervals over a one year period. Assay results at each time point were compared to those of initial assay using a series of correlations of compound Percent of Control (POC) values as well as IC50 values of a subset of compounds in 200 nL or 500 nL plates. The fraction of hits in common between initial assays and assays at later time points ranged from 82% to 95% over one year and remained relatively constant over time with all storage temperatures or sealing methods tested. A majority of the hits that exhibited a consistent gradual trend to lower potency over one year storage were shifted to lower potency upon the rapid removal of DMSO solvent. Compound precipitation rather than compound decomposition is the likely reason for trends to lower potency for most such compounds over the storage period. Plates stored at room temperature featured a significantly higher fraction of hits that exhibited a trend to lower apparent potency than those stored at -20°C suggesting that this lower temperature is preferable for longer-term storage.
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Chen Ada, Zhao Xiaoning, Mercer Laina, Su Cheng, Zalameda Leeanne, Liu Yichin, Lembke Amanda, Eastwood Heather, Dang Son, Oung Thim, Xia Xiaoyang, Young W. Stephen, Xiao Shouhua and McCarter D. John, Assessment of the Integrity of Compounds Stored in Assay-Ready Plates Using a Kinase Sentinel Assay, Combinatorial Chemistry & High Throughput Screening 2013; 16 (8) . https://dx.doi.org/10.2174/13862073113169990145
DOI https://dx.doi.org/10.2174/13862073113169990145 |
Print ISSN 1386-2073 |
Publisher Name Bentham Science Publisher |
Online ISSN 1875-5402 |
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