Overcoming Compound Fluorescence in the FLiK Screening Assay with Red-Shifted Fluorophores

Overcoming Compound Fluorescence in the FLiK Screening Assay with Red-Shifted Fluorophores

In the attempt to discover novel chemical scaffolds that can modulate the activity of disease-associated enzymes, such as kinases, biochemical assays are usually deployed in high-throughput screenings. First-line assays, such as activity-based assays, often rely on fluorescent molecules by measuring...

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Bibliographic Details
Published in:Journal of the American Chemical Society Vol. 135; no. 22; pp. 8400 - 8408
Main Authors: Schneider, Ralf, Gohla, Anne, Simard, Jeffrey R, Yadav, Dharmendra B, Fang, Zhizhou, van Otterlo, Willem A. L, Rauh, Daniel
Format: Journal Article
Language:English
Published: United States American Chemical Society 05-06-2013
Subjects:
2-Naphthylamine - analogs & derivatives
2-Naphthylamine - chemistry
2-Naphthylamine - metabolism
Enzyme Assays
Fluorescence
High-Throughput Screening Assays
Models, Molecular
Molecular Structure
Protein Kinases - chemistry
Protein Kinases - metabolism
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Summary:In the attempt to discover novel chemical scaffolds that can modulate the activity of disease-associated enzymes, such as kinases, biochemical assays are usually deployed in high-throughput screenings. First-line assays, such as activity-based assays, often rely on fluorescent molecules by measuring a change in the total emission intensity, polarization state, or energy transfer to another fluorescent molecule. However, under certain conditions, intrinsic compound fluorescence can lead to difficult data analysis and to false-positive, as well as false-negative, hits. We have reported previously on a powerful direct binding assay called fluorescent labels in kinases (‘FLiK’), which enables a sensitive measurement of conformational changes in kinases upon ligand binding. In this assay system, changes in the emission spectrum of the fluorophore acrylodan, induced by the binding of a ligand, are translated into a robust assay readout. However, under the excitation conditions of acrylodan, intrinsic compound fluorescence derived from highly conjugated compounds complicates data analysis. We therefore optimized this method by identifying novel fluorophores that excite in the far red, thereby avoiding compound fluorescence. With this advancement, even rigid compounds with multiple π-conjugated ring systems can now be measured reliably. This study was performed on three different kinase constructs with three different labeling sites, each undergoing distinct conformational changes upon ligand binding. It may therefore serve as a guideline for the establishment of novel fluorescence-based detection assays.
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ISSN:0002-7863
1520-5126
DOI:10.1021/ja403074j