Overcoming Compound Interference in Fluorescence Polarization-Based Kinase Assays Using Far-Red Tracers

Abstract: Kinase-mediated phosphorylation of proteins is critical to the regulation of many biological processes, including cell growth, apoptosis, and differentiation. Because of the central role that kinases play in processes that can lead to disease states, the targeting of kinases with small-molecule inhibitors is a validated strategy for therapeutic intervention. Classic methods for assaying kinases include nonhomogenous enzyme-linked immunosorbent assays or scintillation-based formats using [gamma-(32)P]ATP. Howev… Show more

“…Clearly, the use of the longer wavelength Alexa Fluor-633 probe (647 nm emission peak) enables this resistance to low-wavelength fluorescent interference from small-molecule libraries, as the use of red-shifted fluorescent probes to avoid compound fluorescent interference in FP assays is well documented in the literature. [11][12][13][14][15][16] We speculate (based on our experience and on BellBrook Labs data) that large-molecularweight compounds, especially natural product molecules that possess many conjugated bonds, may cause fluorescent interference at the wavelengths used in the assay. 17 It is possible that the reason we did not observe any fluorescent interference from compounds is because of limited diversity of our compound libraries (and the focus on lower molecular weight compounds).…”

Development of a Transcreener™ Kinase Assay for Protein Kinase A and Demonstration of Concordance of Data with a Filter-Binding Assay Format

“…Clearly, the use of the longer wavelength Alexa Fluor-633 probe (647 nm emission peak) enables this resistance to low-wavelength fluorescent interference from small-molecule libraries, as the use of red-shifted fluorescent probes to avoid compound fluorescent interference in FP assays is well documented in the literature. [11][12][13][14][15][16] We speculate (based on our experience and on BellBrook Labs data) that large-molecularweight compounds, especially natural product molecules that possess many conjugated bonds, may cause fluorescent interference at the wavelengths used in the assay. 17 It is possible that the reason we did not observe any fluorescent interference from compounds is because of limited diversity of our compound libraries (and the focus on lower molecular weight compounds).…”

Development of a Transcreener™ Kinase Assay for Protein Kinase A and Demonstration of Concordance of Data with a Filter-Binding Assay Format

“…Furthermore, the use of a far-red-shifted fluorophore (Alexa Fluor633) provides the benefit of lower assay interference from compound fluorescence and light scatter. 28,29 The combined properties of the detection reagents are reflected in the Z ′ values observed in standard curves mimicking enzyme reactions ( Fig. 5 ).…”

Development and Validation of a Transcreener Assay for Detection of AMP- and GMP-Producing Enzymes

“…The two-color ratiometric approach results in precise, quantitative analysis of cell signaling with good reproducibility. In addition, the use of NIR detection should avoid the problem of compound interference, which has been reported for other methods of kinase analysis [15][16][17]. The value of using a cell-based approach for evaluation of kinase inhibitors was demonstrated by the different observed effects of the EGFR inhibitor PD168393 on phosphorylation of EGFR, Stat3, and ERK.…”

A cell-based immunocytochemical assay for monitoring kinase signaling pathways and drug efficacy