Miniaturized, ultra-high throughput screening of tyrosine kinases using homogeneous, competitive fluorescence immunoassays

Assay miniaturization and the implementation of high-density 1,536-microwell screening increase the speed and efficiency of screening and lead discovery. To serve this need, a platform of miniaturizable assay technologies has been assembled for specific biological targets. This platform will enable initiation and completion of uHTS screens in a straightforward and expeditious manner. Although faster primary screening does contribute to a reduction in timelines, the process of assay development can become a bottleneck. Assay technologies that do not require the use of target-specific reagents can reduce the time necessary for assay development. Assays that measure inhibition of tyrosine kinases can be configured in a competitive format where only the enzyme itself is specific to the assay. In this context, several technologies, including time-resolved fluorometry (also known as DELFIA), time-resolved fluorescence resonance energy transfer (also known as LANCE( trade mark )), fluorescence polarization, enzyme fragmentation complementation assay, and confocal laser scanning imaging, were examined. Quality parameters such as assay reproducibility, signal:background ratio, Z factor, and assay sensitivity were compared. Additionally, the relative merits of each of these technologies are assessed in terms of assay miniaturization, ease of development, ultimate screening capability, efficiency, and cost.