High-throughput screening for the identification of small-molecule inhibitors of retinoblastoma protein phosphorylation in cells

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Abstract

The tumor suppressor protein, pRb, regulates progression through the G1 phase of the cell cycle by its ability to bind to and regulate the activity of a variety of transcription factors. This function of pRb is disabled through its phosphorylation by the cyclin-dependent kinase (CDK) family of serine/threonine kinases. In many human cancers, genetic alteration such as loss of CDK inhibitor function and deregulated G1 cyclin expression leads to inappropriate phosphorylation and hence inactivation of this tumor suppressor. Identification of cell-permeable small molecules that block pRb phosphorylation in these tumors could therefore lead to development of an effective anticancer treatment. As a result, we have developed a high-throughput assay to detect changes in the level of pRb phosphorylation in cells. Signal detection is by a time-resolved fluorescence-based cellular immunosorbant assay on a fixed monolayer of cells. This comprises a mouse monoclonal antibody that recognizes the phosphorylated form of serine 608 on pRb, a known site of CDK phosphorylation, and a Europium-labeled secondary antibody for signal detection. The assay is reproducible and amenable to automation and has been used to screen 2000 compounds in a search for cell-permeable small molecules that will block pRb phosphorylation. © 2003 Elsevier Science (USA). All rights reserved.

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Barrie, S. E., Eno-Amooquaye, E., Hardcastle, A., Platt, G., Richards, J., Bedford, D., … Garrett, M. D. (2003). High-throughput screening for the identification of small-molecule inhibitors of retinoblastoma protein phosphorylation in cells. Analytical Biochemistry, 320(1), 66–74. https://doi.org/10.1016/S0003-2697(03)00349-X

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