Background: BRD4 is a reader of acetylated histones.Results: Mutational analysis of BRD4 BD1 allowed the identification of three groups with different binding profiles.Conclusion: Pro-82, Leu-94, Asp-145, and Ile-146 have a differentiated role in acetyl-lysine and inhibitor interaction.Significance: Identification of residues essential for BRD4 function will guide the design of novel inhibitors.
The bromodomain and extraterminal (BET) subfamily of bromodomain-containing proteins has emerged in the last few years as an exciting, novel target group. BRD4, the best studied BET protein, is implicated in a number of hematological and solid tumors. This is linked to its role in modulating transcription elongation of essential genes involved in cell cycle and apoptosis such as c-Myc and BCL2. Potent BET inhibitors with promising antitumor efficacy in a number of preclinical cancer models have been identified in recent years. This led to clinical studies focusing mostly on the treatment of leukemia and lymphoma, and first encouraging signs of efficacy have already been reported. Here we discuss the biology of BRD4, its known interaction partners and implication in different tumor types. Further, we summarize the current knowledge on BET bromodomain inhibitors.
Bromodomain protein 4 (BRD4), a member of the bromodomain and extra-terminal (BET) protein family, acts as a central element in transcriptional elongation and plays essential roles in cell proliferation. Inhibition of BRD4 binding to acetylated histone tails via its two bromodomains, BD1 and BD2, with small-molecule inhibitors has been shown to be a valid strategy to prevent cancer growth. We have evaluated and established two novel assays that quantify the interaction of transfected BRD4 BD1 with chemical inhibitors inside cultured cells. Both methods are based on the principle of ligand-induced protein stabilization by which the binding of a small-molecule inhibitor stabilizes intracellular BRD4 BD1 and protects it from proteolytic degradation. We demonstrate the universal character of this principle by using two orthogonal, highly sensitive detection technologies for the quantification of BRD4 BD1 levels in cellular lysates: enzyme fragment complementation and time-resolved fluorescence resonance energy transfer (TR-FRET). Upon optimization of both assays to a miniaturized high-throughput format, the methods were validated by testing a set of small-molecule BET inhibitors and comparing the results with those from a cell-free binding assay and a biophysical thermal shift assay. In addition, point mutations were introduced into BRD4 BD1, and the corresponding mutants were characterized in the TR-FRET stabilization assay.
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