Abstract
Epigenetic reader proteins, such as bromodomains, are often associated with diseases such as cancer and inflammation. BET bromodomain inhibitors have been studied extensively; however, non-BET bromodomains are understudied. Moreover, available high-throughput biological assays to assess inhibitors are limited. One non-BET bromodomain-containing protein, BPTF, has a recently reported inhibitor, BZ1, with an in vitro affinity of 6.3 nM. Additionally, BZ1 is known to be non-selective towards other class I bromodomains PCAF, GCN5, and CECR2. Here, we use a BZ1 analog, BZ1-THQ, to design a small molecule NanoBRET tracer, MS-1, for assessing inhibitor functional activity through live-cell target engagement against the BPTF bromodomain. Further, we investigate the versatility of MS-1 against PCAF, GCN5, and CECR2. We observe that MS-1 is a broadly applicable NanoBRET tracer for class I bromodomains, effectively binding BPTF, PCAF, GCN5, and CECR2 in HEK293T cells at low to sub-micromolar concentrations. We report EC(50) values of commercially available and inhouse inhibitors to demonstrate tracer versatility for future target engagement studies and inhibitor development.