posted on 2019-06-27, 00:00authored byXin Li, Yizhe Wu, Gaofei Tian, Yixiang Jiang, Zheng Liu, Xianbin Meng, Xiucong Bao, Ling Feng, Hongyan Sun, Haiteng Deng, Xiang David Li
Bromodomains,
epigenetic “readers” of lysine acetylation
marks, exist in different nuclear proteins with diverse biological
functions in chromatin biology. Malfunctions of bromodomains are associated
with the pathogenesis of human diseases, such as cancer. Bromodomains
have therefore emerged as therapeutic targets for drug discovery.
Given the high structural similarity of bromodomains, a critical step
in the development of bromodomain inhibitors is the evaluation of
their selectivity to avoid off-target effects. While numerous bromodomain
inhibitors have been identified, new methods to evaluate the inhibitor
selectivity toward endogenous bromodomains in living cells remain
needed. Here we report the development of a photoaffinity probe, photo-bromosporine
(photo-BS), that enables the wide-spectrum profiling of bromodomain
inhibitors in living cells. Photo-BS allowed light-induced cross-linking
of recombinant bromodomains and endogenous bromodomain-containing
proteins (BCPs) both in vitro and in living cells.
The photo-BS-induced labeling of the bromodomains was selectively competed by the corresponding bromodomain inhibitors. Proteomics
analysis revealed that photo-BS captured 28 out of the 42 known BCPs
from the living cells. Assessment of the two bromodomain inhibitors,
bromosporine and GSK6853, resulted in the identification of known
as well as previously uncharacterized bromodomain targets. Collectively,
we established a chemical proteomics platform to comprehensively evaluate
bromodomain inhibitors in terms of their selectivity against endogenous
BCPs in living cells.