Structural and Atropisomeric Factors Governing the Selectivity of Pyrimido-benzodiazipinones as Inhibitors of Kinases and Bromodomains

Authors
Wang, JinhuaErazo, TatianaFerguson, Fleur M.Buckley, Dennis L.Gomez, NestorMunoz-Guardiola, PauDieguez-Martinez, NoraDeng, XianmingHao, MingfengMassefski, WalterFedorov, OlegOffei-Addo, Nana KwakuPark, Paul M.Dai, LinglingDiBona, AmyBecht, KellyKim, Nam DooMcKeown, Michael R.Roberts, Justin M.Zhang, JinweiSim, TaeboAlessi, Dario R.Bradner, James E.Lizcano, Jose M.Blacklow, Stephen C.Qi, JunXu, XiangGray, Nathanael S.
Issue Date
2018-09
Publisher
AMER CHEMICAL SOC
Citation
ACS CHEMICAL BIOLOGY, v.13, no.9, pp.2438 - 2448
Abstract
Bromodomains have been pursued intensively over the past several years as emerging targets for the development of anticancer and anti-inflammatory agents. It has recently been shown that some kinase inhibitors are able to potently inhibit the bromodomains of BRD4. The clinical activities of PLK inhibitor BI-2536 and JAK2-FLT3 inhibitor TG101348 have been attributed to this unexpected polypharmacology, indicating that dual-kinase/bromodomain activity may be advantageous in a therapeutic context. However, for target validation and biological investigation, a more selective target profile is desired. Here, we report that benzo[e]pyrimido-[5,4-b]diazepine-6(11H)-ones, versatile ATP-site directed kinase pharmacophores utilized in the development of inhibitors of multiple kinases, including several previously reported kinase chemical probes, are also capable of exhibiting potent BRD4-dependent pharmacology. Using a dual kinase-bromodomain inhibitor of the kinase domains of ERK5 and LRRK2, and the bromodomain of BRD4 as a case study, we define the structure activity relationships required to achieve dual kinase/BRD4 activity, as well as how to direct selectivity toward inhibition of either ERKS or BRD4. This effort resulted in identification of one of the first reported kinase-selective chemical probes for ERK5 (JWG-071), a BET selective inhibitor with 1 mu M BRD4 IC50 (JWG-115), and additional inhibitors with rationally designed polypharmacology (JWG-047, JING-069). Co-crystallography of seven representative inhibitors with the first bromodomain of BRD4 demonstrate that distinct atropisomeric conformers recognize the kinase ATP-site and the BRD4 acetyl lysine binding site, conformational preferences supported by rigid docking studies.
Keywords
TRANSCRIPTION ELONGATION; ERK5 MAPK7; P-TEFB; DISCOVERY; RESISTANCE; TARGETS; GROWTH; JQ1; TRANSCRIPTION ELONGATION; ERK5 MAPK7; P-TEFB; DISCOVERY; RESISTANCE; TARGETS; GROWTH; JQ1; Pyrimido-benzodiazipinones; BRD4
ISSN
1554-8929
URI
https://pubs.kist.re.kr/handle/201004/121001
DOI
10.1021/acschembio.7b00638
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KIST Article > 2018
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