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

Jinhua Wang; Tatiana Erazo; Fleur M. Ferguson; Dennis L. Buckley; Nestor Gomez; Pau Muñoz-Guardiola; Nora Diéguez-Martínez; Xianming Deng; Mingfeng Hao; Walter Massefski; Oleg Fedorov; Nana Kwaku Offei-Addo; Paul M. Park; Lingling Dai; Amy Dibona; Kelly Becht; Nam Doo Kim; Michael R. McKeown; Justin M. Roberts; Jinwei Zhang; Taebo Sim; Dario R. Alessi; James E. Bradner; Jose M. Lizcano; Stephen C. Blacklow; Jun Qi; Xiang Xu; Nathanael S. Gray

doi:10.1021/acschembio.7b00638

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

Jinhua Wang, Tatiana Erazo, Fleur M. Ferguson, Dennis L. Buckley, Nestor Gomez, Pau Muñoz-Guardiola, Nora Diéguez-Martínez, Xianming Deng, Mingfeng Hao, Walter Massefski, Oleg Fedorov, Nana Kwaku Offei-Addo, Paul M. Park, Lingling Dai, Amy Dibona, Kelly Becht, Nam Doo Kim, Michael R. McKeown, Justin M. Roberts, Jinwei ZhangTaebo Sim, Dario R. Alessi, James E. Bradner, Jose M. Lizcano, Stephen C. Blacklow, Jun Qi, Xiang Xu, Nathanael S. Gray

Research output: Contribution to journal › Article › peer-review

49 Citations (Scopus)

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 ERK5 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 μM BRD4 IC ₅₀ (JWG-115), and additional inhibitors with rationally designed polypharmacology (JWG-047, JWG-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.

Original language	English
Pages (from-to)	2438-2448
Number of pages	11
Journal	ACS Chemical Biology
Volume	13
Issue number	9
DOIs	https://doi.org/10.1021/acschembio.7b00638
Publication status	Published - 2018 Sept 21

Bibliographical note

Publisher Copyright:
Copyright © 2018 American Chemical Society.

ASJC Scopus subject areas

Biochemistry
Molecular Medicine

Access to Document

10.1021/acschembio.7b00638

Cite this

Wang, J., Erazo, T., Ferguson, F. M., Buckley, D. L., Gomez, N., Muñoz-Guardiola, P., Diéguez-Martínez, N., Deng, X., Hao, M., Massefski, W., Fedorov, O., Offei-Addo, N. K., Park, P. M., Dai, L., Dibona, A., Becht, K., Kim, N. D., McKeown, M. R., Roberts, J. M., ... Gray, N. S. (2018). Structural and Atropisomeric Factors Governing the Selectivity of Pyrimido-benzodiazipinones as Inhibitors of Kinases and Bromodomains. ACS Chemical Biology, 13(9), 2438-2448. https://doi.org/10.1021/acschembio.7b00638

Wang, J, Erazo, T, Ferguson, FM, Buckley, DL, Gomez, N, Muñoz-Guardiola, P, Diéguez-Martínez, N, Deng, X, Hao, M, Massefski, W, Fedorov, O, Offei-Addo, NK, Park, PM, Dai, L, Dibona, A, Becht, K, Kim, ND, McKeown, MR, Roberts, JM, Zhang, J, Sim, T, Alessi, DR, Bradner, JE, Lizcano, JM, Blacklow, SC, Qi, J, Xu, X & Gray, NS 2018, 'Structural and Atropisomeric Factors Governing the Selectivity of Pyrimido-benzodiazipinones as Inhibitors of Kinases and Bromodomains', ACS Chemical Biology, vol. 13, no. 9, pp. 2438-2448. https://doi.org/10.1021/acschembio.7b00638

@article{4181d7f267af4de6a2931729a52c56fc,

title = "Structural and Atropisomeric Factors Governing the Selectivity of Pyrimido-benzodiazipinones as Inhibitors of Kinases and Bromodomains",

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 ERK5 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 μM BRD4 IC 50 (JWG-115), and additional inhibitors with rationally designed polypharmacology (JWG-047, JWG-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.",

author = "Jinhua Wang and Tatiana Erazo and Ferguson, {Fleur M.} and Buckley, {Dennis L.} and Nestor Gomez and Pau Mu{\~n}oz-Guardiola and Nora Di{\'e}guez-Mart{\'i}nez and Xianming Deng and Mingfeng Hao and Walter Massefski and Oleg Fedorov and Offei-Addo, {Nana Kwaku} and Park, {Paul M.} and Lingling Dai and Amy Dibona and Kelly Becht and Kim, {Nam Doo} and McKeown, {Michael R.} and Roberts, {Justin M.} and Jinwei Zhang and Taebo Sim and Alessi, {Dario R.} and Bradner, {James E.} and Lizcano, {Jose M.} and Blacklow, {Stephen C.} and Jun Qi and Xiang Xu and Gray, {Nathanael S.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2018 American Chemical Society.",

year = "2018",

month = sep,

day = "21",

doi = "10.1021/acschembio.7b00638",

language = "English",

volume = "13",

pages = "2438--2448",

journal = "ACS Chemical Biology",

issn = "1554-8929",

publisher = "American Chemical Society",

number = "9",

}

TY - JOUR

T1 - Structural and Atropisomeric Factors Governing the Selectivity of Pyrimido-benzodiazipinones as Inhibitors of Kinases and Bromodomains

AU - Wang, Jinhua

AU - Erazo, Tatiana

AU - Ferguson, Fleur M.

AU - Buckley, Dennis L.

AU - Gomez, Nestor

AU - Muñoz-Guardiola, Pau

AU - Diéguez-Martínez, Nora

AU - Deng, Xianming

AU - Hao, Mingfeng

AU - Massefski, Walter

AU - Fedorov, Oleg

AU - Offei-Addo, Nana Kwaku

AU - Park, Paul M.

AU - Dai, Lingling

AU - Dibona, Amy

AU - Becht, Kelly

AU - Kim, Nam Doo

AU - McKeown, Michael R.

AU - Roberts, Justin M.

AU - Zhang, Jinwei

AU - Sim, Taebo

AU - Alessi, Dario R.

AU - Bradner, James E.

AU - Lizcano, Jose M.

AU - Blacklow, Stephen C.

AU - Qi, Jun

AU - Xu, Xiang

AU - Gray, Nathanael S.

PY - 2018/9/21

Y1 - 2018/9/21

N2 - 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 ERK5 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 μM BRD4 IC 50 (JWG-115), and additional inhibitors with rationally designed polypharmacology (JWG-047, JWG-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.

AB - 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 ERK5 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 μM BRD4 IC 50 (JWG-115), and additional inhibitors with rationally designed polypharmacology (JWG-047, JWG-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.

UR - http://www.scopus.com/inward/record.url?scp=85052316103&partnerID=8YFLogxK

U2 - 10.1021/acschembio.7b00638

DO - 10.1021/acschembio.7b00638

M3 - Article

C2 - 30102854

AN - SCOPUS:85052316103

SN - 1554-8929

VL - 13

SP - 2438

EP - 2448

JO - ACS Chemical Biology

JF - ACS Chemical Biology

IS - 9

ER -

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

Abstract

Bibliographical note

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this