Development of a Covalent Inhibitor of c-Jun N-Terminal Protein Kinase (JNK) 2/3 with Selectivity over JNK1

Wenchao Lu; Yao Liu; Yang Gao; Qixiang Geng; Deepak Gurbani; Lianbo Li; Scott B. Ficarro; Cynthia J. Meyer; Dhiraj Sinha; Inchul You; Jason Tse; Zhixiang He; Wenzhi Ji; Jianwei Che; Audrey Y. Kim; Tengteng Yu; Kenneth Wen; Kenneth C. Anderson; Jarrod A. Marto; Kenneth D. Westover; Tinghu Zhang; Nathanael S. Gray

doi:10.1021/acs.jmedchem.2c01834

Development of a Covalent Inhibitor of c-Jun N-Terminal Protein Kinase (JNK) 2/3 with Selectivity over JNK1

Wenchao Lu(Stanford University), Yao Liu(Harvard University), Yang Gao(Harvard University), Qixiang Geng(Stanford University), Deepak Gurbani(The University of Texas Southwestern Medical Center), Lianbo Li(The University of Texas Southwestern Medical Center), Scott B. Ficarro(Dana-Farber Cancer Institute), Cynthia J. Meyer(The University of Texas Southwestern Medical Center), Dhiraj Sinha(The University of Texas Southwestern Medical Center), Inchul You(Stanford University), Jason Tse(Stanford University), Zhixiang He(Harvard University), Wenzhi Ji(Stanford University), Jianwei Che(Harvard University), Audrey Y. Kim(Stanford University), Tengteng Yu(Dana-Farber Cancer Institute), Kenneth Wen(Dana-Farber Cancer Institute), Kenneth C. Anderson(Dana-Farber Cancer Institute), Jarrod A. Marto(Brigham and Women's Hospital), Kenneth D. Westover(The University of Texas Southwestern Medical Center), Tinghu Zhang(Stanford University), Nathanael S. Gray(Stanford University)

Journal of Medicinal Chemistry

February 24, 2023

10.1021/acs.jmedchem.2c01834

Cited by 27Open Access

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Abstract

The c-Jun N-terminal kinases (JNKs) are members of the mitogen-activated protein kinase (MAPK) family, which includes JNK1–JNK3. Interestingly, JNK1 and JNK2 show opposing functions, with JNK2 activity favoring cell survival and JNK1 stimulating apoptosis. Isoform-selective small molecule inhibitors of JNK1 or JNK2 would be useful as pharmacological probes but have been difficult to develop due to the similarity of their ATP binding pockets. Here, we describe the discovery of a covalent inhibitor YL5084, the first such inhibitor that displays selectivity for JNK2 over JNK1. We demonstrated that YL5084 forms a covalent bond with Cys116 of JNK2, exhibits a 20-fold higher Kinact/KI compared to that of JNK1, and engages JNK2 in cells. However, YL5084 exhibited JNK2-independent antiproliferative effects in multiple myeloma cells, suggesting the existence of additional targets relevant in this context. Thus, although not fully optimized, YL5084 represents a useful chemical starting point for the future development of JNK2-selective chemical probes.

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