CDKL3 is a targetable regulator of cell cycle progression in cancers
Haijiao Zhang, … , Shixue Wang, Ren Sheng
Haijiao Zhang, … , Shixue Wang, Ren Sheng
Published July 4, 2024
Citation Information: J Clin Invest. 2024;134(16):e178428. https://doi.org/10.1172/JCI178428.
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Research Article Cell biology

CDKL3 is a targetable regulator of cell cycle progression in cancers

Abstract

Cell cycle regulation is largely abnormal in cancers. Molecular understanding and therapeutic targeting of the aberrant cell cycle are essential. Here, we identified that an underappreciated serine/threonine kinase, cyclin-dependent kinase–like 3 (CDKL3), crucially drives rapid cell cycle progression and cell growth in cancers. With regard to mechanism, CDKL3 localizes in the nucleus and associates with specific cyclin to directly phosphorylate retinoblastoma (Rb) for quiescence exit. In parallel, CDKL3 prevents the ubiquitin-proteasomal degradation of cyclin-dependent kinase 4 (CDK4) by direct phosphorylation on T172 to sustain G1 phase advancement. The crucial function of CDKL3 in cancers was demonstrated both in vitro and in vivo. We also designed, synthesized, and characterized a first-in-class CDKL3-specific inhibitor, HZ1. HZ1 exhibits greater potency than CDK4/6 inhibitor in pan-cancer treatment by causing cell cycle arrest and overcomes acquired resistance to CDK4/6 inhibitor. In particular, CDKL3 has significant clinical relevance in colon cancer, and the effectiveness of HZ1 was demonstrated by murine and patient-derived cancer models. Collectively, this work presents an integrated paradigm of cancer cell cycle regulation and suggests CDKL3 targeting as a feasible approach in cancer treatment.

Authors

Haijiao Zhang, Jiahui Lin, Shaoqin Zheng, Lanjing Ma, Zhongqiu Pang, Hongyi Yin, Chengcheng Meng, Yinuo Wang, Qing Han, Xi Zhang, Zexu Li, Liu Cao, Lijun Liu, Teng Fei, Daming Gao, Liang Yang, Xueqiang Peng, Chen Ding, Shixue Wang, Ren Sheng

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Figure 4

CDKL3 phosphorylates CDK4 on T172 to stabilize CDK4.

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CDKL3 phosphorylates CDK4 on T172 to stabilize CDK4. (A) CDKL3 knockout ...
(A) CDKL3 knockout reduced the protein levels of endogenous CDK4 and CDK6 in multiple cell lines. The levels of CDK1/2/3 remained unaffected. (B) CHX-blocking assay of endogenous CDK4 protein showing that CDK4 protein stability was positively correlated with CDKL3 level. Error bars indicate ± SD, by 1-way ANOVA. (C) Ubiquitination assay of CDK4 showing that the presence of CDKL3 specifically reduced K48-linked polyubiquitination of CDK4. K63: a Ub mutant with all Lys mutated to Arg except Lys63. K48: a Ub mutant with all Lys mutated to Arg except Lys48. (D and E) In vitro kinase assay showing that CDKL3 phosphorylates CDK4 on T172 in the presence of cyclins A2 and D1 (D). K33E/D125K mutant lost the capacity (E). The kinase-dead mutant of CDK4 (D158N) was used as substrate to avoid self-phosphorylation. (F) Co-IP assay revealing that the carboxyl region of CDKL3 is primarily involved in CDK4 binding. (G) Ubiquitination assay of endogenous CDK4 in the presence of WT CDKL3 and K33E/D125K. K33E/D125K lost the capacity to reduce CDK4 ubiquitination. MG132 pretreatment was performed to maintain the same protein level. Red asterisks represent the target protein bands. *P < 0.05; **P < 0.01.