CDK4 deficiency promotes genomic instability and enhances Myc-driven lymphomagenesis
Yuanzhi Lu, … , John L. Cleveland, Xianghong Zou
Yuanzhi Lu, … , John L. Cleveland, Xianghong Zou
Published March 10, 2014
Citation Information: J Clin Invest. 2014;124(4):1672-1684. https://doi.org/10.1172/JCI63139.
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Research Article Oncology

CDK4 deficiency promotes genomic instability and enhances Myc-driven lymphomagenesis

Abstract

The G1 kinase CDK4 is amplified or overexpressed in some human tumors and promotes tumorigenesis by inhibiting known tumor suppressors. Here, we report that CDK4 deficiency markedly accelerated lymphoma development in the Eμ-Myc transgenic mouse model of B lymphoma and that silencing or loss of CDK4 augmented the tumorigenic potential of Myc-driven mouse and human B cell lymphoma in transplant models. Accelerated disease in CDK4-deficient Eμ-Myc transgenic mice was associated with rampant genomic instability that was provoked by dysregulation of a FOXO1/RAG1/RAG2 pathway. Specifically, CDK4 phosphorylated and inactivated FOXO1, which prevented FOXO1-dependent induction of Rag1 and Rag2 transcription. CDK4-deficient Eμ-Myc B cells had high levels of the active form of FOXO1 and elevated RAG1 and RAG2. Furthermore, overexpression of RAG1 and RAG2 accelerated lymphoma development in a transplant model, with RAG1/2-expressing tumors exhibiting hallmarks of genomic instability. Evaluation of human tumor samples revealed that CDK4 expression was markedly suppressed, while FOXO1 expression was elevated, in several subtypes of human non-Hodgkin B cell lymphoma. Collectively, these findings establish a context-specific tumor suppressor function for CDK4 that prevents genomic instability, which contributes to B cell lymphoma. Furthermore, our data suggest that targeting CDK4 may increase the risk for the development and/or progression of lymphoma.

Authors

Yuanzhi Lu, Yongsheng Wu, Xiaoling Feng, Rulong Shen, Jing H. Wang, Mohammad Fallahi, Weimin Li, Chunying Yang, William Hankey, Weiqiang Zhao, Ramesh K. Ganju, Ming O. Li, John L. Cleveland, Xianghong Zou

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Figure 7

CDK4 deficiency augments the tumorigenic potential of Myc-driven lymphoma.

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CDK4 deficiency augments the tumorigenic potential of Myc-driven lymphom...
(A) B220+ cells (3 × 105) from individual Eμ-MycCdk4+/+ or Eμ-MycCdk4–/– lymphomas were transplanted i.v. via the tail vein into 6- to 8-week-old syngeneic C57Bl/6 recipient mice. Note the marked differences in the tumorigenic potential of Eμ-MycCdk4–/– versus Eμ-MycCdk4+/+ lymphomas (P < 0.001). n = number of mice per group. A Student’s t test was used for statistical analysis. Horizontal lines indicate mouse survival after inoculating lymphoma cells. (B) Knockdown of human CDK4 in human BL cells: Ramos (left) and CA46 (right) increased levels of FOXO1, yet led to decreases in p-FOXO1-S329 expression levels. There were no changes in CDK2 or actin levels following CDK4 knockdown. (C) The effects of CDK4 knockdown on the ratio of total FOXO1/p-FOXO1-S329 and p-FOXO1-S249 were determined for Ramos (left) and CA46 (right) BL cells. P < 0.05. (D and E) Knockdown of human CDK4 augments the tumorigenic potential of Ramos (D) and CA46 (E) lymphoma cells. Ramos or CA46 BL cells with stable CDK4 knockdown or cells harboring control RNAi were transplanted via the tail vein into 6- to 8-week-old nude recipients that were then followed for lymphoma onset. Statistical analyses were performed as above. n = 12 mice per group (P = 0.019 and P = 0.04, respectively).