CDK2 inhibition disorders centrosome stoichiometry and alters cellular outcomes in aneuploid cancer cells.

IF 4.4 4区医学 Q2 ONCOLOGY

Cancer Biology & Therapy Pub Date : 2023-12-31 Epub Date: 2023-11-30 DOI:10.1080/15384047.2023.2279241

Zibo Chen, Xi Liu, Masanori Kawakami, Xiuxia Liu, Allison Baker, Aayush Bhatawadekar, Liliya Tyutyunyk-Massey, Kedar Narayan, Ethan Dmitrovsky

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引用次数: 0

Abstract

Cyclin-dependent Kinase 2 (CDK2) inhibition prevents supernumerary centrosome clustering. This causes multipolarity, anaphase catastrophe and apoptotic death of aneuploid cancers. This study elucidated how CDK2 antagonism affected centrosome stoichiometry. Focused ion beam scanning electron microscopy (FIB-SEM) and immunofluorescent imaging were used. Studies interrogated multipolar mitosis after pharmacologic or genetic repression of CDK2. CDK2/9 antagonism with CYC065 (Fadraciclib)-treatment disordered centrosome stoichiometry in aneuploid cancer cells, preventing centrosome clustering. This caused ring-like chromosomes or multipolar cancer cells to form before onset of cell death. Intriguingly, CDK2 inhibition caused a statistically significant increase in single centrioles rather than intact centrosomes with two centrioles in cancer cells having chromosome rings or multipolarity. Statistically significant alterations in centrosome stoichiometry were undetected in other mitotic cancer cells. To confirm this pharmacodynamic effect, CDK2 but not CDK9 siRNA-mediated knockdown augmented cancer cells with chromosome ring or multipolarity formation. Notably, engineered gain of CDK2, but not CDK9 expression, reversed emergence of cancer cells with chromosome rings or multipolarity, despite CYC065-treatment. In marked contrast, CDK2 inhibition of primary human alveolar epithelial cells did not confer statistically significant increases of cells with ring-like chromosomes or multipolarity. Hence, CDK2 antagonism caused differential effects in malignant versus normal alveolar epithelial cells. Translational relevance was confirmed by CYC065-treatment of syngeneic lung cancers in mice. Mitotic figures in tumors exhibited chromosome rings or multipolarity. Thus, CDK2 inhibition preferentially disorders centrosome stoichiometry in cancer cells. Engaging this disruption is a strategy to explore against aneuploid cancers in future clinical trials.

查看原文本刊更多论文

CDK2抑制紊乱中心体化学计量并改变非整倍体癌细胞的细胞结局。

细胞周期蛋白依赖性激酶2 (CDK2)抑制防止多余中心体聚集。这导致非整倍体癌症的多极性、后期突变和凋亡死亡。本研究阐明了CDK2拮抗剂如何影响中心体的化学计量。采用聚焦离子束扫描电镜(FIB-SEM)和免疫荧光成像技术。研究询问多极有丝分裂后药物或遗传抑制CDK2。CYC065 (Fadraciclib)拮抗CDK2/9治疗非整倍体癌细胞中心体化学计量紊乱，防止中心体聚集。这导致环状染色体或多极癌细胞在细胞死亡之前形成。有趣的是，在具有染色体环或多极的癌细胞中，CDK2抑制导致单个中心粒而不是具有两个中心粒的完整中心体的统计学显著增加。在其他有丝分裂癌细胞中未发现有统计学意义的中心体化学计量变化。为了证实这种药效学效应，CDK2而不是CDK9 sirna介导的敲低增强了具有染色体环或多极形成的癌细胞。值得注意的是，尽管cyc065治疗，CDK2的工程增益，而不是CDK9的表达，逆转了具有染色体环或多极的癌细胞的出现。与之形成鲜明对比的是，CDK2抑制原代人肺泡上皮细胞并没有使环状染色体或多极细胞数量显著增加。因此，CDK2拮抗剂在恶性肺泡上皮细胞和正常肺泡上皮细胞中引起不同的作用。cyc065治疗小鼠同基因肺癌证实了翻译相关性。肿瘤有丝分裂象表现为染色体环或多极。因此，CDK2抑制优先扰乱了癌细胞中中心体的化学计量。参与这种破坏是在未来的临床试验中探索对抗非整倍体癌症的策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cancer Biology & Therapy 医学-肿瘤学

CiteScore

7.00

自引率

0.00%

发文量

审稿时长

2.3 months

期刊介绍： Cancer, the second leading cause of death, is a heterogenous group of over 100 diseases. Cancer is characterized by disordered and deregulated cellular and stromal proliferation accompanied by reduced cell death with the ability to survive under stresses of nutrient and growth factor deprivation, hypoxia, and loss of cell-to-cell contacts. At the molecular level, cancer is a genetic disease that develops due to the accumulation of mutations over time in somatic cells. The phenotype includes genomic instability and chromosomal aneuploidy that allows for acceleration of genetic change. Malignant transformation and tumor progression of any cell requires immortalization, loss of checkpoint control, deregulation of growth, and survival. A tremendous amount has been learned about the numerous cellular and molecular genetic changes and the host-tumor interactions that accompany tumor development and progression. It is the goal of the field of Molecular Oncology to use this knowledge to understand cancer pathogenesis and drug action, as well as to develop more effective diagnostic and therapeutic strategies for cancer. This includes preventative strategies as well as approaches to treat metastases. With the availability of the human genome sequence and genomic and proteomic approaches, a wealth of tools and resources are generating even more information. The challenge will be to make biological sense out of the information, to develop appropriate models and hypotheses and to translate information for the clinicians and the benefit of their patients. Cancer Biology & Therapy aims to publish original research on the molecular basis of cancer, including articles with translational relevance to diagnosis or therapy. We will include timely reviews covering the broad scope of the journal. The journal will also publish op-ed pieces and meeting reports of interest. The goal is to foster communication and rapid exchange of information through timely publication of important results using traditional as well as electronic formats. The journal and the outstanding Editorial Board will strive to maintain the highest standards for excellence in all activities to generate a valuable resource.