Brunmeir Reinhard, Ying Li, Yan Junli, Hee Yan Ting, Lin Baohong, Kaur Harvinder, Leong Qiao Zheng, Teo Wei Wen, Choong Gerald, Jen Wei-Ying, Koh Liang Piu, Tan Lip Kun, Chan Esther, Ooi Melissa, Yang Henry, Chng Wee Joo
Cancer Science Institute of Singapore, National University of Singapore, Singapore, Singapore.
Cardiovascular and Metabolic Disorders Program, Duke-NUS Medical School, Singapore, Singapore.
Leukemia. 2025 Mar;39(3):650-662. doi: 10.1038/s41375-024-02509-y. Epub 2025 Jan 7.
The polycomb protein EZH2 is up-regulated in Chronic Myeloid Leukaemia (CML) and associated with transcriptional reprogramming. Here we tested whether EZH2 might also act as a modulator of the mRNA splicing landscape to elicit its oncogenic function in CML. We treated CML cell lines with EZH2 inhibitors and detected differential splicing of several hundreds of events, potentially caused by the transcriptional regulation of splicing factors. Amongst those genes, CELF2 was identified as a candidate to mediate part of the EZH2 inhibitor induced phenotype. Upon over-expression, we observed (1) reduced cell growth, viability, and colony formation of CML cell lines, (2) a change in the splicing landscape, partially overlapping with EZH2 mediated changes, (3) the down-regulation of MYC signalling. Importantly, these findings were successfully validated in a cohort of CML patient samples, confirming the role of CELF2 as EZH2-regulated tumour-suppressor, contributing to the severe splicing de-regulation present in CML. Based on this we propose that EZH2 exerts part of its oncogenic function in CML through the transcriptional repression of splicing factors. Finally, analysis of publicly available datasets suggests that splicing modulation by EZH2 might not be restricted to CML.
多梳蛋白EZH2在慢性髓性白血病(CML)中上调,并与转录重编程相关。在此,我们测试了EZH2是否也可能作为mRNA剪接景观的调节剂,以引发其在CML中的致癌功能。我们用EZH2抑制剂处理CML细胞系,并检测了数百个事件的差异剪接,这可能是由剪接因子的转录调控引起的。在这些基因中,CELF2被鉴定为介导部分EZH2抑制剂诱导表型的候选基因。过表达后,我们观察到:(1)CML细胞系的细胞生长、活力和集落形成减少;(2)剪接景观发生变化,部分与EZH2介导的变化重叠;(3)MYC信号下调。重要的是,这些发现已在一组CML患者样本中得到成功验证,证实了CELF2作为EZH2调节的肿瘤抑制因子的作用,这导致了CML中存在的严重剪接失调。基于此,我们提出EZH2在CML中通过对剪接因子的转录抑制发挥其部分致癌功能。最后,对公开可用数据集的分析表明,EZH2对剪接的调节可能不限于CML。
