EZH2 modulates mRNA splicing and exerts part of its oncogenic function through repression of splicing factors in CML

EZH2 modulates mRNA splicing and exerts part of its oncogenic function through repression of splicing factors in CML

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 inhibi...

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Hauptverfasser: 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
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container_title Leukemia
container_volume
creator 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
description 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.
doi_str_mv 10.1038/s41375-024-02509-y
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title EZH2 modulates mRNA splicing and exerts part of its oncogenic function through repression of splicing factors in CML
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