Please use this identifier to cite or link to this item: https://doi.org/10.1182/blood.2019000381
Title: MELK mediates the stability of EZH2 through site-specific phosphorylation in extranodal natural killer/T-cell lymphoma
Authors: Li, Boheng 
Yan, Junli 
The, Phyu
Fan, Shuangyi 
Chung, Tae-Hoon
Mustafa, Nurulhuda
Lin, Baohong
Wang, Lingzhi 
Eichhorn, Pieter Johan Adam
Goh, Boon-Cher 
Ng, Siok-Bian 
Kappei, Dennis
Chng, Wee-Joo 
Keywords: Science & Technology
Life Sciences & Biomedicine
Hematology
T-CELL
CANCER
PROLIFERATION
BORTEZOMIB
RESISTANCE
OVEREXPRESSION
UBIQUITINATION
MULTICENTER
METHYLATION
COMBINATION
Issue Date: 5-Dec-2019
Publisher: AMER SOC HEMATOLOGY
Citation: Li, Boheng, Yan, Junli, The, Phyu, Fan, Shuangyi, Chung, Tae-Hoon, Mustafa, Nurulhuda, Lin, Baohong, Wang, Lingzhi, Eichhorn, Pieter Johan Adam, Goh, Boon-Cher, Ng, Siok-Bian, Kappei, Dennis, Chng, Wee-Joo (2019-12-05). MELK mediates the stability of EZH2 through site-specific phosphorylation in extranodal natural killer/T-cell lymphoma. BLOOD 134 (23) : 2046-2058. ScholarBank@NUS Repository. https://doi.org/10.1182/blood.2019000381
Abstract: Oncogenic EZH2 is overexpressed and extensively involved in the pathophysiology of different cancers including extranodal natural killer/T-cell lymphoma (NKTL). However, the mechanisms regarding EZH2 upregulation is poorly understood, and it still remains untargetable in NKTL. In this study, we examine EZH2 protein turnover in NKTL and identify MELK kinase as a regulator of EZH2 ubiquitination and turnover. Using quantitative mass spectrometry analysis, we observed a MELK-mediated increase of EZH2 S220 phosphorylation along with a concomitant loss of EZH2 K222 ubiquitination, suggesting a phosphorylation-dependent regulation of EZH2 ubiquitination. MELK inhibition through both chemical and genetic means led to ubiquitination and destabilization of EZH2 protein. Importantly, we determine that MELK is upregulated in NKTL, and its expression correlates with EZH2 protein expression as determined by tissue microarray derived from NKTL patients. FOXM1, which connected MELK to EZH2 signaling in glioma, was not involved in mediating EZH2 ubiquitination. Furthermore, we identify USP36 as the deubiquitinating enzyme that deubiquitinates EZH2 at K222. These findings uncover an important role of MELK and USP36 in mediating EZH2 stability in NKTL. Moreover, MELK overexpression led to decreased sensitivity to bortezomib treatment in NKTL based on deprivation of EZH2 ubiquitination. Therefore, modulation of EZH2 ubiquitination status by targeting MELK may be a new therapeutic strategy for NKTL patients with poor bortezomib response.
Source Title: BLOOD
URI: https://scholarbank.nus.edu.sg/handle/10635/207218
ISSN: 00064971
15280020
DOI: 10.1182/blood.2019000381
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