Methylation of Dual Specificity Phosphatase 4 Controls Cell Differentiation

双特异性磷酸酶 甲基化 对偶(语法数字) 磷酸酶 化学 细胞生物学 生物 生物化学 基因 艺术 文学类
作者
Hairui Su,Ming Jiang,Chamara Senevirathne,Srinivas Aluri,Tuo Zhang,Han Guo,Juliana Xavier-Ferrucio,Shuiling Jin,Ngoc Tung Tran,Szumam Liu,Chiao‐Wang Sun,Yongxia Zhu,Qing Zhao,Yuling Chen,LouAnn Cable,Yudao Shen,Jing Liu,Cheng‐Kui Qu,Xiaosi Han,Christopher A. Klug
出处
期刊: [Cold Spring Harbor Laboratory]
标识
DOI:10.1101/2020.12.16.422727
摘要

Abstract A collection of signaling and epigenetic events needs to be orchestrated for normal development of hematopoietic lineages. While mitogen-activated protein (MAP) kinases (MAPKs) and multiple epigenetic modulators have been implicated in the megakaryocytic (Mk) cell differentiation, the underlying molecular mechanisms of signaling-epigenetic crosstalk remain unclear. MAPKs are in general inactivated by dual specificity phosphatases (DUSPs), whose activities are tightly regulated by various posttranslational modifications. Using knockdown screening and single-cell transcriptional analysis, we determined that DUSP4 is the phosphatase that inactivates p38 MAPK in hematopoietic cells and serves as a key regulator to promote Mk differentiation. With the nextgeneration Bioorthogonal Profiling of Protein Methylation technology for live cells, we identified DUSP4 as a PRMT1 substrate. Mechanistically, PRMT1-mediated Arg351 methylation of DUSP4 triggers its ubiquitinylation by HUWE1 (an E3 ligase) and then degradation, which results in p38 MAPK activation and inhibition of Mk differentiation in vitro and in vivo . Interestingly, the mechanistic axis of the DUSP4 degradation and p38 activation is also associated with a transcriptional signature of immune activation and thus argues immunological roles of Mk cells. Collectively, these results demonstrate a critical role of PRMT1-mediated posttranslational modification of DUSP4 in regulation of Mk differentiation and maturation. In the context of thrombocytopenia observed in myelodysplastic syndromes (MDS), we demonstrated that high levels of p38 MAPK and PRMT1 are associated with low platelet counts and adverse prognosis, while pharmacological inhibition of p38 MAPK or PRMT1 stimulates megakaryopoiesis in MDS samples. These findings provide novel mechanistic insights into the role of the PRMT1-DUSP4-p38 axis on Mk differentiation and present a targeting strategy for treatment of thrombocytopenia associated with myeloid malignancies such as MDS.
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