SON is an essential m6A target for hematopoietic stem cell fate

被引:4
作者
Luo, Hanzhi [1 ]
Cortes-Lopez, Mariela [2 ,3 ,4 ]
Tam, Cyrus L. [5 ,6 ]
Xiao, Michael [1 ]
Wakiro, Isaac [1 ]
Chu, Karen L. [1 ,9 ]
Pierson, Aspen [1 ]
Chan, Mandy [1 ]
Chang, Kathryn [1 ]
Yang, Xuejing [1 ]
Fecko, Daniel [1 ]
Han, Grace [1 ]
Ahn, Eun-Young Erin [7 ,8 ]
Morris, Quaid D. [5 ,6 ]
Landau, Dan A. [2 ,3 ,4 ]
Kharas, Michael G. [1 ]
机构
[1] Mem Sloan Kettering Canc Ctr, Ctr Expt Therapeut, Ctr Hematol Malignancies, Mol Pharmacol Program,Ctr Stem Cell Biol,Ctr Cell, New York, NY 10065 USA
[2] New York Genome Ctr, New York, NY USA
[3] Weill Cornell Med, Meyer Canc Ctr, New York, NY USA
[4] Weill Cornell Med, Inst Computat Biomed, New York, NY USA
[5] Mem Sloan Kettering Canc Ctr, Computat & Syst Biol Program, New York, NY USA
[6] Weill Cornell Med, Triinst Training Program Computat Biol & Med, New York, NY USA
[7] Univ Alabama Birmingham, Dept Pathol, Div Mol & Cellular Pathol, Birmingham, AL USA
[8] Univ Alabama Birmingham, ONeal Comprehens Canc Ctr, Birmingham, AL USA
[9] Weill Cornell Sch Med Sci, Dept Pharmacol, New York, NY USA
来源
CELL STEM CELL | 2023年 / 30卷 / 12期
关键词
RNA-BINDING PROTEINS; LINEAGE COMMITMENT; PROGENITOR CELLS; SELF-RENEWAL; DIFFERENTIATION; LEUKEMIA; METTL3; DIVISIONS; LEUKEMOGENESIS; IDENTIFICATION;
D O I
10.1016/j.stem.2023.11.006
中图分类号
Q813 [细胞工程];
学科分类号
摘要
Stem cells regulate their self-renewal and differentiation fate outcomes through both symmetric and asym-metric divisions. m6A RNA methylation controls symmetric commitment and inflammation of hematopoietic stem cells (HSCs) through unknown mechanisms. Here, we demonstrate that the nuclear speckle protein SON is an essential m6A target required for murine HSC self-renewal, symmetric commitment, and inflamma-tion control. Global profiling of m6A identified that m6A mRNA methylation of Son increases during HSC commitment. Upon m6A depletion, Son mRNA increases, but its protein is depleted. Reintroduction of SON rescues defects in HSC symmetric commitment divisions and engraftment. Conversely, Son deletion results in a loss of HSC fitness, while overexpression of SON improves mouse and human HSC engraftment potential by increasing quiescence. Mechanistically, we found that SON rescues MYC and suppresses the METTL3-HSC inflammatory gene expression program, including CCL5, through transcriptional regulation. Thus, our findings define a m6A-SON-CCL5 axis that controls inflammation and HSC fate.
引用
收藏
页码:1658 / 1673.e10
页数:27
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