TY - JOUR AU - Yile Zhou, AU - Xiaomei Yan, AU - Xiaomin Feng, AU - Jiachen Bu, AU - Yunzhu Dong, AU - Peipei Lin, AU - Yoshihiro Hayashi, AU - Rui Huang, AU - Andre Olsson, AU - Paul R. Andreassen, AU - H. Leighton Grimes, AU - Qian-fei Wang, AU - Tao Cheng, AU - Zhijian Xiao, AU - Jie Jin, AU - Gang Huang, PY - 2018/07/03 Y2 - 2024/03/28 TI - Setd2 regulates quiescence and differentiation of adult hematopoietic stem cells by restricting RNA polymerase II elongation JF - Haematologica JA - haematol VL - 103 IS - 7 SE - Articles DO - 10.3324/haematol.2018.187708 UR - https://haematologica.org/article/view/8515 SP - 1110-1123 AB - SET domain containing 2 (Setd2), encoding a histone methyltransferase, is associated with many hematopoietic diseases when mutated. By generating a novel exon 6 conditional knockout mouse model, we describe an essential role of Setd2 in maintaining the adult hematopoietic stem cells. Loss of Setd2 results in leukopenia, anemia, and increased platelets accompanied by hypocellularity, erythroid dysplasia, and mild fibrosis in bone marrow. Setd2 knockout mice show significantly decreased hematopoietic stem and progenitor cells except for erythroid progenitors. Setd2 knockout hematopoietic stem cells fail to establish long-term bone marrow reconstitution after transplantation because of the loss of quiescence, increased apoptosis, and reduced multiple-lineage terminal differentiation potential. Bioinformatic analysis revealed that the hematopoietic stem cells exit from quiescence and commit to differentiation, which lead to hematopoietic stem cell exhaustion. Mechanistically, we attribute an important Setd2 function in murine adult hematopoietic stem cells to the inhibition of the Nsd1/2/3 transcriptional complex, which recruits super elongation complex and controls RNA polymerase II elongation on a subset of target genes, including Myc. Our results reveal a critical role of Setd2 in regulating quiescence and differentiation of hematopoietic stem cells through restricting the NSDs/SEC mediated RNA polymerase II elongation. ER -