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c-Myb 通过 menin 在人白血病细胞中结合 MLL,并且是与 MLL 相关的白血病发生的重要驱动因子。

c-Myb binds MLL through menin in human leukemia cells and is an important driver of MLL-associated leukemogenesis.

机构信息

Division of Hematology/Oncology, Department of Medicine, University of Pennsylvania School of Medicine, Philadelphia, Pennsylvania 19104, USA.

出版信息

J Clin Invest. 2010 Feb;120(2):593-606. doi: 10.1172/JCI38030. Epub 2010 Jan 19.

DOI:10.1172/JCI38030
PMID:20093773
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2810070/
Abstract

Mixed-lineage leukemia (MLL) is a proto-oncogene frequently involved in chromosomal translocations associated with acute leukemia. These chromosomal translocations commonly result in MLL fusion proteins that dysregulate transcription. Recent data suggest that the MYB proto-oncogene, which is an important regulator of hematopoietic cell development, has a role in leukemogenesis driven by the MLL-ENL fusion protein, but exactly how is unclear. Here we have demonstrated that c-Myb is recruited to the MLL histone methyl transferase complex by menin, a protein important for MLL-associated leukemic transformation, and that it contributes substantially to MLL-mediated methylation of histone H3 at lysine 4 (H3K4). Silencing MYB in human leukemic cell lines and primary patient material evoked a global decrease in H3K4 methylation, an unexpected decrease in HOXA9 and MEIS1 gene expression, and decreased MLL and menin occupancy in the HOXA9 gene locus. This decreased occupancy was associated with a diminished ability of an MLL-ENL fusion protein to transform normal mouse hematopoietic cells. Previous studies have shown that MYB expression is regulated by Hoxa9 and Meis1, indicating the existence of an autoregulatory feedback loop. The finding that c-Myb has the ability to direct epigenetic marks, along with its participation in an autoregulatory feedback loop with genes known to transform hematopoietic cells, lends mechanistic and translationally relevant insight into its role in MLL-associated leukemogenesis.

摘要

混合谱系白血病(MLL)是一种原癌基因,经常涉及与急性白血病相关的染色体易位。这些染色体易位通常导致 MLL 融合蛋白,失调转录。最近的数据表明,MYB 原癌基因,是造血细胞发育的重要调节剂,在由 MLL-ENL 融合蛋白驱动的白血病发生中起作用,但具体机制尚不清楚。在这里,我们已经证明,menin 通过 menin 招募 c-Myb 到 MLL 组蛋白甲基转移酶复合物中,menin 是与 MLL 相关的白血病转化相关的重要蛋白,并且它对 MLL 介导的组蛋白 H3 赖氨酸 4(H3K4)甲基化有很大贡献。在人白血病细胞系和原代患者材料中沉默 MYB 会引起 H3K4 甲基化的全局减少,HOXA9 和 MEIS1 基因表达的意外减少,以及 MLL 和 menin 在 HOXA9 基因座中的占有率降低。这种占有率降低与 MLL-ENL 融合蛋白转化正常小鼠造血细胞的能力降低有关。先前的研究表明,MYB 的表达受 Hoxa9 和 Meis1 的调节,表明存在一个自调节反馈回路。c-Myb 具有指导表观遗传标记的能力,以及其与已知转化造血细胞的基因的自调节反馈回路的参与,为其在 MLL 相关白血病发生中的作用提供了机制和转化相关的见解。

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Hierarchical maintenance of MLL myeloid leukemia stem cells employs a transcriptional program shared with embryonic rather than adult stem cells.MLL髓系白血病干细胞的分层维持采用了一种与胚胎干细胞而非成体干细胞共有的转录程序。
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FLASH acts as a co-activator of the transcription factor c-Myb and localizes to active RNA polymerase II foci.FLASH作为转录因子c-Myb的共激活因子,并定位于活跃的RNA聚合酶II位点。
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