遗传性或获得性 RUNX1 突变导致的血液系统疾病的分子基础。

Molecular Basis of Hematological Disease Caused by Inherited or Acquired RUNX1 Mutations.

机构信息

Institute of Cancer and Genomic Sciences, College of Medicine and Dentistry, University of Birmingham, Birmingham, UK.

出版信息

Exp Hematol. 2022 Jul;111:1-12. doi: 10.1016/j.exphem.2022.03.009. Epub 2022 Mar 24.

DOI:10.1016/j.exphem.2022.03.009

Abstract

The transcription factor RUNX1 is essential for correct hematopoietic development; in its absence in the germ line, blood stem cells are not formed. RUNX1 orchestrates dramatic changes in the chromatin landscape at the onset of stem cell formation, which set the stage for both stem self-renewal and further differentiation. However, once blood stem cells are formed, the mutation of the RUNX1 gene is not lethal but can lead to various hematopoietic defects and a predisposition to cancer. Here we summarize the current literature on inherited and acquired RUNX1 mutations, with a particular emphasis on mutations that alter the structure of the RUNX1 protein itself, and place these changes in the context of what is known about RUNX1 function. We also summarize which mutant RUNX1 proteins are actually expressed in cells and discuss the molecular mechanism underlying how such variants reprogram the epigenome setting stem cells on the path to malignancy.

摘要

转录因子 RUNX1 对于正确的造血发育至关重要；在生殖系中缺乏它，血液干细胞就不会形成。RUNX1 在干细胞形成时协调染色质景观的巨大变化，为干细胞自我更新和进一步分化奠定了基础。然而，一旦血液干细胞形成，RUNX1 基因突变就不会致命，但会导致各种造血缺陷和癌症易感性。在这里，我们总结了关于遗传性和获得性 RUNX1 突变的现有文献，特别强调了改变 RUNX1 蛋白结构本身的突变，并将这些变化置于已知的 RUNX1 功能背景下。我们还总结了哪些突变的 RUNX1 蛋白实际上在细胞中表达，并讨论了这些变体如何重新编程表观基因组，使干细胞走上恶性肿瘤之路的分子机制。

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遗传性或获得性 RUNX1 突变导致的血液系统疾病的分子基础。

Molecular Basis of Hematological Disease Caused by Inherited or Acquired RUNX1 Mutations.

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