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本文引用的文献

1
BCOR gene alterations in hematologic diseases.BCOR 基因改变与血液系统疾病。
Blood. 2021 Dec 16;138(24):2455-2468. doi: 10.1182/blood.2021010958.
2
Modeling and targeting of erythroleukemia by hematopoietic genome editing.通过造血基因组编辑对红白血病进行建模和靶向治疗。
Blood. 2021 Mar 25;137(12):1628-1640. doi: 10.1182/blood.2020009103.
3
BCOR Binding to MLL-AF9 Is Essential for Leukemia via Altered EYA1, SIX, and MYC Activity.BCOR 与 MLL-AF9 的结合对于白血病的发生是必需的,通过改变 EYA1、SIX 和 MYC 的活性。
Blood Cancer Discov. 2020 Sep;1(2):162-177. doi: 10.1158/2643-3230.BCD-20-0036.
4
Histone H2AK119 Mono-Ubiquitination Is Essential for Polycomb-Mediated Transcriptional Repression.组蛋白H2AK119单泛素化对于多梳蛋白介导的转录抑制至关重要。
Mol Cell. 2020 Feb 20;77(4):840-856.e5. doi: 10.1016/j.molcel.2019.11.021. Epub 2019 Dec 26.
5
PRC1 Catalytic Activity Is Central to Polycomb System Function.PRC1催化活性是多梳系统功能的核心。
Mol Cell. 2020 Feb 20;77(4):857-874.e9. doi: 10.1016/j.molcel.2019.12.001. Epub 2019 Dec 27.
6
g:Profiler: a web server for functional enrichment analysis and conversions of gene lists (2019 update).g:Profiler:一个用于功能富集分析和基因列表转换的网络服务器(2019 更新)。
Nucleic Acids Res. 2019 Jul 2;47(W1):W191-W198. doi: 10.1093/nar/gkz369.
7
Functional Landscape of PCGF Proteins Reveals Both RING1A/B-Dependent-and RING1A/B-Independent-Specific Activities.PCGF 蛋白的功能景观揭示了 RING1A/B 依赖性和 RING1A/B 非依赖性的特异性活性。
Mol Cell. 2019 Jun 6;74(5):1037-1052.e7. doi: 10.1016/j.molcel.2019.04.002. Epub 2019 Apr 24.
8
Synergy between Variant PRC1 Complexes Defines Polycomb-Mediated Gene Repression.变体 PRC1 复合物之间的协同作用定义了多梳介导的基因抑制。
Mol Cell. 2019 Jun 6;74(5):1020-1036.e8. doi: 10.1016/j.molcel.2019.03.024. Epub 2019 Apr 24.
9
Bcor loss perturbs myeloid differentiation and promotes leukaemogenesis.Bcor 缺失扰乱髓系分化并促进白血病发生。
Nat Commun. 2019 Mar 22;10(1):1347. doi: 10.1038/s41467-019-09250-6.
10
FGF2-FGFR1 signaling regulates release of Leukemia-Protective exosomes from bone marrow stromal cells.FGF2-FGFR1 信号通路调节骨髓基质细胞释放白血病保护外泌体。
Elife. 2019 Feb 5;8:e40033. doi: 10.7554/eLife.40033.

BCOR 和 BCORL1 突变通过将 PRC1.1 与靶基因解链接来驱动表观遗传重编程和致癌信号。

BCOR and BCORL1 Mutations Drive Epigenetic Reprogramming and Oncogenic Signaling by Unlinking PRC1.1 from Target Genes.

机构信息

Department of Medical Oncology, Division of Hematologic Neoplasia, Dana-Farber Cancer Institute, Boston, Massachusetts.

Department of Data Science, Dana-Farber Cancer Institute, and Department of Biostatistics, Harvard T.H. Chan School of Public Health, Boston, Massachusetts.

出版信息

Blood Cancer Discov. 2022 Mar 1;3(2):116-135. doi: 10.1158/2643-3230.BCD-21-0115.

DOI:10.1158/2643-3230.BCD-21-0115
PMID:35015684
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9414116/
Abstract

UNLABELLED

Polycomb repressive epigenetic complexes are recurrently dysregulated in cancer. Unlike polycomb repressive complex 2 (PRC2), the role of PRC1 in oncogenesis and therapy resistance is not well-defined. Here, we demonstrate that highly recurrent mutations of the PRC1 subunits BCOR and BCORL1 in leukemia disrupt assembly of a noncanonical PRC1.1 complex, thereby selectively unlinking the RING-PCGF enzymatic core from the chromatin-targeting auxiliary subcomplex. As a result, BCOR-mutated PRC1.1 is localized to chromatin but lacks repressive activity, leading to epigenetic reprogramming and transcriptional activation at target loci. We define a set of functional targets that drive aberrant oncogenic signaling programs in PRC1.1-mutated cells and primary patient samples. Activation of these PRC1.1 targets in BCOR-mutated cells confers acquired resistance to treatment while sensitizing to targeted kinase inhibition. Our study thus reveals a novel epigenetic mechanism that explains PRC1.1 tumor-suppressive activity and identifies a therapeutic strategy in PRC1.1-mutated cancer.

SIGNIFICANCE

We demonstrate that BCOR and BCORL1 mutations in leukemia unlink PRC1.1 repressive function from target genes, resulting in epigenetic reprogramming and activation of aberrant cell signaling programs that mediate treatment resistance. Our study provides mechanistic insights into the pathogenesis of PRC1.1-mutated leukemia that inform novel therapeutic approaches. This article is highlighted in the In This Issue feature, p. 85.

摘要

未标记

多梳抑制性表观遗传复合物在癌症中经常失调。与多梳抑制复合物 2(PRC2)不同,PRC1 在致癌和治疗耐药性中的作用尚未明确界定。在这里,我们证明了白血病中 PRC1 亚基 BCOR 和 BCORL1 的高频突变破坏了非典型 PRC1.1 复合物的组装,从而选择性地将 RING-PCGF 酶核心与染色质靶向辅助亚基分离。结果,BCOR 突变的 PRC1.1 定位于染色质,但缺乏抑制活性,导致靶基因座的表观遗传重编程和转录激活。我们定义了一组功能靶点,这些靶点在 PRC1.1 突变细胞和原发性患者样本中驱动异常致癌信号通路。在 BCOR 突变细胞中激活这些 PRC1.1 靶点会导致获得性耐药,同时对靶向激酶抑制敏感。因此,我们的研究揭示了一种新的表观遗传机制,该机制解释了 PRC1.1 的肿瘤抑制活性,并确定了 PRC1.1 突变癌症的治疗策略。

意义

我们证明了白血病中的 BCOR 和 BCORL1 突变使 PRC1.1 的抑制功能与靶基因分离,导致表观遗传重编程和激活异常细胞信号通路,从而介导治疗耐药性。我们的研究为 PRC1.1 突变白血病的发病机制提供了机制上的见解,并为新的治疗方法提供了信息。本文在本期特色文章中进行了重点介绍,第 85 页。