Ezh2的失活上调Gfi1并驱动侵袭性Myc驱动的3型髓母细胞瘤。

Inactivation of Ezh2 Upregulates Gfi1 and Drives Aggressive Myc-Driven Group 3 Medulloblastoma.

作者信息

Vo BaoHan T, Li Chunliang, Morgan Marc A, Theurillat Ilan, Finkelstein David, Wright Shaela, Hyle Judith, Smith Stephanie M C, Fan Yiping, Wang Yong-Dong, Wu Gang, Orr Brent A, Northcott Paul A, Shilatifard Ali, Sherr Charles J, Roussel Martine F

机构信息

Department of Tumor Cell Biology, St. Jude Children's Research Hospital, 262 Danny Thomas Place, Memphis, TN 38105, USA.

Department of Biochemistry and Molecular Genetics, Northwestern University Feinberg School of Medicine, 320 East Superior Street, Chicago, IL 60611, USA.

出版信息

Cell Rep. 2017 Mar 21;18(12):2907-2917. doi: 10.1016/j.celrep.2017.02.073.

DOI:10.1016/j.celrep.2017.02.073

PMID:28329683

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5415387/

Abstract

The most aggressive of four medulloblastoma (MB) subgroups are cMyc-driven group 3 (G3) tumors, some of which overexpress EZH2, the histone H3K27 mono-, di-, and trimethylase of polycomb-repressive complex 2. Ezh2 has a context-dependent role in different cancers as an oncogene or tumor suppressor and retards tumor progression in a mouse model of G3 MB. Engineered deletions of Ezh2 in G3 MBs by gene editing nucleases accelerated tumorigenesis, whereas Ezh2 re-expression reversed attendant histone modifications and slowed tumor progression. Candidate oncogenic drivers suppressed by Ezh2 included Gfi1, a proto-oncogene frequently activated in human G3 MBs. Gfi1 disruption antagonized the tumor-promoting effects of Ezh2 loss; conversely, Gfi1 overexpression collaborated with Myc to bypass effects of Trp53 inactivation in driving MB progression in primary cerebellar neuronal progenitors. Although negative regulation of Gfi1 by Ezh2 may restrain MB development, Gfi1 activation can bypass these effects.

摘要

四种髓母细胞瘤（MB）亚组中侵袭性最强的是cMyc驱动的3组（G3）肿瘤，其中一些肿瘤过度表达EZH2，即多梳抑制复合物2的组蛋白H3K27单甲基化、二甲基化和三甲基化酶。Ezh2在不同癌症中作为癌基因或肿瘤抑制因子具有依赖于背景的作用，并在G3 MB的小鼠模型中延缓肿瘤进展。通过基因编辑核酸酶在G3 MB中对Ezh2进行工程性缺失可加速肿瘤发生，而Ezh2的重新表达可逆转伴随的组蛋白修饰并减缓肿瘤进展。被Ezh2抑制的候选致癌驱动因子包括Gfi1，这是一种在人类G3 MB中经常被激活的原癌基因。Gfi1破坏可拮抗Ezh2缺失的促肿瘤作用；相反，Gfi1过表达与Myc协同作用，在驱动原发性小脑神经元祖细胞中的MB进展时绕过Trp53失活的影响。虽然Ezh2对Gfi1的负调控可能会抑制MB的发展，但Gfi1的激活可以绕过这些影响。

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