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Leukemia. 2022 Aug;36(8):2121-2124. doi: 10.1038/s41375-022-01621-1. Epub 2022 Jun 9.
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Nature. 2022 Jan;601(7894):637-642. doi: 10.1038/s41586-021-04295-4. Epub 2022 Jan 19.
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Epitranscriptomics in Hematopoiesis and Hematologic Malignancies.造血与血液系统恶性肿瘤中的表观转录组学
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N 6-Methyladenosines in mRNAs reduce the accuracy of codon reading by transfer RNAs and peptide release factors.mRNA 中的 N6-甲基腺苷通过转移 RNA 和肽释放因子降低密码子阅读的准确性。
Nucleic Acids Res. 2021 Mar 18;49(5):2684-2699. doi: 10.1093/nar/gkab033.
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Genenames.org: the HGNC and VGNC resources in 2021.Genenames.org:2021 年的 HGNC 和 VGNC 资源。
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Roles of METTL3 in cancer: mechanisms and therapeutic targeting.METTL3 在癌症中的作用:机制与治疗靶点。
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9
mA in mRNA coding regions promotes translation via the RNA helicase-containing YTHDC2.mRNA 编码区中的 mA 通过含有 RNA 解旋酶的 YTHDC2 促进翻译。
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10
The U1 spliceosomal RNA is recurrently mutated in multiple cancers.U1 剪接体 RNA 在多种癌症中经常发生突变。
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METTL3 介导的 m6A 修饰控制剪接因子丰度并有助于侵袭性 CLL。

METTL3-Mediated m6A Modification Controls Splicing Factor Abundance and Contributes to Aggressive CLL.

机构信息

Department of Systems Biology, Beckman Research Institute, City of Hope National Comprehensive Cancer Center, Monrovia, California.

Department of Statistics, University of California, Los Angeles, California.

出版信息

Blood Cancer Discov. 2023 May 1;4(3):228-245. doi: 10.1158/2643-3230.BCD-22-0156.

DOI:10.1158/2643-3230.BCD-22-0156
PMID:37067905
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10150290/
Abstract

UNLABELLED

RNA splicing dysregulation underlies the onset and progression of cancers. In chronic lymphocytic leukemia (CLL), spliceosome mutations leading to aberrant splicing occur in ∼20% of patients. However, the mechanism for splicing defects in spliceosome-unmutated CLL cases remains elusive. Through an integrative transcriptomic and proteomic analysis, we discover that proteins involved in RNA splicing are posttranscriptionally upregulated in CLL cells, resulting in splicing dysregulation. The abundance of splicing complexes is an independent risk factor for poor prognosis. Moreover, increased splicing factor expression is highly correlated with the abundance of METTL3, an RNA methyltransferase that deposits N6-methyladenosine (m6A) on mRNA. METTL3 is essential for cell growth in vitro and in vivo and controls splicing factor protein expression in a methyltransferase-dependent manner through m6A modification-mediated ribosome recycling and decoding. Our results uncover METTL3-mediated m6A modification as a novel regulatory axis in driving splicing dysregulation and contributing to aggressive CLL.

SIGNIFICANCE

METTL3 controls widespread splicing factor abundance via translational control of m6A-modified mRNA, contributes to RNA splicing dysregulation and disease progression in CLL, and serves as a potential therapeutic target in aggressive CLL. See related commentary by Janin and Esteller, p. 176. This article is highlighted in the In This Issue feature, p. 171.

摘要

未加标签

RNA 剪接失调是癌症发生和进展的基础。在慢性淋巴细胞白血病(CLL)中,导致异常剪接的剪接体突变发生在约 20%的患者中。然而,剪接体未突变的 CLL 病例中剪接缺陷的机制仍不清楚。通过综合的转录组和蛋白质组分析,我们发现 RNA 剪接相关蛋白在 CLL 细胞中被转录后上调,导致剪接失调。剪接复合物的丰度是预后不良的独立危险因素。此外,剪接因子表达的增加与 METTL3 的丰度高度相关,METTL3 是一种将 N6-甲基腺苷(m6A)沉积在 mRNA 上的 RNA 甲基转移酶。METTL3 在体外和体内对细胞生长是必需的,并且通过 m6A 修饰介导的核糖体回收和解码以依赖甲基转移酶的方式控制剪接因子蛋白表达。我们的研究结果揭示了 METTL3 介导的 m6A 修饰作为驱动剪接失调和导致侵袭性 CLL 的新型调节轴。

意义

METTL3 通过 m6A 修饰的 mRNA 的翻译控制来控制广泛的剪接因子丰度,促进 CLL 中的 RNA 剪接失调和疾病进展,并可作为侵袭性 CLL 的潜在治疗靶点。见 Janin 和 Esteller 的相关评论,第 176 页。本文在本期特色文章中重点介绍,第 171 页。