ASXL 获得性功能缺失突变体：天然核糖体移码产物的缺陷和失调形式？

ASXL gain-of-function truncation mutants: defective and dysregulated forms of a natural ribosomal frameshifting product?

机构信息

Department of Pathology, Division of Virology, University of Cambridge, Cambridge, CB2 1QP, UK.

School of Biochemistry and Cell Biology, University College Cork, T12 YT57, Cork, Ireland.

出版信息

Biol Direct. 2017 Oct 16;12(1):24. doi: 10.1186/s13062-017-0195-0.

DOI:10.1186/s13062-017-0195-0

PMID:29037253

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5644247/

Abstract

BACKGROUND

Programmed ribosomal frameshifting (PRF) is a gene expression mechanism which enables the translation of two N-terminally coincident, C-terminally distinct protein products from a single mRNA. Many viruses utilize PRF to control or regulate gene expression, but very few phylogenetically conserved examples are known in vertebrate genes. Additional sex combs-like (ASXL) genes 1 and 2 encode important epigenetic and transcriptional regulatory proteins that control the expression of homeotic genes during key developmental stages. Here we describe an ~150-codon overlapping ORF (termed TF) in ASXL1 and ASXL2 that, with few exceptions, is conserved throughout vertebrates.

RESULTS

Conservation of the TF ORF, strong suppression of synonymous site variation in the overlap region, and the completely conserved presence of an EH[N/S]Y motif (a known binding site for Host Cell Factor-1, HCF-1, an epigenetic regulatory factor), all indicate that TF is a protein-coding sequence. A highly conserved UCC_UUU_CGU sequence (identical to the known site of +1 ribosomal frameshifting for influenza virus PA-X expression) occurs at the 5' end of the region of enhanced synonymous site conservation in ASXL1. Similarly, a highly conserved RG_GUC_UCU sequence (identical to a known site of -2 ribosomal frameshifting for arterivirus nsp2TF expression) occurs at the 5' end of the region of enhanced synonymous site conservation in ASXL2.

CONCLUSIONS

Due to a lack of appropriate splice forms, or initiation sites, the most plausible mechanism for translation of the ASXL1 and 2 TF regions is ribosomal frameshifting, resulting in a transframe fusion of the N-terminal half of ASXL1 or 2 to the TF product, termed ASXL-TF. Truncation or frameshift mutants of ASXL are linked to myeloid malignancies and genetic diseases, such as Bohring-Opitz syndrome, likely at least in part as a result of gain-of-function or dominant-negative effects. Our hypothesis now indicates that these disease-associated mutant forms represent overexpressed defective versions of ASXL-TF.

REVIEWERS

This article was reviewed by Laurence Hurst and Eugene Koonin.

摘要

背景

程序性核糖体移码（PRF）是一种基因表达机制，它使两个在 N 端重合、在 C 端不同的蛋白质产物从单个 mRNA 中翻译出来。许多病毒利用 PRF 来控制或调节基因表达，但在脊椎动物基因中，只有很少的系统发育保守的例子。额外的性别梳样（ASXL）基因 1 和 2 编码重要的表观遗传和转录调节蛋白，这些蛋白在关键发育阶段控制同源盒基因的表达。在这里，我们描述了 ASXL1 和 ASXL2 中一个约 150 个密码子重叠的开放阅读框（称为 TF），除了少数例外，该重叠区域在整个脊椎动物中都是保守的。

结果

TF 开放阅读框的保守性、重叠区域中同义位点变异的强烈抑制，以及完全保守的 EH[N/S]Y 基序（已知的宿主细胞因子-1，HCF-1，一种表观遗传调节因子的结合位点）的存在，都表明 TF 是一个蛋白质编码序列。在 ASXL1 中增强的同义位点保守区域的 5'端，存在一个高度保守的 UCC_UUU_CGU 序列（与流感病毒 PA-X 表达的 +1 核糖体移码的已知位点相同）。同样，在 ASXL2 中增强的同义位点保守区域的 5'端，存在一个高度保守的 RG_GUC_UCU 序列（与动脉病毒 nsp2TF 表达的 -2 核糖体移码的已知位点相同）。

结论

由于缺乏适当的剪接形式或起始位点，ASXL1 和 2 TF 区域翻译最合理的机制是核糖体移码，导致 ASXL1 或 2 的 N 端半部分与 TF 产物融合，称为 ASXL-TF。ASXL 的截断或移码突变与骨髓恶性肿瘤和遗传疾病有关，如 Bohring-Opitz 综合征，至少部分原因是获得功能或显性负效应。我们的假设现在表明，这些与疾病相关的突变形式代表了过度表达的有缺陷的 ASXL-TF 版本。

审稿人

本文由 Laurence Hurst 和 Eugene Koonin 审稿。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/80d3/5644247/a92d3cffbc54/13062_2017_195_Fig1_HTML.jpg

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ASXL 获得性功能缺失突变体：天然核糖体移码产物的缺陷和失调形式？

ASXL gain-of-function truncation mutants: defective and dysregulated forms of a natural ribosomal frameshifting product?

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

REVIEWERS

背景

结果

结论

审稿人

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