Conserved role for spliceosomal component PRPF40A in microexon splicing.

IF 4.2 3区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
RNA Pub Date : 2024-10-10 DOI:10.1261/rna.080142.124
Bikash Choudhary, Adam Norris
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引用次数: 0

Abstract

Microexons (exons ≤30 nts) are important features of neuronal transcriptomes, but pose mechanistic challenges to the splicing machinery. We previously showed that PRP-40, a component of the U1 spliceosome, is globally required for microexon splicing in C. elegans. Here we show that the homologous PRPF40A is also globally required for microexon splicing in mouse neuroblastoma cells. We find that PRPF40A co-regulates microexons along with SRRM4, a neuron-specific regulator of microexon splicing. The relationship between exon size and dependence on PRPF40A/SRRM4 is distinct, with SRRM4-dependence exhibiting a size threshold (~30 nts) and PRPF40A-dependence exhibiting a graded decrease as exon size increases. Finally, we show that PRPF40A knockdown causes an increase in productive splicing of its spliceosomal binding partner Luc7l by skipping of a small poison exon. Similar homeostatic cross-regulation is often observed across paralogous RNA binding proteins. Here we find this concept likewise applies across evolutionarily unrelated but functionally and physically coupled spliceosomal components.

剪接体成分 PRPF40A 在微外显子剪接中的保守作用
微外显子(≤30 nts的外显子)是神经元转录组的重要特征,但对剪接机制构成了机制上的挑战。我们之前研究发现,在秀丽隐杆线虫中,U1剪接体的一个成分 PRP-40 是微外显子剪接的全局必需成分。在这里,我们发现在小鼠神经母细胞瘤细胞中,同源的 PRPF40A 也是微外显子剪接所必需的。我们发现 PRPF40A 与微外显子剪接的神经元特异性调控因子 SRRM4 共同调控微外显子。外显子大小与对 PRPF40A/SRRM4 的依赖性之间的关系是不同的,对 SRRM4 的依赖性表现出一个大小阈值(约 30 nts),而对 PRPF40A 的依赖性则表现出随着外显子大小的增加而逐渐降低。最后,我们发现,PRPF40A 基因敲除会导致其剪接体结合伙伴 Luc7l 通过跳过一个小毒外显子而提高剪接效率。在同源 RNA 结合蛋白之间经常可以观察到类似的同源交叉调节。在这里,我们发现这一概念同样适用于进化上不相关但功能和物理上耦合的剪接体元件。
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来源期刊
RNA
RNA 生物-生化与分子生物学
CiteScore
8.30
自引率
2.20%
发文量
101
审稿时长
2.6 months
期刊介绍: RNA is a monthly journal which provides rapid publication of significant original research in all areas of RNA structure and function in eukaryotic, prokaryotic, and viral systems. It covers a broad range of subjects in RNA research, including: structural analysis by biochemical or biophysical means; mRNA structure, function and biogenesis; alternative processing: cis-acting elements and trans-acting factors; ribosome structure and function; translational control; RNA catalysis; tRNA structure, function, biogenesis and identity; RNA editing; rRNA structure, function and biogenesis; RNA transport and localization; regulatory RNAs; large and small RNP structure, function and biogenesis; viral RNA metabolism; RNA stability and turnover; in vitro evolution; and RNA chemistry.
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