Human cells contain myriad excised linear intron RNAs with links to gene regulation and potential utility as biomarkers.

IF 4 2区 生物学 Q1 GENETICS & HEREDITY
PLoS Genetics Pub Date : 2024-09-26 eCollection Date: 2024-09-01 DOI:10.1371/journal.pgen.1011416
Jun Yao, Hengyi Xu, Elizabeth A Ferrick-Kiddie, Ryan M Nottingham, Douglas C Wu, Manuel Ares, Alan M Lambowitz
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引用次数: 0

Abstract

A previous study using Thermostable Group II Intron Reverse Transcriptase sequencing (TGIRT-seq) found human plasma contains short (≤300 nt) structured full-length excised linear intron (FLEXI) RNAs with potential to serve as blood-based biomarkers. Here, TGIRT-seq identified >9,000 different FLEXI RNAs in human cell lines, including relatively abundant FLEXIs with cell-type-specific expression patterns. Analysis of public CLIP-seq datasets identified 126 RNA-binding proteins (RBPs) that have binding sites within the region corresponding to the FLEXI or overlapping FLEXI splice sites in pre-mRNAs, including 53 RBPs with binding sites for ≥30 different FLEXIs. These included splicing factors, transcription factors, a chromatin remodeling protein, cellular growth regulators, and proteins with cytoplasmic functions. Analysis of ENCODE datasets identified subsets of these RBPs whose knockdown impacted FLEXI host gene mRNA levels or proximate alternative splicing, indicating functional interactions. Hierarchical clustering identified six subsets of RBPs whose FLEXI binding sites were co-enriched in six subsets of functionally related host genes: AGO1-4 and DICER, including but not limited to agotrons or mirtron pre-miRNAs; DKC1, NOLC1, SMNDC1, and AATF (Apoptosis Antagonizing Transcription Factor), including but not limited to snoRNA-encoding FLEXIs; two subsets of alternative splicing factors; and two subsets that included RBPs with cytoplasmic functions (e.g., LARP4, PABPC4, METAP2, and ZNF622) together with regulatory proteins. Cell fractionation experiments showed cytoplasmic enrichment of FLEXI RNAs with binding sites for RBPs with cytoplasmic functions. The subsets of host genes encoding FLEXIs with binding sites for different subsets of RBPs were co-enriched with non-FLEXI other short and long introns with binding sites for the same RBPs, suggesting overarching mechanisms for coordinately regulating expression of functionally related genes. Our findings identify FLEXIs as a previously unrecognized large class of cellular RNAs and provide a comprehensive roadmap for further analyzing their biological functions and the relationship of their RBPs to cellular regulatory mechanisms.

人体细胞中含有无数切除的线性内含子 RNA,这些 RNA 与基因调控有关,并有可能成为生物标志物。
之前的一项研究利用热稳定性第二组内含子反转录酶测序(TGIRT-seq)发现,人体血浆中含有短(≤300 nt)结构的全长切除线性内含子(FLEXI)RNA,有可能成为基于血液的生物标记物。在这里,TGIRT-seq 在人类细胞系中鉴定出了超过 9,000 种不同的 FLEXI RNA,包括具有细胞类型特异性表达模式的相对丰富的 FLEXI。通过分析公开的CLIP-seq数据集,发现126种RNA结合蛋白(RBPs)在前mRNA中与FLEXI或重叠的FLEXI剪接位点相应的区域内有结合位点,其中53种RBPs与≥30种不同的FLEXIs有结合位点。这些蛋白包括剪接因子、转录因子、染色质重塑蛋白、细胞生长调节因子和具有细胞质功能的蛋白。对ENCODE数据集的分析确定了这些RBPs的子集,它们的敲除影响了FLEXI宿主基因的mRNA水平或近似的替代剪接,表明了功能上的相互作用。层次聚类发现了六个RBPs子集,它们的FLEXI结合位点在六个功能相关的宿主基因子集中共同富集:AGO1-4和DICER,包括但不限于agotrons或mirtron pre-miRNAs;DKC1、NOLC1、SMNDC1和AATF(凋亡拮抗转录因子),包括但不限于编码snoRNA的FLEXIs;两个替代剪接因子子集;以及包括具有细胞质功能的RBPs的两个子集(例如,LARP4、PABPC4和PABPC5)、LARP4、PABPC4、METAP2 和 ZNF622)以及调节蛋白。细胞分馏实验表明,FLEXI RNA 在细胞质中富集了与具有细胞质功能的 RBPs 结合的位点。编码FLEXIs的宿主基因子集与不同RBPs子集的结合位点共同富集,而非FLEXI的其他长短内含子与相同的RBPs结合位点共同富集,这表明了协调调控功能相关基因表达的总体机制。我们的研究发现,FLEXIs 是以前未曾认识到的一大类细胞 RNA,并为进一步分析它们的生物学功能及其 RBPs 与细胞调控机制的关系提供了一个全面的路线图。
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来源期刊
PLoS Genetics
PLoS Genetics GENETICS & HEREDITY-
自引率
2.20%
发文量
438
期刊介绍: PLOS Genetics is run by an international Editorial Board, headed by the Editors-in-Chief, Greg Barsh (HudsonAlpha Institute of Biotechnology, and Stanford University School of Medicine) and Greg Copenhaver (The University of North Carolina at Chapel Hill). Articles published in PLOS Genetics are archived in PubMed Central and cited in PubMed.
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