一种新的Srrm1/SRm160可变剪接体经历无义突变介导的mRNA降解

目的:研究基因Srrm1/SRm160的可变剪接。方法:应用RT-PCR研究Srrm1/SRm160的可变剪接,通过蛋白质的翻译抑制和RNA干扰研究剪接异构体是否经历无义突变介导的mRNA降解(NMD)过程。结果:获得Srrm1/SRm160新的可变剪接异构体,该异构体产生提前终止密码子,翻译抑制和RNA干扰证实含有提前终止密码子的剪接体经过NMD而降解。结论:Srrm1/SRm160通过可变剪接和NMD调节自身的表达水平,作为剪接因子进一步调节其他基因的可变剪接。     

Mammalian tissues defective in nonsense-mediated mRNA decay display highly aberrant splicing patterns

Background

Nonsense-mediated mRNA decay (NMD) affects the outcome of alternative splicing by degrading mRNA isoforms with premature termination codons. Splicing regulators constitute important NMD targets; however, the extent to which loss of NMD causes extensive deregulation of alternative splicing has not previously been assayed in a global, unbiased manner. Here, we combine mouse genetics and RNA-seq to provide the first in vivo analysis of the global impact of NMD on splicing patterns in two primary mouse tissues ablated for the NMD factor UPF2.

Results

We developed a bioinformatic pipeline that maps RNA-seq data to a combinatorial exon database, predicts NMD-susceptibility for mRNA isoforms and calculates the distribution of major splice isoform classes. We present a catalog of NMD-regulated alternative splicing events, showing that isoforms of 30% of all expressed genes are upregulated in NMD-deficient cells and that NMD targets all major splicing classes. Importantly, NMD-dependent effects are not restricted to premature termination codon+ isoforms but also involve an abundance of splicing events that do not generate premature termination codons. Supporting their functional importance, the latter events are associated with high intronic conservation.

Conclusions

Our data demonstrate that NMD regulates alternative splicing outcomes through an intricate web of splicing regulators and that its loss leads to the deregulation of a panoply of splicing events, providing novel insights into its role in core- and tissue-specific regulation of gene expression. Thus, our study extends the importance of NMD from an mRNA quality pathway to a regulator of several layers of gene expression.