Abstract
BackgroundNonsense-mediated mRNA decay (NMD) is a eukaryotic, translation-dependent degradation pathway that targets mRNAs with premature termination codons and also regulates the expression of some mRNAs that encode full-length proteins. Although many genes express NMD-sensitive transcripts, identifying them based on short-read sequencing data remains a challenge.ResultsTo identify and analyze endogenous targets of NMD, we apply cDNA Nanopore sequencing and short-read sequencing to human cells with varying expression levels of NMD factors. Our approach detects full-length NMD substrates that are highly unstable and increase in levels or even only appear when NMD is inhibited. Among the many new NMD-targeted isoforms that our analysis identifies, most derive from alternative exon usage. The isoform-aware analysis reveals many genes with significant changes in splicing but no significant changes in overall expression levels upon NMD knockdown. NMD-sensitive mRNAs have more exons in the 3΄UTR and, for those mRNAs with a termination codon in the last exon, the length of the 3΄UTR per se does not correlate with NMD sensitivity. Analysis of splicing signals reveals isoforms where NMD has been co-opted in the regulation of gene expression, though the main function of NMD seems to be ridding the transcriptome of isoforms resulting from spurious splicing events.ConclusionsLong-read sequencing enables the identification of many novel NMD-sensitive mRNAs and reveals both known and unexpected features concerning their biogenesis and their biological role. Our data provide a highly valuable resource of human NMD transcript targets for future genomic and transcriptomic applications.
Highlights
Nonsense-mediated mRNA decay (NMD) is a eukaryotic, translationdependent degradation pathway that targets mRNAs with premature termination codons and regulates the expression of some mRNAs that encode full-length proteins
Long-read sequencing enables the identification of many novel NMDsensitive mRNAs and reveals both known and unexpected features concerning their biogenesis and their biological role
We revealed that NMD targets canonically and non-canonically spliced mRNAs, indicating that NMD serves as a regulatory mechanism and as a mechanism to rid the transcriptome of aberrantly spliced transcripts
Summary
Nonsense-mediated mRNA decay (NMD) is a eukaryotic, translationdependent degradation pathway that targets mRNAs with premature termination codons and regulates the expression of some mRNAs that encode full-length proteins. Subsequent application of transcriptome-wide approaches has revealed that NMD targets many mRNAs that encode full-length proteins, to regulate their overall expression level. Many protein factors that recognize and degrade these mRNA substrates have been identified, how the recognition of substrates and NMD activation are accomplished remains unclear. After the completion of at least one translation cycle of an NMD-sensitive mRNA [3, 6, 7], the RNA helicase UPF1 that is bound or recruited on the targeted mRNP is phosphorylated by the phosphatidylinositol-kinase related kinase (PIKK) SMG1 [8].
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