A quantitative analysis of intron effects on mammalian gene expression

In higher eukaryotes, intron-containing and intronless versions of otherwise identical genes can exhibit dramatically different expression profiles. Introns and the act of their removal by the spliceosome can affect gene expression at many different levels, including transcription, polyadenylation, mRNA export, translational efficiency, and the rate of mRNA decay. However, the extent to which each of these steps contributes to the overall effect of any one intron on gene expression has not been rigorously tested. Here we report construction and initial characterization of a luciferase-based reporter system for monitoring the effects of individual introns and their position within the gene on protein expression in mammalian cells. Quantitative analysis of constructs containing human TPI intron 6 at two different positions within the Renilla luciferase open reading frame revealed that this intron acts primarily to enhance mRNA accumulation. Spliced mRNAs also exhibited higher translational yields than did intronless transcripts. However, nucleocytoplasmic mRNA distribution and mRNA stability were largely unaffected. These findings were extended to two other introns in a TCR-β minigene

Splicing enhances translation in mammalian cells: an additional function of the exon junction complex

In mammalian cells, spliced mRNAs yield greater quantities of protein per mRNA molecule than do otherwise identical mRNAs not made by splicing. This increased translational yield correlates with enhanced cytoplasmic polysome association of spliced mRNAs, and is attributable to deposition of exon junction complexes (EJCs). Translational stimulation can be replicated by tethering the EJC proteins Y14, Magoh, and RNPS1 or the nonsense-mediated decay (NMD) factors Upf1, Upf2, and Upf3b to an intronless reporter mRNA. Thus, in addition to its previously characterized role in NMD, the EJC also promotes mRNA polysome association. Furthermore, the ability to stimulate translation when bound inside an open reading frame appears to be a general feature of factors required for NMD