Novel examples of NMD escape through alternative intronic polyadenylation

The nonsense-mediated mRNA decay (NMD) surveillance system detects and selectively degrades transcripts with premature stop codons (PTC). A stop codon is recognized as premature if it is followed by an exon-exon junction in >50 nucleotides downstream. Pruning of the 3’-untranslated region containing such junctions by alternative polyadenylation (APA) could provide a mechanism of NMD escape. Here, we systematically examine exons that carry a PTC (poison exons) for the presence of polyadenylation sites (PAS) in the downstream intron. Using the GTEx consortium data, we found that poison exons are followed by an active PAS more frequently than cassette exons, and identified tissue-specific switches between NMD-target and NMD-escape isoforms in a number of human genes. Among them are the tropomyosin 2 ( TPM2 ) gene switching between NMD-target and NMD-escape isoforms in skeletal muscle and heart, and the vaccinia-related kinase 3 ( VRK3 ) with a similar kidney-specific switch. Blocking the polyadenylation signal and the cleavage site in VRK3 by antisense oligonucleotides in the A549 cell line led to a switch from NMD-escape to NMD-target isoform that was accompanied by a drop in the expression level. This study suggests that NMD escape via alternative polyadenylation could be a widespread and currently overlooked post-transcriptional regulatory mechanism.