The decoy exon model has been proposed to regulate a subset of intron retention (IR) events involving predominantly larger introns (>1 kb). Splicing reporter studies have shown that decoy splice sites are essential for activity, suggesting that decoys act by engaging intron-terminal splice sites and competing with cross-intron interactions required for intron excision. The decoy model predicts that antisense oligonucleotides may be able to block decoy splice sites in endogenous pre-mRNA, thereby reducing IR and increasing productive gene expression. Indeed, we now demonstrate that targeting a decoy 5' splice site in the O-GlcNAc transferase () gene reduced IR from ∼80% to ∼20% in primary human erythroblasts, accompanied by increases in spliced RNA and OGT protein expression. The remaining IR was refractory to antisense treatment and might be mediated by independent mechanism(s). In contrast, other retained introns were strongly dependent on decoy function, since antisense targeting of decoy 5' splice sites greatly reduced () or nearly eliminated () IR in two widely expressed splicing factors, and also greatly reduced IR in transcripts encoding the erythroid-specific structural protein, α-spectrin (). These results show that modulating decoy exon function can dramatically alter IR and suggest that dynamic regulation of decoy exons could be a mechanism to fine-tune gene expression post-transcriptionally in many cell types.
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| http://dx.doi.org/10.1261/rna.075028.120 | DOI Listing |
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Article Synopsis
- - The spliced form of X-box binding protein 1 (XBP1s) plays a crucial role in the unfolded protein response (UPR) and is linked to increased proliferation and survival rates in various cancers, particularly hepatocellular carcinoma (HCC).
- - This study investigated the effects of targeting XBP1s in Huh-7 liver cancer cells using specific decoy oligodeoxynucleotides (ODNs), assessing outcomes like cell viability and migration through techniques such as wound healing tests and assays for proliferation and apoptosis.
- - Results showed that using XBP1s decoy ODN significantly decreased cell viability, proliferation, and migration while increasing the expression of certain genes, suggesting a potential therapeutic strategy
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