Sequences enriched in Alu repeats drive nuclear localization of long RNAs in human cells

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Abstract

Long noncoding RNAs (lncRNAs) are emerging as key players in multiple cellular pathways, but their modes of action, and how those are dictated by sequence remain elusive. While lncRNAs share most molecular properties with mRNAs, they are more likely to be enriched in the nucleus, a feature that is likely to be crucial for function of many lncRNAs, but whose molecular underpinnings remain largely unclear. In order identify elements that can force nuclear localization we screened libraries of short fragments tiled across nuclear RNAs, which were cloned into the untranslated regions of an efficiently exported mRNA. The screen identified a short sequence derived from Alu elements and found in many mRNAs and lncRNAs that increases nuclear accumulation and reduces overall expression levels. Measurements of the contribution of individual bases and short motifs to the element functionality identified a combination of RCCTCCC motifs that are bound by the abundant nuclear protein HNRNPK. Increased HNRNPK binding and C-rich motifs are predictive of substantial nuclear enrichment in both lncRNAs and mRNAs, and this mechanism is conserved across species. Our results thus detail a novel pathway for regulation of RNA accumulation and subcellular localization that has been co-opted to regulate the fate of transcripts that integrated Alu elements.

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europepmc
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