Nuclear Retention of mRNAs Through Paraspeckle Protein Binding to a Sequence Determinant in 3′UTR
Résumé
Paraspeckles are nuclear membraneless structures composed of a long non-coding RNA, Nuclear-Enriched-Abundant-Transcript-1, and RNA-binding proteins, which associate with numerous mRNAs. It is therefore believed that their cellular function is to sequester in the nucleus their associated proteins and/or target mRNAs. However, little is known about the molecular determinant in mRNA targets that allows their association to paraspeckles, except that inverted repeats of Alu sequences (IRAlu) present in the 3′UTR of mRNAs may allow this association. While in a previous study we established the list of paraspeckle target RNAs in a rat pituitary cell line, we did not find, however, inverted repeated SINEs, the rat equivalent of primate IRAlus in 3′UTR of these RNAs. By developing a candidate gene strategy, we selected a paraspeckle target gene, namely calreticulin mRNA, and we searched for other potential RNA recruitment elements in its 3′UTR, since 3′UTRs usually contain the sequence recognition for nuclear localization. We found a 15-nucleotide sequence surrounded in 5′ by a C-rich sequence, which is present as a tandem repeat in the 3′UTR of this mRNA and which is involved in the nuclear retention by paraspeckles. As shown by mass spectrometry analysis, 6 proteins bound to the 15-nucleotide sequence are paraspeckle proteins and constitute, therefore, bridging proteins between paraspeckles and target mRNAs.