Long non-coding RNA Neat1 and paraspeckle components are translational regulators in hypoxia.
Anne-Claire GodetEmilie RousselFlorian P DavidFransky HantelysFlorent MorfoisseJoffrey AlvesFrançoise PujolIsabelle AderEdouard BertrandOdile Burlet-SchiltzCarine FromentAnthony K HenrasPatrice VitaliEric LacazetteFlorence TatinBarbara Garmy-SusiniAnne-Catherine PratsPublished in: eLife (2022)
Internal ribosome entry sites (IRESs) drive translation initiation during stress. In response to hypoxia, (lymph)angiogenic factors responsible for tissue revascularization in ischemic diseases are induced by the IRES-dependent mechanism. Here, we searched for IRES trans -acting factors (ITAFs) active in early hypoxia in mouse cardiomyocytes. Using knock-down and proteomics approaches, we show a link between a stressed-induced nuclear body, the paraspeckle, and IRES-dependent translation. Furthermore, smiFISH experiments demonstrate the recruitment of IRES-containing mRNA into paraspeckle during hypoxia. Our data reveal that the long non-coding RNA Neat1 , an essential paraspeckle component, is a key translational regulator, active on IRESs of (lymph)angiogenic and cardioprotective factor mRNAs. In addition, paraspeckle proteins p54 nrb and PSPC1 as well as nucleolin and RPS2, two p54 nrb -interacting proteins identified by mass spectrometry, are ITAFs for IRES subgroups. Paraspeckle thus appears as a platform to recruit IRES-containing mRNAs and possibly host IRESome assembly. Polysome PCR array shows that Neat1 isoforms regulate IRES-dependent translation and, more widely, translation of mRNAs involved in stress response.