Abstract
IntroductionThe transcription factor p53 can be efficiently activated by the small molecule Nutlin-3 without inducing genotoxic stress. Treatment of different cell lines with this small molecule can result in different phenotypes, ranging from cell cycle arrest to apoptosis. HCT116 (colon cancer-derived cells) and SJSA1 (osteosarcoma-derived cells) were used to model the opposite behaviour respectively, by analysing the transcriptional and translational responses after Nutlin-3 treatment.Material and methodsTotal and polysomal-bound mRNAs were collected and sequenced after 12 hour of 10 uM Nutlin-3 treatment. A bioinformatics analysis of the polysome-enriched mRNAs using Weeder allowed the identification of a 3’UTR motif (‘CG-rich’) which is enriched in the translationally upregulated genes of SJSA1. The effect of the motif on translation was evaluated after cloning its consensus sequence in the 3’UTR of the b-globin gene, which was put downstream the luciferase reporter. The activity of the construct was evaluated after 12 or 24 hours of Nutlin-3. The same consensus was used for a pull-down experiment followed by mass spectrometry to identify proteins interacting with it.Results and discussionsRNA-seq data indicate that HCT116 and SJSA1, although sharing almost completely the transcriptional program lead by p53, show almost no overlap at a translation level. SJSA1 present different pro-apoptotic translationally-upregulated genes after Nutlin-3, which have one or more instances of a CG-rich motif in the 3’UTR. The impact of the motif is to enhance the activity of the luciferase reported when cloned in two copies flanking the 3’UTR of the b-globin gene, but only in SJSA1. A pull-down experiment using an RNA bait with the consensus motif was used to identify interactors, among which DHX30 was deeply studied. DHX30 silencing in HCT116 causes: 1) enhanced the activity of the reporter construct after Nutlin; 2) polysomal association of selected mRNAs containing the motif; 3) induction of apoptosis as assessed by Annexin-V staining. In addition, silencing of DHX30 in U2OS cells decreased their survival after Nutlin-3 treatment.ConclusionWe show how a p53-dependent transcriptional program can be shaped at a translational level thanks to the action of a CG-rich motif which is enriched in the 3’UTR of some pro-apoptotic mRNAs and that can be bound by DHX30. This protein acts as a translational repressor of mRNAs containing the motif. The exact mechanism and the generalisation of the model are currently being investigated.
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