Tristetraprolin-RNA interaction map reveals a novel TTP-RelB regulatory network for innate immunity gene expression.

Abstract Tristetraprolin (TTP) regulates inflammatory and immune responses by destabilizing target mRNAs via binding to their 3′-UTR AREs. We have recently reported that TTP preferentially up-regulates the expression level of innate immunity genes involved in the type I interferon-mediated signaling pathway and viral response in cancer cells. To elucidate the role of TTP-RNA interaction in TTP-mediated upregulation of gene expression, we performed iRIP-seq experiments to obtain the RNA interaction map consisting of direct and indirect binding sites of TTP in HeLa cells. We found substantial TTP binding signals in mRNA regions and the introns. ARE-motif AUUUA is over-represented in TTP binding peaks. Strikingly, AUUUA frequency is high both in 3′UTR and intronic regions, and the intronic peaks were more associated with TTP-regulated genes. Analysis of the over-represented motifs in TTP peaks revealed the high frequencies of UAGG and GUGUG motifs reported for hnRNPA2/B1 and CELF1 respectively in the 3′UTR and introns, and also the UGGAC motif overlapping with the m6A motif GGACU in the CDS regions. We further demonstrated that TTP binds to multiple intronic and exonic sites in the pre-mRNA/mRNA of the transcription factor RelB, correlating with the TTP-upregulated expression of RelB. TTP-up-regulated genes without a TTP binding site, but not those with, are highly enriched in innate immunity pathways and show higher tendency of harboring RelB binding sites in their promoter regions. These findings support a model in which TTP binding of RelB pre-mRNA/mRNA coordinates the RelB upregulation and activation of the innate immunity for antiviral response.