HnRNP A1 tethers KSRP to an exon splicing silencer that inhibits an erythroid-specific splicing event in PU.1-induced erythroleukemia.

Exon 16 inclusion is a critical splicing event that triggers the production of a functional protein 4.1R in mature normal erythroblasts, and is obviated in PU.1-induced erythroleukemia cells. Exon 16 contains an exonic splicing silencer (ESS16) that interacts with hnRNP A/B in heterologous cell context. We here show that ESS16 promotes the recruitment of a protein complex containing hnRNP A1 and a 79-kDa protein in nuclear extracts from either proliferative erythroleukemia cells or cells induced to terminal differentiation. By using 2D gel fractionation and mass spectrometry, we unambiguously identified KSRP as the 79-kDa component interacting with ESS16. Furthermore, we show that KSRP slightly decreases in erythroleukemia cells induced to terminal erythroid differentiation. Yet, KSRP inducible knockdown, through stable transfection of small hairpin KSRP RNA, did not alter exon 16 splicing, suggesting that KSRP alone does not modulate the splicing event. Interestingly, absence of hnRNP A1 prevented KSRP from binding to ESS16. Reciprocally, KSRP interaction with ESS16 was recovered when hnRNP A1 expression is restored in hnRNP A1-null cells. Collectively, this study establishes that hnRNPA1 is part of a KSRP-containing RNP complex, and emphasizes that, aside from its function in AU-rich element-mediated mRNA decay and its role in microRNA biogenesis, KSRP associates with hnRNP A1 to bind an ESS. These findings further support the role of members of the KH-domain protein family in organizing large RNA-protein complex formation, rather than primarily in modulating specific splicing events.