Transcriptome-Wide RNA Interaction Profiling Reveals Physical and Functional Targets of hnRNP L in Human T Cells

Abstract

The RNA processing factor hnRNP L is required for T cell development and function. However, the spectrum of direct targets of hnRNP L activity in T cells has yet to be defined. In this study, we used cross-linking and immunoprecipitation followed by high-throughput sequencing (CLIP-seq) to identify the RNA binding sites of hnRNP L within the transcriptomes of human CD4(+) and cultured Jurkat T cells. We find that hnRNP L binds preferentially to transcripts encoding proteins involved in RNA processing and in Wnt and T cell receptor (TCR) signaling. This binding is largely conserved across both quiescent and activated T cells, in agreement with the critical role of hnRNP L throughout T cell biology. Importantly, based on the binding profile of hnRNP L, we validate numerous instances of hnRNP L-dependent alternative splicing of genes critical to T cell function. We further show that alternative exons with weak 5' splice site sequences specifically show a strong correlation between hnRNP L binding and hnRNP L-dependent splicing regulation. Together, these data provide the first transcriptome-wide analysis of the RNA targets of hnRNP L in lymphoid cells and add to the functional understanding of hnRNP L in human biology.