Multiplexed Analysis of Human uORF Regulatory Functions During the ISR Using PoLib-Seq.

Abstract

Protein synthesis is a highly regulated essential process. As such, it is subjected to substantial regulation in response to stress. One hallmark of the Integrated Stress Response (ISR) is the immediate shutdown of most translation through phosphorylation of the alpha subunit of translation initiation factor eIF2 and activation of eIF4E binding proteins. While these posttranslational modifications largely inhibit cap-dependent translation, many mRNA resist this inhibition by alternative translation mechanisms involving cis-regulatory sequences and structures in 5' transcript leaders, including upstream Open Reading Frames (uORFs), Internal Ribosome Entry Sites (IRESes), and Cap-Independent Translation Elements (CITEs). Studies of uORF and IRES activity are often performed on a gene-by-gene basis; however, high-throughput methods have recently emerged. Here, we describe a protocol for Polysome Library Sequencing (PoLib-Seq; Fig. 1), a multiplexed assay of reporter gene translation that can be used during the ISR. A designer library of reporter RNAs are transfected into tissue-culture cells, and their translation is assayed via sucrose gradient fractionation followed by high-throughput sequencing. As an example, we include PoLib-seq results simultaneously assaying translation of wildtype and uORF mutant human ATF4 reporter RNAs, recapitulating the known function of uORF1 in resisting translational inhibition during the ISR.