Pluto Bioinformatics

GSE69800: Ribosome profiling analysis of GADD34 null cells

Bulk RNA sequencing

Accumulation of misfolded proteins in the endoplasmic reticulum (ER) triggers the unfolded protein response (UPR), which results in the increased phosphorylation of the eukaryotic initiation factor, eIF2a, and widespread translational repression. Protein synthesis is subsequently restored following the stress-induced transcriptional upregulation of GADD34 (growth arrest and DNA damage transcript 34) protein, a regulator of an eIF2a phosphatase. Genome-wide ribosome foot-printing in WT and GADD34-/- MEFs established that GADD34 mRNA is translated in unstressed cells and identified numerous mRNAs, whose translation was dependent on GADD34 even in the absence of ER stress. Following UPR activation, temporal analyses showed that the translational profile in GADD34-/- MEFs was stalled, displaying a pattern that mirrors the early response to UPR in WT MEFs. Basal GADD34 expression is also required for de-repression of translation and displacement of ER-bound polysomes that occur in early UPR. Thus, the overall UPR response is delayed in the GADD34-/- MEFs, gradually recovering as CReP expression increased. These studies reveal a critical role for basal GADD34 in the propagation of UPR signals in MEFs and mice and suggest that delayed UPR signaling protects GADD34-/- mice from tunicamycin-induced renal toxicity. SOURCE: David ReidNicchitta Duke University

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