Abstract
The endoplasmic reticulum (ER) responds to changes in intracellular homeostasis through activation of the unfolded protein response (UPR). Yet, it is not known how UPR-signaling coordinates adaptation versus cell death. Previous studies suggested that signaling through PERK/ATF4 is required for cell death. We show that high levels of ER stress (i.e., ischemia-like conditions) induce transcription of the ubiquitin ligases Siah1/2 through the UPR transducers PERK/ATF4 and IRE1/sXBP1. In turn, Siah1/2 attenuates proline hydroxylation of ATF4, resulting in its stabilization, thereby augmenting ER stress output. Conversely, ATF4 activation is reduced upon Siah1/2 KD in cultured cells, which attenuates ER stress-induced cell death. Notably, Siah1a+/−::Siah2−/− mice subjected to neuronal ischemia exhibited smaller infarct volume and were protected from ischemia-induced death, compared with the wild type (WT) mice. In all, Siah1/2 constitutes an obligatory fine-tuning mechanism that predisposes cells to death under severe ER stress conditions.
Highlights
The endoplasmic reticulum (ER) plays a central role in the folding, assembly, and modification of secretory and cell membrane proteins [1,2]
The unfolded protein response (UPR) is coordinated by three main ER-proximal sensors that respond to increased levels of unfolded proteins: ATF6a, IRE1a, and PERK (PKR-like ER kinase) [3,4,7]
We identify a new layer in the regulation of the UPR, which determines the magnitude of this response
Summary
The endoplasmic reticulum (ER) plays a central role in the folding, assembly, and modification of secretory and cell membrane proteins [1,2]. Deregulated protein folding affects diverse cellular processes, including transcription, translation, cell cycle, and cell death [3,4]. The UPR is coordinated by three main ER-proximal sensors that respond to increased levels of unfolded proteins: ATF6a (activating transcription factor 6), IRE1a (inositol-requiring protein 1), and PERK (PKR-like ER kinase) [3,4,7]. Activated PERK phosphorylates the eukaryotic initiation factor 2 on the alpha subunit (eIF2a), resulting in an overall attenuation of mRNA translation [12,13]. Global protein production is reduced following UPR, the translation of a select group of mRNAs, including the transcription factor ATF4, is increased following PERK activation, via alternative AUG initiation codon selection that occurs when eIF2a is inactivated by phosphorylation [13,14,15]
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