Author:
Lee Kyungho,Tirasophon Witoon,Shen Xiaohua,Michalak Marek,Prywes Ron,Okada Tetsuya,Yoshida Hiderou,Mori Kazutoshi,Kaufman Randal J.
Abstract
All eukaryotic cells respond to the accumulation of unfolded proteins in the endoplasmic reticulum (ER) by signaling an adaptive pathway termed the unfolded protein response (UPR). In yeast, a type-I ER transmembrane protein kinase, Ire1p, is the proximal sensor of unfolded proteins in the ER lumen that initiates an unconventional splicing reaction on HAC1 mRNA. Hac1p is a transcription factor required for induction of UPR genes. In higher eukaryotic cells, the UPR also induces site-2 protease (S2P)-mediated cleavage of ER-localized ATF6 to generate an N-terminal fragment that activates transcription of UPR genes. To elucidate the requirements for IRE1α and ATF6 for signaling the mammalian UPR, we identified a UPR reporter gene that was defective for induction in IRE1α-null mouse embryonic fibroblasts and S2P-deficient Chinese hamster ovary (CHO) cells. We show that the endoribonuclease activity of IRE1α is required to splice XBP1 (X-box bindingprotein) mRNA to generate a new C terminus, thereby converting it into a potent UPR transcriptional activator. IRE1α was not required for ATF6 cleavage, nuclear translocation, or transcriptional activation. However, ATF6 cleavage was required for IRE1α-dependent induction of UPR transcription. We propose that nuclear-localized IRE1α and cytoplasmic-localized ATF6 signaling pathways merge through regulation of XBP1 activity to induce downstream gene expression. Whereas ATF6 increases the amount of XBP1mRNA, IRE1α removes an unconventional 26-nucleotide intron that increases XBP1 transactivation potential. Both processing of ATF6 and IRE1α-mediated splicing of XBP1 mRNA are required for full activation of the UPR.
Publisher
Cold Spring Harbor Laboratory
Subject
Developmental Biology,Genetics
Cited by
919 articles.
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