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Stress sensor Ire1 deploys a divergent transcriptional program in response to lipid bilayer stress

Nurulain Ho, Wei Sheng Yap, Jiaming Xu, Haoxi Wu, Jhee Hong Koh, Wilson Wen Bin Goh, Bhawana George, Shu Chen Chong, Stefan Taubert, Guillaume Thibault

2020The Journal of Cell Biology81 citationsDOIOpen Access PDF

Abstract

Membrane integrity at the endoplasmic reticulum (ER) is tightly regulated, and its disturbance is implicated in metabolic diseases. Using an engineered sensor that activates the unfolded protein response (UPR) exclusively when normal ER membrane lipid composition is compromised, we identified pathways beyond lipid metabolism that are necessary to maintain ER integrity in yeast and in C. elegans. To systematically validate yeast mutants that disrupt ER membrane homeostasis, we identified a lipid bilayer stress (LBS) sensor in the UPR transducer protein Ire1, located at the interface of the amphipathic and transmembrane helices. Furthermore, transcriptome and chromatin immunoprecipitation analyses pinpoint the UPR as a broad-spectrum compensatory response wherein LBS and proteotoxic stress deploy divergent transcriptional UPR programs. Together, these findings reveal the UPR program as the sum of two independent stress responses, an insight that could be exploited for future therapeutic intervention.

Topics & Concepts

Unfolded protein responseEndoplasmic reticulumCell biologyTransmembrane proteinLipid metabolismBiologyMutantMembrane proteinChemistryBiochemistryGeneMembraneReceptorEndoplasmic Reticulum Stress and DiseaseFungal and yeast genetics researchGenetics, Aging, and Longevity in Model Organisms
Stress sensor Ire1 deploys a divergent transcriptional program in response to lipid bilayer stress | Litcius