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A nonenzymatic dependency on inositol-requiring enzyme 1 controls cancer cell cycle progression and tumor growth

by Modrusan, Zora , Suzanne Van Dijk , Kan, David , Lawrence, David , Zuazo-Gaztelu, Iratxe , Oikonomidi, Ioanna , Kujala, Pekka , Ashkenazi, Avi , Segal, Ehud , Reichelt, Mike , Gaspar, Catarina J , Rudolph, Joachim , Braun, Marie-Gabrielle , Pechuan-Jorge, Ximo , Marsters, Scot , Beresini, Maureen , Clark, Kevin , Sandoval, Wendy , Klumperman, Judith , Choi, Meena

in Cancer / Cancer Biology / Cell cycle / Chromatin remodeling / Chromosomes / Cyclin-dependent kinase / Cyclin-dependent kinase inhibitors / DNA damage / Enzymatic activity / Homeostasis / Immunoelectron microscopy / Inositol / p53 Protein / Therapeutic targets / Transcription activation

2023

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A nonenzymatic dependency on inositol-requiring enzyme 1 controls cancer cell cycle progression and tumor growth

2023

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A nonenzymatic dependency on inositol-requiring enzyme 1 controls cancer cell cycle progression and tumor growth

2023

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Paper

A nonenzymatic dependency on inositol-requiring enzyme 1 controls cancer cell cycle progression and tumor growth

Modrusan, Zora,

Suzanne Van Dijk,

Kan, David,

Lawrence, David,

Zuazo-Gaztelu, Iratxe,

Oikonomidi, Ioanna,

Kujala, Pekka,

Ashkenazi, Avi,

Segal, Ehud,

Reichelt, Mike,

Gaspar, Catarina J,

Rudolph, Joachim,

Braun, Marie-Gabrielle,

Pechuan-Jorge, Ximo,

Marsters, Scot,

Beresini, Maureen,

Clark, Kevin,

Sandoval, Wendy,

Klumperman, Judith,

Choi, Meena

2023

Overview

Endoplasmic-reticulum resident inositol-requiring enzyme alpha; (IRE1) supports protein homeostasis via a cytoplasmic kinase-RNase module. Known cancer dependency on IRE1 entails its enzymatic activation of the transcription factor XBP1s and of RNA decay. We discovered that some cancer cells require IRE1 but not its enzymatic activity. IRE1 knockdown, but not enzymatic inhibition or XBP1 disruption, increased DNA damage and chromosome instability while engaging the TP53 pathway and cyclin-dependent kinase inhibitors and attenuating cell cycle progression. IRE1 depletion downregulated factors involved in chromosome replication and segregation and in chromatin remodeling. Immunoelectron microscopy indicated that endogenous IRE1 can localize to the nuclear envelope. Thus, cancer cells can require IRE1 either enzymatically or nonenzymatically, with significant implications for IRE1's biological role and therapeutic targeting.Competing Interest StatementThe authors have declared no competing interest.

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Publisher

Cold Spring Harbor Laboratory Press,Cold Spring Harbor Laboratory

Subject

Cancer

/ Cancer Biology

/ Cell cycle

/ Chromatin remodeling

/ Chromosomes

/ Cyclin-dependent kinase

/ Cyclin-dependent kinase inhibitors