PERK Promotes Cancer Cell Proliferation and Tumor Growth by Limiting Oxidative DNA Damage

Overview

Journal Oncogene

Specialties Molecular Biology
Oncology

Date 2010 May 11

PMID 20453876

Citations 167

Authors

E Bobrovnikova-Marjon

C Grigoriadou

D Pytel

F Zhang

J Ye

C Koumenis

D Cavener

J A Diehl

Affiliations

Soon will be listed here.

Abstract

To proliferate and expand in an environment with limited nutrients, cancer cells co-opt cellular regulatory pathways that facilitate adaptation and thereby maintain tumor growth and survival potential. The endoplasmic reticulum (ER) is uniquely positioned to sense nutrient deprivation stress and subsequently engage signaling pathways that promote adaptive strategies. As such, components of the ER stress-signaling pathway represent potential antineoplastic targets. However, recent investigations into the role of the ER resident protein kinase, RNA-dependent protein kinase (PKR)-like ER kinase (PERK) have paradoxically suggested both pro- and anti-tumorigenic properties. We have used animal models of mammary carcinoma to interrogate the contribution of PERK in the neoplastic process. The ablation of PERK in tumor cells resulted in impaired regeneration of intracellular antioxidants and accumulation of reactive oxygen species triggering oxidative DNA damage. Ultimately, PERK deficiency impeded progression through the cell cycle because of the activation of the DNA damage checkpoint. Our data reveal that PERK-dependent signaling is used during both tumor initiation and expansion to maintain redox homeostasis, thereby facilitating tumor growth.

Citing Articles

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Transcription factor EB (TFEB) activity increases resistance of TNBC stem cells to metabolic stress.

Soleimani M, Duchow M, Goyal R, Somma A, Kaoud T, Dalby K Life Sci Alliance. 2025; 8(3).

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ML385, an Nrf2 Inhibitor, Synergically Enhanced Celastrol Triggered Endoplasmic Reticulum Stress in Lung Cancer Cells.

Xu C, Chen Y, Zhou Z, Yan Y, Fu W, Zou P ACS Omega. 2024; 9(43):43697-43705.

PMID: 39493971 PMC: 11525519. DOI: 10.1021/acsomega.4c06152.

The Role of Endoplasmic Reticulum Stress on Reducing Recombinant Protein Production in Mammalian Cells.

Splichal R, Chen K, Walton S, Chan C Biochem Eng J. 2024; 210.

PMID: 39220803 PMC: 11360842. DOI: 10.1016/j.bej.2024.109434.

17-AAG Induces Endoplasmic Reticulum Stress-mediated Apoptosis in Breast Cancer Cells, Possibly Through PERK/eIF2α Up-regulation.

Suwannalert P, Panpinyaporn P, Wantanachaisaeng P, Teeppaibul T, Worawichitchaikun T, Koomsang T In Vivo. 2024; 38(5):2228-2238.

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