ER stress‐regulated translation increases tolerance to extreme hypoxia and promotes tumor growth
Meixia Bi,Christine Naczki,Marianne Koritzinsky,Diane Fels,Jaime D. Blais,Nianping Hu,Heather P. Harding,Isabelle Novoa,Mahesh A. Varia,James A. Raleigh,Donalyn Scheuner,Randal J. Kaufman,John C. Bell,David Ron,Bradly G. Wouters,Constantinos Koumenis +15 more
TLDR
It is demonstrated that cells cultured under hypoxic/anoxic conditions and transformed cells in hypoxic areas of tumors activate a translational control program known as the integrated stress response (ISR), which adapts cells to endoplasmic reticulum (ER) stress and suggests that this pathway is an attractive target for antitumor modalities.Abstract:
Tumor cell adaptation to hypoxic stress is an important determinant of malignant progression. While much emphasis has been placed on the role of HIF-1 in this context, the role of additional mechanisms has not been adequately explored. Here we demonstrate that cells cultured under hypoxic/anoxic conditions and transformed cells in hypoxic areas of tumors activate a translational control program known as the integrated stress response (ISR), which adapts cells to endoplasmic reticulum (ER) stress. Inactivation of ISR signaling by mutations in the ER kinase PERK and the translation initiation factor eIF2α or by a dominant-negative PERK impairs cell survival under extreme hypoxia. Tumors derived from these mutant cell lines are smaller and exhibit higher levels of apoptosis in hypoxic areas compared to tumors with an intact ISR. Moreover, expression of the ISR targets ATF4 and CHOP was noted in hypoxic areas of human tumor biopsy samples. Collectively, these findings demonstrate that activation of the ISR is required for tumor cell adaptation to hypoxia, and suggest that this pathway is an attractive target for antitumor modalities.read more
Citations
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Signal integration in the endoplasmic reticulum unfolded protein response
David Ron,Peter Walter +1 more
TL;DR: Together, at least three mechanistically distinct arms of the UPR regulate the expression of numerous genes that function within the secretory pathway but also affect broad aspects of cell fate and the metabolism of proteins, amino acids and lipids.
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Regulation of cancer cell metabolism
TL;DR: Interest in the topic of tumour metabolism has waxed and waned over the past century, but it has become clear that many of the signalling pathways that are affected by genetic mutations and the tumour microenvironment have a profound effect on core metabolism, making this topic once again one of the most intense areas of research in cancer biology.
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Targeting hypoxia in cancer therapy
William R. Wilson,Michael P. Hay +1 more
TL;DR: The two main approaches, namely bioreductive prodrugs and inhibitors of molecular targets upon which hypoxic cell survival depends are reviewed, and the particular challenges and opportunities these overlapping strategies present are addressed.
Journal ArticleDOI
Cell death and endoplasmic reticulum stress: disease relevance and therapeutic opportunities
Inki Kim,Wenjie Xu,John C. Reed +2 more
TL;DR: The accumulation of unfolded proteins in the endoplasmic reticulum represents a cellular stress induced by multiple stimuli and pathological conditions, which triggers an evolutionarily conserved series of signal-transduction events, which constitutes the unfolded protein response.
Journal ArticleDOI
The integrated stress response.
Karolina Pakos-Zebrucka,Izabela Koryga,Katarzyna Mnich,Mila Ljujic,Afshin Samali,Adrienne M. Gorman +5 more
TL;DR: Current understanding of the ISR signaling is reviewed and how it regulates cell fate under diverse types of stress is reviewed.
References
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Caspase-12 mediates endoplasmic-reticulum-specific apoptosis and cytotoxicity by amyloid-beta.
TL;DR: It is shown that caspase-12 is localized to the ER and activated by ER stress, including disruption of ER calcium homeostasis and accumulation of excess proteins in ER, but not by membrane- or mitochondrial-targeted apoptotic signals, which may contribute to amyloid-β neurotoxicity.
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Regulated Translation Initiation Controls Stress-Induced Gene Expression in Mammalian Cells
Heather P. Harding,Isabel Novoa,Yuhong Zhang,Huiqing Zeng,Ronald C. Wek,Matthieu Schapira,David Ron +6 more
TL;DR: Protein kinases that phosphorylate the alpha subunit of eukaryotic initiation factor 2 (eIF2alpha) are activated in stressed cells and negatively regulate protein synthesis, resulting in the induction of the downstream gene CHOP (GADD153).
Journal ArticleDOI
An Integrated Stress Response Regulates Amino Acid Metabolism and Resistance to Oxidative Stress
Heather P. Harding,Yuhong Zhang,Huiquing Zeng,Isabel Novoa,Phoebe D. Lu,Marcella Calfon,Navid Sadri,Chi Yun,Brian Popko,Richard S. Paules,David F. Stojdl,John C. Bell,Thore Hettmann,Jeffrey M. Leiden,David Ron +14 more
TL;DR: A signaling pathway initiated by eIF2alpha phosphorylation protects cells against metabolic consequences of ER oxidation by promoting the linked processes of amino acid sufficiency and resistance to oxidative stress.
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Tumor hypoxia: definitions and current clinical, biologic, and molecular aspects.
Michael Höckel,Peter Vaupel +1 more
TL;DR: Because malignant tumors no longer execute functions necessary for homeostasis (such as the production of adequate amounts of adenosine triphosphate), the physiology-based definitions of the term "hypoxia" are not necessarily valid for malignant tumor patients.
Journal ArticleDOI
Role of HIF-1alpha in hypoxia-mediated apoptosis, cell proliferation and tumour angiogenesis.
Peter Carmeliet,Yuval Dor,Jean-Marc Herbert,Dai Fukumura,Koen Brusselmans,Mieke Dewerchin,Michal Neeman,Françoise Bono,Rinat Abramovitch,Patrick H. Maxwell,Cameron J. Koch,Peter J. Ratcliffe,Lieve Moons,Rakesh K. Jain,Desire Collen,Eli Keshert +15 more
TL;DR: It is shown that hypoxia and hypoglycaemia reduce proliferation and increase apoptosis in wild-type (Hif-1α+/+) embryonic stem (ES) cells, but not in ES cells with inactivated HIF-1 α genes (HIF- 1α−/−), suggesting that there are at least two different adaptive responses to being deprived of oxygen and nutrients.