BACKGROUND AND PURPOSE: Human tumors are characterized by temporal fluctuations in oxygen tension. The biological pathways that respond to the dynamic tumor microenvironment represent potential molecular targets for cancer therapy. Anoxic conditions result in eIF2alpha dependent inhibition of overall mRNA translation, differential gene expression, hypoxia tolerance and tumor growth. The signaling pathway which governs eIF2alpha phosphorylation has therefore emerged as a potential molecular target. In this study, we investigated the role of eIF2alpha in regulating mRNA translation and hypoxia tolerance during moderate hypoxia. Since other molecular pathways that regulate protein synthesis are frequently mutated in cancer, we also assessed mRNA translation in a panel of cell lines from different origins. MATERIALS AND METHODS: Immortalized human fibroblast, transformed mouse embryo fibroblasts (MEFs) and cells from six cancer cell lines were exposed to 0.2% or 0.0% oxygen. We assayed global mRNA translation efficiency by polysome analysis, as well as proliferation and clonogenic survival. The role of eIF2alpha was assessed in MEFs harboring a homozygous inactivating mutation (S51A) as well as in U373-MG cells overexpressing GADD34 (C-term) under a tetracycline-dependent promoter. The involvement of eIF4E regulation was investigated in HeLa cells stably expressing a short hairpin RNA (shRNA) targeting 4E-BP1. RESULTS: All cells investigated inhibited mRNA translation severely in response to anoxia and modestly in response to hypoxia. Two independent genetic cell models demonstrated that inhibition of mRNA translation in response to moderate hypoxia was dependent on eIF2alpha phosphorylation. Disruption of eIF2alpha phosphorylation caused sensitivity to hypoxia and anoxia. CONCLUSIONS: Disruption of eIF2alpha phosphorylation is a potential target for hypoxia-directed molecular cancer therapy.
BACKGROUND AND PURPOSE:Humantumors are characterized by temporal fluctuations in oxygen tension. The biological pathways that respond to the dynamic tumor microenvironment represent potential molecular targets for cancer therapy. Anoxic conditions result in eIF2alpha dependent inhibition of overall mRNA translation, differential gene expression, hypoxia tolerance and tumor growth. The signaling pathway which governs eIF2alpha phosphorylation has therefore emerged as a potential molecular target. In this study, we investigated the role of eIF2alpha in regulating mRNA translation and hypoxia tolerance during moderate hypoxia. Since other molecular pathways that regulate protein synthesis are frequently mutated in cancer, we also assessed mRNA translation in a panel of cell lines from different origins. MATERIALS AND METHODS: Immortalized human fibroblast, transformed mouse embryo fibroblasts (MEFs) and cells from six cancer cell lines were exposed to 0.2% or 0.0% oxygen. We assayed global mRNA translation efficiency by polysome analysis, as well as proliferation and clonogenic survival. The role of eIF2alpha was assessed in MEFs harboring a homozygous inactivating mutation (S51A) as well as in U373-MG cells overexpressing GADD34 (C-term) under a tetracycline-dependent promoter. The involvement of eIF4E regulation was investigated in HeLa cells stably expressing a short hairpin RNA (shRNA) targeting 4E-BP1. RESULTS: All cells investigated inhibited mRNA translation severely in response to anoxia and modestly in response to hypoxia. Two independent genetic cell models demonstrated that inhibition of mRNA translation in response to moderate hypoxia was dependent on eIF2alpha phosphorylation. Disruption of eIF2alpha phosphorylation caused sensitivity to hypoxia and anoxia. CONCLUSIONS: Disruption of eIF2alpha phosphorylation is a potential target for hypoxia-directed molecular cancer therapy.
Authors: Antonio Romero-Ruiz; Lucía Bautista; Virginia Navarro; Antonio Heras-Garvín; Rosana March-Díaz; Antonio Castellano; Raquel Gómez-Díaz; María J Castro; Edurne Berra; José López-Barneo; Alberto Pascual Journal: J Biol Chem Date: 2012-02-03 Impact factor: 5.157
Authors: Twan van den Beucken; Marianne Koritzinsky; Hanneke Niessen; Ludwig Dubois; Kim Savelkouls; Hilda Mujcic; Barry Jutten; Juraj Kopacek; Sylvia Pastorekova; Albert J van der Kogel; Philippe Lambin; Willem Voncken; Kasper M A Rouschop; Bradly G Wouters Journal: J Biol Chem Date: 2009-06-29 Impact factor: 5.157
Authors: Kasper M Rouschop; Ludwig J Dubois; Tom G Keulers; Twan van den Beucken; Philippe Lambin; Johan Bussink; Albert J van der Kogel; Marianne Koritzinsky; Bradly G Wouters Journal: Proc Natl Acad Sci U S A Date: 2013-03-07 Impact factor: 11.205
Authors: Bryan C Barnhart; Jennifer C Lam; Regina M Young; Peter J Houghton; Brian Keith; M Celeste Simon Journal: Cancer Biol Ther Date: 2008-09-11 Impact factor: 4.742
Authors: Regina M Young; Shang-Jui Wang; John D Gordan; Xinjun Ji; Stephen A Liebhaber; M Celeste Simon Journal: J Biol Chem Date: 2008-04-22 Impact factor: 5.157
Authors: Kasper M A Rouschop; Twan van den Beucken; Ludwig Dubois; Hanneke Niessen; Johan Bussink; Kim Savelkouls; Tom Keulers; Hilda Mujcic; Willy Landuyt; Jan Willem Voncken; Philippe Lambin; Albert J van der Kogel; Marianne Koritzinsky; Bradly G Wouters Journal: J Clin Invest Date: 2009-12-14 Impact factor: 14.808