BACKGROUND: Radiotherapy is one of the most widely used treatments for cancer. The benefit of radiation is known to be negatively affected by tumor hypoxia and the expression of hypoxia-inducible factors (HIF), respectively. HIF-1α/ β and HIF-2α/ β are transcriptional activators of oxygen-regulated genes. The aim of the study was to examine cell type-specific effects of HIF-1α and -2α knockdown or oxygen-independent HIF-stabilisation on radiosensitivity. METHODS: Herein, we treated four different wildtype and HIF-1α- or HIF-2α-deficient human cancer cell lines, cultured under normoxic or hypoxic conditions, with ionising radiation in doses from 2 to 6 Gy and examined clonogenic survival. Furthermore, the cells were partly preincubated with a HIF-stabiliser (di-tert-butyroyl-oxymethyl-2,4-pyridine-dicarboxylate, (t)Bu-2,4-PDC). RESULTS: The results show that both hypoxia exposure and treatment with (t)Bu-2,4-PDC increased the radioresistance of human cancer cells. The HIF-mediated decrease of radioresponsiveness induced by the chemical stabiliser emerged to be as strong as the one caused by hypoxia. Clonogenic survival assays furthermore revealed that HIF-1 expression enhanced resistance to radiation, whereas knocking-down HIF-1 increased the sensitivity to radiation under normoxic as well as under hypoxic conditions. CONCLUSION: These data extend previous observations of HIF-1α and broaden the view by showing HIF-2α inverse correlation between HIF expression and prognosis for the outcome of radiotherapy.
BACKGROUND: Radiotherapy is one of the most widely used treatments for cancer. The benefit of radiation is known to be negatively affected by tumor hypoxia and the expression of hypoxia-inducible factors (HIF), respectively. HIF-1α/ β and HIF-2α/ β are transcriptional activators of oxygen-regulated genes. The aim of the study was to examine cell type-specific effects of HIF-1α and -2α knockdown or oxygen-independent HIF-stabilisation on radiosensitivity. METHODS: Herein, we treated four different wildtype and HIF-1α- or HIF-2α-deficient humancancer cell lines, cultured under normoxic or hypoxic conditions, with ionising radiation in doses from 2 to 6 Gy and examined clonogenic survival. Furthermore, the cells were partly preincubated with a HIF-stabiliser (di-tert-butyroyl-oxymethyl-2,4-pyridine-dicarboxylate, (t)Bu-2,4-PDC). RESULTS: The results show that both hypoxia exposure and treatment with (t)Bu-2,4-PDC increased the radioresistance of humancancer cells. The HIF-mediated decrease of radioresponsiveness induced by the chemical stabiliser emerged to be as strong as the one caused by hypoxia. Clonogenic survival assays furthermore revealed that HIF-1 expression enhanced resistance to radiation, whereas knocking-down HIF-1 increased the sensitivity to radiation under normoxic as well as under hypoxic conditions. CONCLUSION: These data extend previous observations of HIF-1α and broaden the view by showing HIF-2α inverse correlation between HIF expression and prognosis for the outcome of radiotherapy.
Authors: Ryon H Clarke; Shayan Moosa; Matthew Anzivino; Yi Wang; Desiree Hunt Floyd; Benjamin W Purow; Kevin S Lee Journal: PLoS One Date: 2014-10-28 Impact factor: 3.240
Authors: Jonathan Michael Harnoss; Moritz Johannes Strowitzki; Praveen Radhakrishnan; Lisa Katharina Platzer; Julian Camill Harnoss; Thomas Hank; Jun Cai; Alexis Ulrich; Martin Schneider Journal: Hypoxia (Auckl) Date: 2015-01-30