AI Article Synopsis
- Tumor hypoxia reduces the effectiveness of radiation therapy, highlighted by the concept of oxygen enhancement ratio (OER), which is influenced by factors like pO and linear energy transfer (LET).
- Glioblastoma (GB) shows resistance to low-LET radiation (like X-rays) due to its hypoxic environment, prompting research into whether high-LET radiation, particularly carbon ion radiotherapy (CIRT), can counteract this resistance.
- The study evaluated the effects of CIRT on two human GB cell lines under varying LET conditions and found that while CIRT is generally more effective than X-rays, the presence of hypoxia continues to limit its effectiveness, with potential variations based on ERK activation and EPO signaling.
Article Abstract
Tumor hypoxia is known to limit the efficacy of ionizing radiations, a concept called oxygen enhancement ratio (OER). OER depends on physical factors such as pO and linear energy transfer (LET). Biological pathways, such as the hypoxia-inducible transcription factors (HIF), might also modulate the influence of LET on OER. Glioblastoma (GB) is resistant to low-LET radiation (X-rays), due in part to the hypoxic environment in this brain tumor. Here, we aim to evaluate in vitro whether high-LET particles, especially carbon ion radiotherapy (CIRT), can overcome the contribution of hypoxia to radioresistance, and whether HIF-dependent genes, such as erythropoietin (EPO), influence GB sensitivity to CIRT. Hypoxia-induced radioresistance was studied in two human GB cells (U251, GL15) exposed to X-rays or to carbon ion beams with various LET (28, 50, 100 keV/µm), and in genetically-modified GB cells with downregulated EPO signaling. Cell survival, radiobiological parameters, cell cycle, and ERK activation were assessed under those conditions. The results demonstrate that, although CIRT is more efficient than X-rays in GB cells, hypoxia can limit CIRT efficacy in a cell-type manner that may involve differences in ERK activation. Using high-LET carbon beams, or targeting hypoxia-dependent genes such as EPO might reduce the effects of hypoxia.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7464439 | PMC |
| http://dx.doi.org/10.3390/cancers12082019 | DOI Listing |
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