Purpose: In living organisms, sensitivity to radiation increases in the presence of oxygen (O2) compared with that under anoxic or hypoxic conditions. Here, we investigated whether O2 concentration affected the response of mitochondria to X-rays radiation, which is associated with tumor microenvironment formation via fibroblast activation in radiation-related tumors.
Materials and methods: O2 concentrations were controlled at <5% (internal environmental oxygen condition) or anoxic levels during culture of normal human diploid lung fibroblasts TIG-3 and MRC-5. Protein expression associated with the response of mitochondria to radiation was assessed using immunostaining or western blotting.
Results: Induction of DNA damage (marker: γ-H2A histone family member X) and mitochondrial signaling (AMP-activated protein kinase), suppression of mitochondrial metabolic activity, and generation of reactive oxygen species occurred with radiation in cells cultured under 5% and 20% O2 conditions. However, reducing O2 concentration mitigated the effects of radiation on cell growth, mitochondrial damage (parkin), induction of antioxidant responses (nuclear factor E2-related factor 2), and fibroblast activation (α-smooth muscle actin). Radiation did not affect the markers used in this study in the absence of O2.
Conclusion: O2 concentration affected the response of mitochondria to radiation and reactive oxygen species-mediated fibroblast activation. Higher O2 concentrations enhanced the effects of radiation on mitochondria in human fibroblasts. In vitro studies may overestimate in vivo radiation effects due to high O2 concentrations.
Keywords: Oxygen; fibroblast activation; mitochondria; radiation; reactive oxygen species (ROS).