Abstract
Ionizing radiation can produce adverse biological effects in astronauts during space travel. Of particular concern are the types of radiation from highly energetic, heavy, charged particles known as HZE particles. The aims of our studies are to characterize HZE particle radiation induced biological effects and evaluate the effects of l-selenomethionine (SeM) on these adverse biological effects. In this study, microarray technology was used to measure HZE radiation induced changes in gene expression, as well as to evaluate modulation of these changes by SeM. Human thyroid epithelial cells (HTori-3) were irradiated (1 GeV/n iron ions) in the presence or in the absence of 5 μM SeM. At 6 h post-irradiation, all cells were harvested for RNA isolation. Gene Chip U133Av2 from Affymetrix was used for the analysis of gene expression, and ANOVA and EASE were used for a determination of the genes and biological processes whose differential expression is statistically significant. Results of this microarray study indicate that exposure to small doses of radiation from HZE particles, 10 and 20 cGy from iron ions, induces statistically significant differential expression of 196 and 610 genes, respectively. In the presence of SeM, differential expression of 77 out of 196 genes (exposure to 10 cGy) and 336 out of 610 genes (exposure to 20 cGy) is abolished. In the presence or in the absence of SeM, radiation from HZE particles induces differential expression of genes whose products have roles in the induction of G1/S arrest during the mitotic cell cycle, as well as heat shock proteins. Some of the genes, whose expressions were affected by radiation from HZE particles and were unchanged in irradiated cells treated with SeM, have been shown to have altered expression levels in cancer cells. The conclusions of this report are that radiation from HZE particles can induce differential expression of many genes, some of which are known to play roles in the same processes that have been shown to be activated in cells exposed to radiation from photons (like cell cycle arrest in G1/S), and that supplementation with SeM abolishes HZE particle-induced differential expression of many genes. Understanding the roles that these genes play in the radiation-induced transformation of cells may help to decipher the origins of radiation-induced cancer.
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Acknowledgments
We thank Jerry Donahue from the University of Pennsylvania and the team of physicists at the NASA Space Radiation Laboratory, Brookhaven National Laboratory, for the expert technical support in performing the radiation exposures of our samples. Also, we thank Dr Don Baldwin for preparation and hybridization of microarray probes at the University of Pennsylvania Microarray Core as well as Dr John Tobias of the University of Pennsylvania Bioinformatics Core for his input on the statistical analysis of microarray data. This research was funded by a grant from NASA (National Aeronautics and Space Administration; Grant Number NAG9-1517).
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Stewart, J., Ko, Y.H. & Kennedy, A.R. Protective effects of l-selenomethionine on space radiation induced changes in gene expression. Radiat Environ Biophys 46, 161–165 (2007). https://doi.org/10.1007/s00411-006-0089-5
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DOI: https://doi.org/10.1007/s00411-006-0089-5