DNA repair and cell cycle biomarkers of radiation exposure and inflammation stress in human blood.
DNA damage and repair are hallmarks of cellular responses to ionizing radiation. We hypothesized that monitoring the expression of DNA repair-associated genes would enhance the detection of individuals exposed to radiation versus other forms of physiological stress. We employed the human blood ex vi...
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Public Library of Science (PLoS)
2012
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oai:doaj.org-article:17df597d0246421895e8519e46e569cc2021-11-18T08:09:44ZDNA repair and cell cycle biomarkers of radiation exposure and inflammation stress in human blood.1932-620310.1371/journal.pone.0048619https://doaj.org/article/17df597d0246421895e8519e46e569cc2012-01-01T00:00:00Zhttps://www.ncbi.nlm.nih.gov/pmc/articles/pmid/23144912/?tool=EBIhttps://doaj.org/toc/1932-6203DNA damage and repair are hallmarks of cellular responses to ionizing radiation. We hypothesized that monitoring the expression of DNA repair-associated genes would enhance the detection of individuals exposed to radiation versus other forms of physiological stress. We employed the human blood ex vivo radiation model to investigate the expression responses of DNA repair genes in repeated blood samples from healthy, non-smoking men and women exposed to 2 Gy of X-rays in the context of inflammation stress mimicked by the bacterial endotoxin lipopolysaccharide (LPS). Radiation exposure significantly modulated the transcript expression of 12 genes of 40 tested (2.2E-06<p<0.03), of which 8 showed no overlap between unirradiated and irradiated samples (CDKN1A, FDXR, BBC3, PCNA, GADD45a, XPC, POLH and DDB2). This panel demonstrated excellent dose response discrimination (0.5 to 8 Gy) in an independent human blood ex vivo dataset, and 100% accuracy for discriminating patients who received total body radiation. Three genes of this panel (CDKN1A, FDXR and BBC3) were also highly sensitive to LPS treatment in the absence of radiation exposure, and LPS co-treatment significantly affected their radiation responses. At the protein level, BAX and pCHK2-thr68 were elevated after radiation exposure, but the pCHK2-thr68 response was significantly decreased in the presence of LPS. Our combined panel yields an estimated 4-group accuracy of ∼90% to discriminate between radiation alone, inflammation alone, or combined exposures. Our findings suggest that DNA repair gene expression may be helpful to identify biodosimeters of exposure to radiation, especially within high-complexity exposure scenarios.Helen BudworthAntoine M SnijdersFrancesco MarchettiBrandon MannionSandhya BhatnagarEly KwohYuande TanShan X WangWilliam F BlakelyMatthew ColemanLeif PetersonAndrew J WyrobekPublic Library of Science (PLoS)articleMedicineRScienceQENPLoS ONE, Vol 7, Iss 11, p e48619 (2012) |
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Medicine R Science Q Helen Budworth Antoine M Snijders Francesco Marchetti Brandon Mannion Sandhya Bhatnagar Ely Kwoh Yuande Tan Shan X Wang William F Blakely Matthew Coleman Leif Peterson Andrew J Wyrobek DNA repair and cell cycle biomarkers of radiation exposure and inflammation stress in human blood. |
| description |
DNA damage and repair are hallmarks of cellular responses to ionizing radiation. We hypothesized that monitoring the expression of DNA repair-associated genes would enhance the detection of individuals exposed to radiation versus other forms of physiological stress. We employed the human blood ex vivo radiation model to investigate the expression responses of DNA repair genes in repeated blood samples from healthy, non-smoking men and women exposed to 2 Gy of X-rays in the context of inflammation stress mimicked by the bacterial endotoxin lipopolysaccharide (LPS). Radiation exposure significantly modulated the transcript expression of 12 genes of 40 tested (2.2E-06<p<0.03), of which 8 showed no overlap between unirradiated and irradiated samples (CDKN1A, FDXR, BBC3, PCNA, GADD45a, XPC, POLH and DDB2). This panel demonstrated excellent dose response discrimination (0.5 to 8 Gy) in an independent human blood ex vivo dataset, and 100% accuracy for discriminating patients who received total body radiation. Three genes of this panel (CDKN1A, FDXR and BBC3) were also highly sensitive to LPS treatment in the absence of radiation exposure, and LPS co-treatment significantly affected their radiation responses. At the protein level, BAX and pCHK2-thr68 were elevated after radiation exposure, but the pCHK2-thr68 response was significantly decreased in the presence of LPS. Our combined panel yields an estimated 4-group accuracy of ∼90% to discriminate between radiation alone, inflammation alone, or combined exposures. Our findings suggest that DNA repair gene expression may be helpful to identify biodosimeters of exposure to radiation, especially within high-complexity exposure scenarios. |
| format |
article |
| author |
Helen Budworth Antoine M Snijders Francesco Marchetti Brandon Mannion Sandhya Bhatnagar Ely Kwoh Yuande Tan Shan X Wang William F Blakely Matthew Coleman Leif Peterson Andrew J Wyrobek |
| author_facet |
Helen Budworth Antoine M Snijders Francesco Marchetti Brandon Mannion Sandhya Bhatnagar Ely Kwoh Yuande Tan Shan X Wang William F Blakely Matthew Coleman Leif Peterson Andrew J Wyrobek |
| author_sort |
Helen Budworth |
| title |
DNA repair and cell cycle biomarkers of radiation exposure and inflammation stress in human blood. |
| title_short |
DNA repair and cell cycle biomarkers of radiation exposure and inflammation stress in human blood. |
| title_full |
DNA repair and cell cycle biomarkers of radiation exposure and inflammation stress in human blood. |
| title_fullStr |
DNA repair and cell cycle biomarkers of radiation exposure and inflammation stress in human blood. |
| title_full_unstemmed |
DNA repair and cell cycle biomarkers of radiation exposure and inflammation stress in human blood. |
| title_sort |
dna repair and cell cycle biomarkers of radiation exposure and inflammation stress in human blood. |
| publisher |
Public Library of Science (PLoS) |
| publishDate |
2012 |
| url |
https://doaj.org/article/17df597d0246421895e8519e46e569cc |
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