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Using DNA Damage to Investigate the Individual Variability of Human Sensitivity to Ionizing RadiationHigh-LET ionizing radiation is a major occupational health hazard for astronauts, but risk assessment remains elusive due to limited epidemiological data. Identifying genetic factors modulating the individual radiation response may be the most effective strategy to provide individualized risk management for long-duration high-radiation missions. We have started tackling the challenge of predicting individual risks by identifying human genetic loci associated with various radiation sensitivity phenotypes in primary blood mononuclear cells from a relatively large healthy human cohort. To date, we have performed the isolation of PBMCs from 768 subjects of the same ethnicity, and irradiated PBMCs from 576 subjects with 1 and 3 particles/100µm2 of 600 MeV/n 56Fe, 350 MeV/n 40Ar and 350 MeV/n 28Si ions. The phenotypes of interest were: number of radiation-induced foci (or RIFs), CellROX oxidative stress responses and cell death, at 4h and 24h following irradiation. We have observed a significant inter-individual variability at 0 Gy between the 576 studied subjects, with a mean fold difference between the 10% lowest and highest responders of 5.6 of RIFs/cell, 7.9 in mean CellRox intensity, and 9.3 in percentage of dead cells. In order to better assess genetic factors influencing DNA repair, we used a metric previously introduced by our group to sort out radiation sensitivity phenotypes in mice: i.e. the ratio of the first to the second slope of RIFs/cell (between 0 and 1, and between 1 and 3 particle/100µm2). Preliminary data on 192 individuals showed a distribution of ?low-dose responders? (ratio > 1) to ?high-dose responders? (ratio < 1) at 4h of 12%, 55% and 52% respectively for Fe, Ar and Si. The average value for the first and the second slopes was very similar for the two lowest LET (0.10 [-0.26;0.58] and 0.09 [-0.45;0.41] for Ar, 0.07 [-0.27;0.38] and 0.08 [-0.19;0.42] for Si), indicating a linear dose response across both fluence. Fe showed clear saturation for the highest dose with a slope of -0.09 [-0.86;1.51] against 0.68 [-2.21;2.20] for the low dose range, which probably reflects that many PBMCs are beyond repair at the high dose. Note that other significances were found for additional factors ? such as BMI and age ? whereas none were found for sex. GWAS will be performed on all phenotypes upon completion of measurements.
Document ID
20190033173
Acquisition Source
Ames Research Center
Document Type
Presentation
Authors
Pariset, E.
(Universities Space Research Association (USRA) Moffett Field, CA, United States)
Malkani, S.
(Blue Marble Space Seattle, WA, United States)
Gonzalez, V. Gomez
Macha, Alejandra Lopez
Paulino Lima, Ivan G.
Cekanaviciute, E.
Costes, S. V.
Date Acquired
November 22, 2019
Publication Date
November 18, 2019
Subject Category
Life Sciences (General)
Report/Patent Number
ARC-E-DAA-TN75543
Report Number: ARC-E-DAA-TN75543
Meeting Information
Meeting: Annual Meeting of the American Society for Gravitational and Space Research
Location: Denver, CO
Country: United States
Start Date: November 20, 2019
End Date: November 23, 2019
Sponsors: American Society for Gravitational and Space Research (ASGSR)
Distribution Limits
Public
Copyright
Public Use Permitted.
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