Abstract
Over 25% of active NASA astronauts are women who will be exposed to low daily doses and dose rates of galactic cosmic rays (GCR) in space. We hypothesized that exposing mice to a preliminary simulated GCR mixed heavy ion beam composed of iron, silicon, and titanium ions induces follicle depletion and dose-dependent ovarian tumors. Female mice were exposed to 10, or 20 cGy each of Fe, Si, and Ti ions or sham-irradiation in quick succession within 15 min for total doses of 0, 30, or 60 cGy of the three beams. 16 months later, their ovaries were removed. Hyperplasia of the ovarian surface epithelium (OSE) was noted in 13%, 59%, and 22% of the 0, 30, and 60 cGy irradiated mice, respectively. The prevalence of mixed ovarian tumors was 0, 6, and 89%, respectively, in the 0, 30, and 60 cGy groups. Low numbers of Ki67 positive OSE and tumor cells supported a benign tumor phenotype. In a separate study, Si ion irradiation alone at 32 cGy did not induce ovarian tumors in mice; however, the mixed heavy ions at all doses and Si ion irradiation alone reduced the total number of healthy ovarian follicles. Mixed heavy ion exposure reduced lipid peroxidation, fibrosis, inflammation, and lipofuscin accumulation at 60 cGy compared to 0 cGy, but elevated inflammation and lipofuscin accumulation at 30 cGy compared to 60 cGy. Preliminary simulated GCR exposure causes ovarian follicle death and tumorigenesis. This study provides insight into space-radiation induced ovarian damage and cancer risk in females.