Low- and high-dose-rate radiation exposure alters the cellular composition and dynamics of the rat mammary epithelium for weeks preceding carcinogenesis
Kento Nagata, Yukiko Nishimura-Yano, Mayumi Nishimura, Kazuhiro Daino, Daisuke Iizuka, Keiji Suzuki, Shizuko Kakinuma, Tatsuhiko Imaoka

TL;DR
Radiation exposure, whether low or high dose, changes the makeup and behavior of cells in rat mammary tissue weeks before cancer can develop.
Contribution
The study reveals long-term cellular changes in mammary tissue after radiation exposure that may explain cancer susceptibility.
Findings
Radiation reduces the proliferative potential of luminal progenitor cells for 2 weeks but recovers by 4 weeks.
Cell composition of luminal mature cells changes 2–6 weeks after radiation, suggesting possible links to cancer risk.
No significant differences in cell cycle or death were found between low- and high-dose-rate radiation.
Abstract
In animals, low-dose-rate radiation induces cancer at a reduced rate compared with a high-dose-rate at an identical cumulative dose, although the underlying mechanism is not well understood. The immediate responses of cells to irradiation are well established, including DNA double-strand break repair, cell-cycle arrest and cell death; conversely, the changes in tissues weeks after irradiation are not well understood. We therefore analysed cellular dynamics in rat mammary tissue weeks after high- or low-dose-rate irradiation. We irradiated 5-week-old rats with 2 Gy (30 Gy/h) or 3- to 5-week-old rats with continuous 2 Gy (6 mGy/h). For histological analysis, luminal cells were identified with anti-cytokeratin (CK) 8 + 18; CK8 + 18Low cells are luminal progenitor cells, and CK8 + 18High cells are luminal mature cells. To evaluate cell composition by flow cytometry, epithelial cells were…
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Taxonomy
TopicsEffects of Radiation Exposure · Radiation Therapy and Dosimetry · Radiation Dose and Imaging
