Low-dose radiation decreases tumor progression via the inhibition of the JAK1/STAT3 signaling axis in breast cancer cell lines
Author:
Publisher
Springer Science and Business Media LLC
Subject
Multidisciplinary
Link
http://www.nature.com/articles/srep43361.pdf
Reference37 articles.
1. Wei, L. X., Zha, Y. R. & Tao, Z. F. Epidemiological investigation of radiological effects in high background radiation areas of Yangjiang, China. J Radiat Res, J Radiat Res. 31, 119–36 (1990).
2. Lehrer, S. & Rosenzweig, K. E. Lung cancer hormesis in high impact states where nuclear testing occurred. Clin Lung Cancer. 16, 152–5 (2015).
3. Nambi, K. S. & Soman, S. D. Environmental radiation and cancer in India. Health Phys. 52, 653–7 (1987).
4. Kamiya, K. et al. Long-term effects of radiation exposure on health. Lancet. 386, 469–78 (2015)
5. Cheda, A. et al. Single low doses of X rays inhibit the development of experimental tumor metastases and trigger the activities of NK cells in mice. Radiat Res. 161, 335–40 (2004).
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