Radiation-induced lung damage promotes breast cancer lung-metastasis through CXCR4 signaling


Radiotherapy is a mainstay in the postoperative treatment of breast cancer as it reduces the risks of local recurrence and mortality after both conservative surgery and mastectomy. Despite recent efforts to decrease irradiation volumes through accelerated partial irradiation techniques, late cardiac and pulmonary toxicity still occurs after breast irradiation. The importance of this pulmonary injury towards lung metastasis is unclear. Preirradiation of lung epithelial cells induces DNA damage, p53 activation and a secretome enriched in the chemokines SDF-1/CXCL12 and MIF. Irradiated lung epithelial cells stimulate adhesion, spreading, growth, and (transendothelial) migration of human MDA-MB-231 and murine 4T1 breast cancer cells. These metastasis-associated cellular activities were largely mimicked by recombinant CXCL12 and MIF. Moreover, an allosteric inhibitor of the CXCR4 receptor prevented the metastasis-associated cellular activities stimulated by the secretome of irradiated lung epithelial cells. Furthermore, partial (10%) irradiation of the right lung significantly stimulated breast cancer lung-specific metastasis in the syngeneic, orthotopic 4T1 breast cancer model.Our results warrant further investigation of the potential pro-metastatic effects of radiation and indicate the need to develop efficient drugs that will be successful in combination with radiotherapy to prevent therapy-induced spread of cancer cells.

DOI: 10.18632/oncotarget.5666

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@inproceedings{Feys2015RadiationinducedLD, title={Radiation-induced lung damage promotes breast cancer lung-metastasis through CXCR4 signaling}, author={Lynn Feys and Benedicte Descamps and Christian Vanhove and Anne Vral and Liv Veldeman and Stefan Vermeulen and Carlos De Wagter and Marc E. Bracke and Olivier de Wever}, booktitle={Oncotarget}, year={2015} }