Abstract

Abstract Breast cancer is the most common malignancy diagnosed among women worldwide and represents a heterogeneous group of subtypes. Radiation therapy is an important component of multimodal treatment for women with breast cancer. However, little is known about radiation response among these subtypes. Recent clinical data suggests that distinct patterns of response to systemic therapy may exist in association with each phenotype. Therefore, understanding the intrinsic variation of radiation response in breast cancer subtypes is important in prescribing individualized radiotherapy that maximizes the therapeutic ratio. Our previous studies have identified marked changes in gene expression in breast patient tumors and breast tumor cell lines in response to radiation. Among candidate genes, FAS was consistently and significantly induced after radiation in luminal breast tumors and cell lines. Modulation of FAS in basal breast cancer cell lines favorably impacted radiation response. In this study, we further investigated the role of FAS modulation and radiation response in a mouse model of breast cancer. MCF7 (luminal), HCC1954 (HER2+) or SUM159 (basal) cells were implanted orthotopically into the dorsal mammary fat pad of nude mice. These mice were then treated with different doses of radiation. Our results showed that radiation treatment inhibited MCF7, and to a less extent HCC1954 tumor growth in a dose-dependent manner, while SUM159 tumors were resistant to radiation. The estimated TCD50 value was 19.30 Gy for MCF7 and 44.88 Gy for SUM159. FAS was induced in MCF7 tumors after radiation but showed no change in SUM159 tumors. To investigate whether FAS modulation can affect radiation response, we silenced FAS in MCF7 tumors and activated FAS in SUM159 tumors. We found that silencing of FAS did not negatively impact radiation response in MCF7 tumors, possibly due to compensation by other apoptotic pathways. On the other hand, FAS activating antibody in combination with radiation delayed SUM159 and HCC1954 tumor growth (p = NS). In conclusion, these results suggest that there is intrinsic variation in radiation response among breast cancer subtypes. FAS concurrent with radiation slows tumor growth in the radiation resistant subtypes, but the effect was not significant. Alternative subtype-specific modulators of radiation response are under investigation. Citation Format: Chen-Ting Lee, Yingchun Zhou, Kingshuk R. Choudhury, Sharareh Siamakpour Reihani, Mark W. Dewhirst, Janet K. Horton. Subtype-specific radiation response in human breast cancer and potential therapeutic effect of FAS death receptor modulation. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 1656.

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