Abstract
Abstract Purpose/Objectives: Radiation therapy is used by more than 50% of breast cancer patients, but radiation doses can be limited by normal tissue side effects. For example, breast cancer radiation therapy can improve breast cancer-specific survival, but increase cardiac deaths in those with left-sided cancers. Identifying genetic factors that can enhance tumor radiation sensitivity while decreasing normal tissue toxicities has the potential to improve the therapeutic ratio of radiation therapy – leading to more cures and less long-term toxicities. The use of animal models with differing genetic backgrounds to assess radiation toxicity, followed by genetic mapping of radiosensitivity phenotypes, has the potential to identify new targets that can predict cardiac toxicity from radiation therapy. This project examines how genetic host factors alter normal tissue toxicity risks from breast cancer radiation. Materials/Methods: Inbred female SS rats and SS.BN3 consomic rats, that are genetically identical to SS rats except that chromosome 3 is inherited from the BN strain, have previously been shown to exhibit different vascular dynamics and breast tumor growth. For this study, adult female SS and SS.BN3 rats received image-guided whole heart radiation to a dose of 21 Gy (3 fields, AP and 2 laterals). Cardiac troponin was serially measured at 2, 6, and 12 weeks, and echocardiograms with strain analysis were performed at baseline and 3 months. The Student's t-test was used to compare values. Results: The SS female rats exhibited enhanced cardiac toxicity compared to SS.BN3 rats, with cardiac troponin levels elevated at 12 weeks (0.32 ng/ml vs.0.08 ng/ml for SS vs. SS.BN3, p=0.01), and moderate to severe pericardial effusions seen in 6 of 9 SS rats vs. 2 of 7 SS.BN3 rats. At 3 months post-radiation, echocardiograms revealed increased left ventricular posterior wall thickness at end diastole (LVPWd) in SS vs. SS.BN3 rats (0.25 vs. 0.20 cm, p=0.002) and increased left ventricular mass (LVM) in SS vs. SS.BN3 rats (1.54 vs. 1.28 g, p<0.001). Taken together, the SS female rats are more sensitive to cardiac irradiation than SS.BN3. Conclusions: These results demonstrate that genetic variant on rat chromosome 3 alter the radiosensitivity to single fraction cardiac radiation therapy. Gene expression analysis and genetic mapping will be performed to identify the causative target(s). These models will also be expanded to test whether similar results are seen with fractionated cardiac radiation therapy. This project has the potential to enhance the effectiveness and toxicity profile of radiation therapy in breast cancer. Citation Format: Bergom C, Schlaak R, Frei A, Fish BL, Harmann L, Gasperetti T, Schottstaedt AM, Flister MJ, Medhora M, Strande JL. The use of consomic animal models to identify genetic factors that modulate radiation-induced cardiac toxicity [abstract]. In: Proceedings of the 2017 San Antonio Breast Cancer Symposium; 2017 Dec 5-9; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2018;78(4 Suppl):Abstract nr P2-11-18.
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