A Novel Model of Estrogen Receptor-Positive Breast Cancer Bone Metastasis with Antiestrogen Responsiveness

Abstract

AbstractMost women diagnosed with breast cancer (BC) have estrogen receptor alpha positive (ER+) disease. ER+ BC preferentially metastasizes to bone; at which time it is considered incurable. Treatments for bone metastasis have not advanced in decades, in part due to a lack of appropriate ER+ BC bone metastasis models. We developed an immunocompetent ER+ BC murine model with spontaneous bone metastasis and antiestrogen responsiveness. To do this, we transduced triple-negative (TN) bone-tropic murine BC cell lines 4T1.2 and E0771/Bone to express ERα. These cells were then injected into the mammary fat pads of Balb/c (n=21) or C57Bl/6 (n=27), respectively. Once tumors established, mice were treated with either the selective estrogen receptor modulator (SERM) tamoxifen (TAM), the selective estrogen receptor degrader (SERD) ICI 182,780 (ICI, Faslodex, fulvestrant), or vehicle control for 21 days. Tumor volumes and weights significantly decreased in the ER+ groups treated with TAM and ICI compared with ER+ vehicle-treated groups. Staining for immune profiles and total RNA sequencing demonstrated modified immune cell infiltration between TN and ER-derived tumors. Approximately 25% of the mice with ER+ 4T1.2 tumors developed metastases to long bones while none of the mice with TN tumors developed metastases. This immunocompetent ER+ 4T1.2 BC model may allow for further exploration of ER+ BC bone metastasis mechanisms and for the development of new therapeutics for women diagnosed with bone metastasis from ER+ BC.Simple SummaryEstrogen receptor alpha positive (ER+) breast cancer is the most common subtype of breast cancer. When it metastasizes to bone, it becomes incurable. Little advancement has occurred in the treatment of bone metastasis from ER+ breast cancer, partly due to the lack of animal models. To establish an animal model of ER+ BC, we genetically modified two triple-negative breast cancer cell lines to express ERα and injected the cell lines into murine mammary glands. Mice were treated with standard antiestrogen therapies, the selective estrogen receptor modulator tamoxifen or the selective estrogen receptor degrader ICI 182,780. We found that compared to mice with triple-negative breast cancer, mice with ER+ breast cancer developed bone metastases and were responsive to antiestrogen therapy. This model allows for further exploration of bone metastasis mechanisms and for the development of new therapeutics, translating into improved clinical outcomes for women with bone metastasis from ER+ breast cancer.