Abstract
Estrogen receptor positive (ER (+) ) subtypes of mammary adenocarcinoma comprise 79% of all breast cancer diagnosis and 67% of all breast cancer mortality. The paucity of models of ER (+) mammary cancer that mimic human disease and response to treatment has limited critical preclinical study of mechanisms and new therapies for ER (+) breast cancer. The Stat1 knockout, 129S6/SvEvTac-Stat1 (tm1Rds) ( Stat1 (-/-) ), females develop luminal type FoxA1 (+) , ER (+) , and PR (+) mammary carcinomas after prolonged latencies. Initial studies showed that a cell line derived from a Stat1-/- mammary carcinoma was tumorigenic in syngeneic mice, but non-tumorigenic in ovariectomized (Ovx) mice. Here, data shows that Ovx performed after SSM2 tumors establish growth results in ovarian hormone independent growth. The viable post-Ovx tumors were primarily composed of metaplastic CK14 (+) basal type cells with a high percentage p53 immunohistochemistry (IHC) positive "mutation pattern", rather than the original luminal type tumors with low percent "wild type" pattern p53. Comparing whole exome sequences of ER (+) Stat1 (-/-) mammary tumors before and after Ovx, revealed basal keratins, mesenchymal (EMT) phenotypes, and unique mutation profiles in genes, including Trp53 and Prlr, in the estrogen-independent tumors. Our experimental findings are consistent with the clinical evidence of tumor heterogeneity of ER (+) breast cancers in patients in recent whole genome sequencing studies. Similarly, spontaneous Stat1-/- tumors with high percentage p53 "mutation pattern" were more basaloid and grew rapidly after Ovx, while retaining high expression of ER and FoxA1. This study demonstrates that the STAT1 (-/-) , ER (+) estrogen dependent breast cancers can become resistant to through clonal selection of mammary cells comprised of metaplastic p53 (+) /CK14 (+) basaloid cells.