Accepted Preprint (first posted online 30 January 2014)

    Genetically engineered ERα positive breast cancer mouse models

    1. Priscilla A. Furth
    1. S Dabydeen, Oncology, Georgetown University, Washington, United States
    2. P Furth, Oncology and Medicine, Lombardi Comprehensive Cancer Center, Georgetown University, Washington, United States
    1. Correspondence: Priscilla Furth, Email: paf3{at}georgetown.edu

    Abstract

    The majority of human breast cancers are ER+ but this has proven challenging to model in genetically engineered mice. This review summarizes information on twenty-one mouse models that develop ER+ mammary cancer. Where available, information on cancer pathology and gene expression profiles is referenced to assist in understanding which histological subtype of ER+ human cancer each model might represent. Esr1, Ccdn1, prolactin, TGFα, AIB1, Espl1, and Wnt1 over-expression, Pik3ca gain of function, as well as loss of p53 or loss of Stat1 are associated with ER+ mammary cancer. Treatment with the PPARγ agonist efatutazone in a mouse with Brca1 and p53 deficiency and DMBA exposure in combination with an activated myristoylated form of AKT1 also induce ER+ mammary cancer. A spontaneous mutant in nude mice that develops metastatic ER+ mammary cancer is included. Age of cancer development ranges from three to 26 months and the percentages of cancers that are ER+ vary from 21% to 100%. Not all models are characterized as to their estrogen dependency and/or response to anti-hormonal therapy. Strain backgrounds include C57Bl/6, FVB, BALB/c, 129S6/SvEv, CB6F1 and NIH nude. Most models have only been studied on one strain background. In summary while a range of models is available for studies of pathogenesis and therapy of ER+ breast cancers, many could benefit from further characterization and opportunity for development of new models remains.

    • Received 24 November 2013
    • Revision received 25 January 2014
    • Accepted 30 January 2014
    • Accepted Preprint first posted online on 30 January 2014