Triple-negative breast cancer (TNBC) is the most aggressive BC subtype and exhibits enhanced rates of metastasis, recurrence, and poor overall survival as compared to their non-TNBC counterparts. Due to the lack of estrogen and progesterone receptors, as well as that of Her2 overexpression, no FDA approved targeted therapies that are effective against TNBCs. As such, this aggressive BC subtype is typically treated with systemic chemotherapies as the standard of care for TNBCs. We previously established c-Abl as a novel suppressor of TNBC tumorigenesis through its inhibition of EMT, invasive, and metastatic phenotypes. Mechanistically, these c-Abl-mediated events transpired through its reactivation of p53 and p21 expression, thereby alleviating TNBC tumor development in mice. Recently, I have associated c-Abl expression with the response of TNBCs to docetaxel, as well as identified the ancient Chinese herb Securinine to mediate anticancer activities against dormant and metastatic TNBCs via a p73- and c-Abl-dependent mechanism. Therefore, I hypothesize that measures capable of activating c-Abl will alleviate TNBC development and metastatic progression. My innovative and translational studies will address the aforementioned hypothesis by determining (i) whether chemotherapeutic activation of c-Abl inhibits TNBC tumorigenicity;(ii) the value of c-Abl to predict for TNBC response to docetaxel;and (iii) the therapeutic effectiveness of Securinine to eradicate TNBCs. Collectively, my application will elucidate major translational advancements for TNBCs through administration of the allosteric c-Abl activator, DPH, together with Securinine to eradicate TNBCs. Finally, c-Abl is will be established as the first predictive biomarker capable of stratifying TNBC patients into docetaxel responders and nonresponders.

Public Health Relevance

The goal of this project is to determine the therapeutic effectiveness of novel c-Abl-directed therapies to treat metastatic breast cancer, specifically triple-negative breast cancer (TNBC) in preclinical mouse models. TNBC is the deadliest BC subtype with no FDA-approved targeted therapies, thus leaving traditional systemic chemotherapies as the standard of care. The information gained in these studies will introduce two new cytotoxic chemotherapies effective against TNBCs, as well as the first and only predictive biomarker for TNBC response to docetaxel, a standard of care chemotherapy for patients with TNBCs.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Predoctoral Individual National Research Service Award (F31)
Project #
5F31CA180670-02
Application #
8739020
Study Section
Special Emphasis Panel (ZRG1)
Program Officer
Schmidt, Michael K
Project Start
2013-09-12
Project End
2016-09-11
Budget Start
2014-09-12
Budget End
2015-09-11
Support Year
2
Fiscal Year
2014
Total Cost
Indirect Cost
Name
Case Western Reserve University
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
City
Cleveland
State
OH
Country
United States
Zip Code
44106
Morrison, Chevaun D; Chang, Jenny C; Keri, Ruth A et al. (2017) Mutant p53 dictates the oncogenic activity of c-Abl in triple-negative breast cancers. Cell Death Dis 8:e2899
Morrison, Chevaun D; Allington, Tressa M; Thompson, Cheryl L et al. (2016) c-Abl inhibits breast cancer tumorigenesis through reactivation of p53-mediated p21 expression. Oncotarget 7:72777-72794
Morrison, Chevaun D; Schiemann, William P (2015) Tipping the balance between good and evil: aberrant 14-3-3? expression drives oncogenic TGF-? signaling in metastatic breast cancers. Breast Cancer Res 17:92