Prof. Raj Kumar
Department of Basic Sciences, The Commonwealth Medical College, Scranton, PA, USA
Title: A novel therapeutic approach for triple-negative breast cancer
Biography
Biography: Prof. Raj Kumar
Abstract
Triple–negative breast cancer (TNBC) is frequently diagnosed in younger women and is highly aggressive with early pattern of metastasis, limited treatment options, and poor prognosis. A recent study showed that blocking glucocorticoid receptor (GR) activity could potentiate chemotherapy-induced cytotoxicity in TNBC. However, due, in part, to mainly targeting GR’s activation function domain, AF2 and largely overlooking AF1 activity, cell/tissue-specific efficacy of GR antagonists has been low. It thus is axiomatic that attempts to precisely control GR activity in TNBCs without controlling AF1 activity will be of limited success. We recently showed that the antagonist-bound receptor, which blocks coactivator interactions with AF2, opens AF1 surfaces for such interactions with coactivators including SRC-1. We also reported that TBP-induced AF1 conformation suits for SRC-1 interaction and subsequent transcriptional activity. Our western blot data also showed that the level of TBP and SRC-1 are higher in MDA-MB-231, TNBC cells compared to MCF-7 cells. Increased Expression of TBP and SRC-1 have been suggested to contribute to oncogenesis in breast cancers. Interestingly, the level of GR expression is constitutively higher in the nucleus of MDA-MB-231 cells compared to MCF-7 suggesting that the GR in TNBC may be transcriptionally active even in the absence of an endogenous hormone. Therefore the role of TBP/SRC-1/AF1 in modulating GR-mediated specific gene regulation in TNBCs may be critical. We have identified a small peptide that can block GR AF1/TBP/SRC-1. It is expected that the results from these studies may provide a novel therapeutic strategy to inhibit TNBC tumor growth.