Targeting bromodomain-containing proteins has emerged as a promising therapeutic strategy and multiple clinical studies indicate that bromodomain (BD) inhibitors can act as anticancer and anti-inflammatory agents. Bromodomain-containing protein 7 (BRD7) is a subunit of the SWI/SNF chromatin remodeling complex, which is involved in the fine-tuning of gene expression through changes in the organization of DNA. It regulates the progression of different types of cancers such as nasopharyngeal carcinoma and hormone-dependent breast and ovarian cancers. BRD7 is also implicated in progression of prostate cancer, another hormone-dependent malignancy; however, the role of BRD7 in this type of cancer is undefined. (Figure 1) We have characterized BRD7 as an oncogenic driver across a variety of prostate cancer cell lines, implicating BRD7 inhibitors as a potential therapeutic strategy to combat therapy resistant cancers.
To develop inhibitors of BRD7 we are developing small molecules that bind selectively to the bromodomain of BRD7. The main challenge when developing BRD7 BD inhibitors is the high similarity to the BRD9 BD, its closest homolog. Several dual inhibitors of BRD7 and BRD9 have been developed, all of them being more selective for the BRD9 BD over the BRD7 BD. Using the X-ray crystal structure of both BDs bound to a BRD9-selective inhibitor, we identified an accessible hydrophobic region in the binding pocket of BRD7 that is not present in BRD9, which we hypothesized could be exploited to develop BRD7-selective inhibitors. Based on this structural difference in the BRD7 binding pocket, we designed a library of compounds that share a bi-aryl methylated lactam core. (Figure 2)
From in silico molecular docking simulations and in vitro affinity screenings, we have identified several ligands selective for BRD7. These compounds also display potent anti-proliferative effects in prostate cancer cell lines, providing further evidence for proposing BRD7 as a therapeutic target in prostate cancer. Our on-going work focuses on optimizing the potency and solubility properties of BRD7 inhibitors, and characterizing their selectivity using cell-based models.
NIH U01
Figure 1. Project summary. BRD7 is a subunit of the SWI/SNF chromatin remodeler and acts as an oncogenic driver in prostate cancer. Targeting BRD7 is a potential therapeutic strategy for prostate cancer patients.; Figure 2. BRD7 has an accessible hydrophobic region not present in BRD9. Considering this, a set of BRD7 inhibitors was developed based on commercially available BRD9/7 inhibitors.
