Research Papers:
High throughput microscopy identifies bisphenol AP, a bisphenol A analog, as a novel AR down-regulator
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Abstract
Fabio Stossi1, Radhika D. Dandekar1, Michael J. Bolt1, Justin Y. Newberg1, Maureen G. Mancini1, Akash K. Kaushik1, Vasanta Putluri1, Arun Sreekumar1, Michael A. Mancini1
1Department of Molecular and Cellular Biology, Baylor College of Medicine, Houston, TX 77030, USA
Correspondence to:
Michael A. Mancini, e-mail: [email protected]
Keywords: androgen receptor, bisphenol A analogs, high throughput microscopy, AR-V7, castrate resistant prostate cancer
Received: July 05, 2015 Accepted: January 17, 2016 Published: February 24, 2016
ABSTRACT
Prostate cancer remains a deadly disease especially when patients become resistant to drugs that target the Androgen Receptor (AR) ligand binding domain. At this stage, patients develop recurring castrate-resistant prostate cancers (CRPCs). Interestingly, CRPC tumors maintain dependency on AR for growth; moreover, in CRPCs, constitutively active AR splice variants (e.g., AR-V7) begin to be expressed at higher levels. These splice variants lack the ligand binding domain and are rendered insensitive to current endocrine therapies. Thus, it is of paramount importance to understand what regulates the expression of AR and its splice variants to identify new therapeutic strategies in CRPCs. Here, we used high throughput microscopy and quantitative image analysis to evaluate effects of selected endocrine disruptors on AR levels in multiple breast and prostate cancer cell lines. Bisphenol AP (BPAP), which is used in chemical and medical industries, was identified as a down-regulator of both full length AR and the AR-V7 splice variant. We validated its activity by performing time-course, dose-response, Western blot and qPCR analyses. BPAP also reduced the percent of cells in S phase, which was accompanied by a ~60% loss in cell numbers and colony formation in anchorage-independent growth assays. Moreover, it affected mitochondria size and cell metabolism. In conclusion, our high content analysis-based screening platform was used to classify the effect of compounds on endogenous ARs, and identified BPAP as being capable of causing AR (both full-length and variants) down-regulation, cell cycle arrest and metabolic alterations in CRPC cell lines.
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