Abstract C061: The impact of the BRG1/BRM-associated factor (BAF) complex on the androgen receptor cistrome in African American prostate cancer

Abstract

Abstract We aimed to establish in prostate cancer (PCa) how and why the androgen receptor displays differential functions in a manner driven by genomic ancestry, namely between African American (AA) and European American (EA) PCa, with the goal to assess how this may contribute to PCa health disparities. We utilized EA and AA non-malignant prostate and PCa cell models with confirmed genomic ancestry and defined the basal and dihydrotestosterone (DHT)-regulated AR and H3K27ac cistromes using CUT&RUN, and integrated these data with publicly available genomic counterparts. The DHT-dependent AR and H3K27ac cistromes significantly overlapped within AA cells and EA cells but there was significantly less overlap between AA and EA cells. For example, H3K27ac distributions were frequent (~15-20k sites) in each of non-malignant AA RC43N and EA HPr1AR, and malignant RC43T and LNCaP, and the significance of the overlaps were comparable for basal and DHT treated cells, but this was not significantly impacted by ancestry. By contrast the AR cistrome was highly DHT-dependent, with ~2k sites notably in LNCaP and RC43T, which very significantly overlapped with H3K27ac in the same cells but significantly less so across cells. Thus, although the H3K27ac cistrome was comparable across cells, the overlap with AR was driven by genomic ancestry. To investigate this, we focused on the BAF complexes as previously we identified reduced expression of a key component, SMARCA5, in AA PCa. These large multimeric complexes regulate nucleosome positioning during gene transcription and DNA repair. In PCa, the cBAF complex impacts different transcription factors, including ERG, and it is tempting to speculate that the corruption of cBAF identified in AA PCa phenocopies the impact of TMPRSS2-ETS impact observed in EA PCa. To test the possibility that the cBAF complex corrupts AR genomic functions in AA PCa we exploited scRNA-Seq data from PCa organoids from the Rb and Pten double knockout (PBCre4:Rb1f/f:Pten f/f ) to establish that expression of genes in the cBAF genes complex were collectively significantly altered in neuroendocrine PCa (NEPC) and Pouf23 androgen indifferent lineages. Secondly, knockdown of another cBAF component, SMARCC1, enhanced Enzalutamide sensitivity in same organoids. Finally, to test the impact of cBAF complex on AR signaling we have generated AA and EA PCa cell lines that stably express dCRISPR-activator (VP64) or repressor (KRAB) proteins and designed gRNAs to regulate expression of, for example, SMARCA5 and measure the impact on the AR cistrome and function. In summary, these findings identified that the shared AR and H3K27ac cistromes are driven by genomic ancestry, and that reduced expression of SMARCA5 and other components of the cBAF complex are significant in AA and advanced PCa, and impact AR signaling. Our future directions are focused on how SMARCA5 expression disrupts the balance between transcription factor functions, such as for the AR and other transcription factors, and effective DNA repair. Citation Format: Shahid S. Hussain, Debasis Nayak, David W. Goodrich, Clayton Yates, Moray Campbell. The impact of the BRG1/BRM-associated factor (BAF) complex on the androgen receptor cistrome in African American prostate cancer [abstract]. In: Proceedings of the 16th AACR Conference on the Science of Cancer Health Disparities in Racial/Ethnic Minorities and the Medically Underserved; 2023 Sep 29-Oct 2;Orlando, FL. Philadelphia (PA): AACR; Cancer Epidemiol Biomarkers Prev 2023;32(12 Suppl):Abstract nr C061.