BRCA1‐BARD1 complex regulates the stability of topoisomerase IIβ in transcription of human immediate early genes

Recent studies indicated that activated transcription of serum‐inducible genes in humans requires topoisomerase IIβ (TOP2B)‐mediated DNA strand break (DSB) and DNA damage response (DDR) signaling. However, the mechanisms by which TOP2B is regulated in this process are unknown. Here, we identified a novel role of BRCA1‐BARD1 complex in transcription of these genes by regulating TOP2B binding to the transcription start site (TSS). Our genomic and in vitro biochemical analyses demonstrated that BRCA1‐BARD1 complex and TOP2B colocalize in a large number of genes and physically interact for TOP2B ubiquitination. Upon transcriptional activation, BRCA1 is phosphorylated at S1524 by ataxia telangiectasia‐mutated (ATM) and ataxia telangiectasia and Rad3‐related protein (ATR). Intriguingly, unphosphorylatable BRCA1 (S1524A)‐BARD1 complex ubiquitinates TOP2B, but not WT or S1524D BRCA1. Using the TSS of a representative serum‐inducible gene, EGR1 , we found that ubiquitinated TOP2B binds to the DNA with much more stability than deubiquitinated one does. Together, our findings suggest that BRCA1‐BARD1 complex stabilizes TOP2B association with serum‐inducible genes through its E3 ligase function in transcription. Transcriptional activation induces TOP2B‐mediated DSB and DDR signaling to activate ATM/ATR that phosphorylates BRCA1 S1524. Phosphorylated BRCA1 is ineffective in ubiquitinating TOP2B, which loosens it from the DNA. We propose that this loosening may contribute to either mobility or removal of TOP2B.