The bromodomain and extraterminal domain (BET) protein family are promising therapeutic targets for a range of diseases linked to transcriptional activation, cancer, viral latency, and viral integration. Tandem bromodomains selectively tether BET proteins to chromatin by engaging cognate acetylated histone marks, and the extraterminal (ET) domain is the focal point for recruiting a range of cellular and viral proteins. BET proteins guide γ-retroviral integration to transcription start sites and enhancers through bimodal interaction with chromatin and the γ-retroviral integrase (IN). We report the NMR-derived solution structure of the Brd4 ET domain bound to a conserved peptide sequence from the C terminus of murine leukemia virus (MLV) IN. The complex reveals a proteinprotein interaction governed by the binding-coupled folding of disordered regions in both interacting partners to form a wellstructured intermolecular three-stranded β sheet. In addition, we show that a peptide comprising the ET binding motif (EBM) of MLV IN can disrupt the cognate interaction of Brd4 with NSD3, and that substitutions of Brd4 ET residues essential for binding MLV IN also impair interaction of Brd4 with a number of cellular partners involved in transcriptional regulation and chromatin remodeling. This suggests that γ-retroviruses have evolved the EBM to mimic a cognate interaction motif to achieve effective integration in host chromatin. Collectively, our findings identify key structural features of the ET domain of Brd4 that allow for interactions with both cellular and viral proteins.T he bromodomain and extraterminal domain (BET) family of proteins (Brd2, 3, 4, and T) play central roles in regulating cell fate (1). They have been implicated in diverse cellular phenomena, including inflammation, obesity, spermatogenesis, cancer, DNA damage repair, viral latency, and, more recently, γ-retroviral integration site selection (2-8). Most of these functions have been associated with its dual role as epigenetic reader and transcriptional activator (1-4).The BET family of proteins, as well as the extended BET family (Brd1,7,8,and 9), is characterized by two N-terminal bromodomains and the extraterminal (ET) domain, for which the proteins are named; Brd4 is known to occur in two different isoforms, with the longer variant containing a C-terminal motif (9) (Fig. 1A). The dual bromodomains recognize and bind acetylated lysines on histone H3 and H4 tails on chromatin (9-11), thereby tethering the protein and any associated factors to those histone posttranslational modifications (PTMs). Whereas recognition of select histone marks is achieved through the bromodomains, the overall high-affinity binding to chromatin is the result of cooperative binding to both its cognate PTMs and nonspecific binding to DNA wrapped around mononucleosomes through interaction with the conserved motifs A and B (12, 13). The C-terminal domain of the long Brd4 isoform functions in activation of RNA polymerase II via interactions with pTEFb (positive transcription elo...
