Bromodomain-containing protein 4 is a protein that in humans is encoded by the BRD4 gene. [5] [6]
BRD4 is a member of the BET (bromodomain and extra terminal domain) family, which also includes BRD2, BRD3, and BRDT. [7] BRD4, similar to other BET family members, contains two bromodomains that recognize acetylated lysine residues. [8] BRD4 also has an extended C-terminal domain with little sequence homology to other BET family members. [7]
The two bromodomains in BRD4, termed BD1 and BD2, consist of 4 alpha-helices linked by 2 loops. [9] The ET domain structure is made up of 3 alpha-helices and a loop. [10] The C-terminal domain of BRD4 has been implicated in promoting gene transcription through interaction with the transcription elongation factor P-TEFb and RNA polymerase II. [11] [12] [13]
The protein encoded by this gene is homologous to the murine protein MCAP, which associates with chromosomes during mitosis, and to the human BRD2 (RING3) protein, a serine/threonine kinase. Each of these proteins contains two bromodomains, a conserved sequence motif which may be involved in chromatin targeting. This gene has been implicated as the chromosome 19 target of translocation t(15;19)(q13;p13.1), which defines the NUT midline carcinoma. Two alternatively spliced transcript variants have been described. [6]
Most cases of NUT midline carcinoma involve translocation of the BRD4 gene with NUT genes. [14] BRD4 is often required for expression of Myc and other "tumor driving" oncogenes in hematologic cancers including multiple myeloma, acute myelogenous leukemia and acute lymphoblastic leukaemia. [15]
BRD4 is a major target of BET inhibitors, [15] [16] a class of pharmaceutical drugs currently being evaluated in clinical trials.
Notably, BRD4 interacts with P-TEFb via its P-TEFb interaction domain (PID), thereby stimulating its kinase activity and stimulating its phosphorylation of the carboxy-terminal domain (CTD) of RNA polymerase II. [17] Recent review. [18]
BRD4 has been shown to interact with GATA1, [19] JMJD6, [20] RFC2, [21] RFC3, [21] RFC1, [21] RFC4 [21] and RFC5. [21]
BRD4 has also been implicated in binding with the diacetylated Twist protein, and the disruption of this interaction has been shown to suppress tumorigenesis in basal-like breast cancer. [22]
BRD4 has also been shown to interact with a variety of inhibitors, such as MS417; inhibition of BRD4 with MS417 has been shown to down-regulate NF-κB activity seen in HIV-associated kidney disease. [23] BRD4 also interacts with apabetalone (RVX-208), [24] which is being evaluated for treatment of atherosclerosis and cardiovascular disease.