溴结构域蛋白4的结构和功能及其抑制剂在肿瘤研究中的应用

溴结构域和超末端结构域(bromodomain and extraterminal domain, Bet)家族是表观基因组的调节因子,也是肿瘤细胞生存所依赖的肿瘤相关基因表达的关键驱动因子。溴结构域蛋白4 (bromodomain-containing protein 4, Brd4)是溴域和端外蛋白家族中的一员,通常识别乙酰化组蛋白,并定位于目的基因的启动子或增强子区域,启动并维持肿瘤相关基因的表达。Brd4与多种转录因子调控和染色质修饰密切相关,并参与DNA损伤修复、维持端粒功能,从而维持肿瘤细胞的存活。本文围绕Brd4蛋白的结构、功能及其抑制剂在肿瘤研究中的应用进行综述。     

Biochemical Characterization of Hpa2 and Hpa3, Two Small Closely Related Acetyltransferases from Saccharomyces cerevisiae

Based on their sequences, the Saccharomyces cerevisiae Hpa2 and Hpa3 proteins are annotated as two closely related members of the Gcn5 acetyltransferase family. Here, we describe the biochemical characterization of Hpa2 and Hpa3 as bona fide acetyltransferases with different substrate specificities. Mutational and MALDI-TOF analyses showed that Hpa3 translation initiates primarily from Met-19 rather than the annotated start site, Met-1, with a minor product starting at Met-27. When expressed in Escherichia coli and assayed in vitro, Hpa2 and Hpa3 (from Met-19) acetylated histones and polyamines. Whereas Hpa2 acetylated histones H3 and H4 (at H3 Lys-14, H4 Lys-5, and H4 Lys-12), Hpa3 acetylated only histone H4 (at Lys-8). Additionally, Hpa2, but not Hpa3, acetylated certain small basic proteins. Hpa3, but not Hpa2, has been reported to acetylate d-amino acids, and we present results consistent with that. Overexpression of Hpa2 or Hpa3 is toxic to yeast cells. However, their deletions do not show any standard phenotypic defects. These results suggest that Hpa2 and Hpa3 are similar but distinct acetyltransferases that might have overlapping roles with other known acetyltransferases in vivo in acetylating histones and other small proteins.