Department of Biological Sciences, Indian Institute of Science Education and Research Kolkata, Mohanpur Campus, Mohanpur, Nadia, West Bengal 741246, India.
Biochemistry. 2022 Sep 6;61(17):1774-1789. doi: 10.1021/acs.biochem.2c00297. Epub 2022 Aug 17.
HBO1 [HAT bound to the origin recognition complex (ORC)], a member of the MYST family of histone acetyltransferases (HATs), was initially identified as a binding partner of ORC that acetylates free histone H3, H4, and nucleosomal H3. It functions as a quaternary complex with the BRPF (BRPF1/2/3) scaffolding protein and two accessory proteins, ING4/5 and Eaf6. Interaction of BRPF2 with HBO1 has been shown to be important for regulating H3K14 acetylation during embryonic development. However, how BRPF2 directs the HBO1 HAT complex to chromatin to regulate its HAT activity toward nucleosomal substrates remains unclear. Our findings reveal novel interacting partners of the BRPF2 bromodomain that recognizes different acetyllysine residues on the N-terminus of histone H4, H3, and H2A and preferentially binds to H4K5ac, H4K8ac, and H4K5acK12ac modifications. In addition, mutational analysis of the BRPF2 bromodomain coupled with isothermal titration calorimetry binding and pull-down assays on the histone substrates identified critical residues responsible for acetyllysine binding. Moreover, the BRPF2 bromodomain could enrich H4K5ac mark-bearing mononucleosomes compared to other acetylated H4 marks. Consistent with this, ChIP-seq analysis revealed that BRPF2 strongly co-localizes with HBO1 at histone H4K5ac and H4K8ac marks near the transcription start sites in the genome. Our study provides novel insights into how the histone binding function of the BRPF2 bromodomain directs the recruitment of the HBO1 HAT complex to chromatin to regulate gene expression.
HBO1 [帽子结合到起始识别复合物 (ORC)],一种 MYST 家族的组蛋白乙酰转移酶 (HAT),最初被鉴定为 ORC 的结合伙伴,它乙酰化游离组蛋白 H3、H4 和核小体 H3。它与 BRPF(BRPF1/2/3)支架蛋白和两个辅助蛋白 ING4/5 和 Eaf6 形成四元复合物。已经表明 BRPF2 与 HBO1 的相互作用对于调节胚胎发育过程中的 H3K14 乙酰化很重要。然而,BRPF2 如何将 HBO1 HAT 复合物引导到染色质上来调节其针对核小体底物的 HAT 活性仍不清楚。我们的研究结果揭示了 BRPF2 溴结构域的新型相互作用伙伴,该伙伴识别组蛋白 H4、H3 和 H2A 氨基末端上的不同乙酰赖氨酸残基,并优先结合 H4K5ac、H4K8ac 和 H4K5acK12ac 修饰。此外,BRPF2 溴结构域的突变分析与在组蛋白底物上进行的等温滴定量热法结合和下拉测定相结合,鉴定出负责乙酰赖氨酸结合的关键残基。此外,与其他乙酰化 H4 标记相比,BRPF2 溴结构域可以富集携带 H4K5ac 标记的单核小体。与此一致,ChIP-seq 分析表明 BRPF2 在基因组中靠近转录起始位点的 H4K5ac 和 H4K8ac 标记处与 HBO1 强烈共定位。我们的研究为 BRPF2 溴结构域的组蛋白结合功能如何将 HBO1 HAT 复合物引导到染色质以调节基因表达提供了新的见解。
