Andalusian Center for Molecular Biology and Regenerative Medicine-CABIMER, CSIC-Universidad de Sevilla-Universidad Pablo de Olavide, Av. Américo Vespucio 24, 41092, Seville, Spain.
Dipartimento di Scienze della Salute, Università degli Studi di Milano, Via A. di Rudinì 8, 20142, Milano, Italy.
Cell Death Dis. 2019 Jul 18;10(8):548. doi: 10.1038/s41419-019-1792-x.
Mutations in NIPBL are the major cause of Cornelia de Lange Syndrome (CdLS). NIPBL is the cohesin-loading factor and has recently been associated with the BET (bromodomains and extra-terminal (ET) domain) proteins BRD2 and BRD4. Related to this, a CdLS-like phenotype has been described associated to BRD4 mutations. Here, we show direct interaction of NIPBL with different BET members in yeast, and selective interaction with BRD4 in cells, being the ET domain involved in the interaction. To understand the relationship between NIPBL and BET proteins, we have performed RNA-Seq expression analysis following depletion of the different proteins. Results indicate that genes regulated by NIPBL largely overlap with those regulated by BRD4 but not with those regulated by BRD2. ChIP-Seq analysis indicates preferential NIPBL occupancy at promoters, and knockdown experiments show mutual stabilization of NIPBL and BRD4 on co-regulated promoters. Moreover, human fibroblasts from CdLS probands with mutations in NIPBL show reduced BRD4 at co-occupied promoters. Functional analysis in vivo, using mutants of Drosophila melanogaster, confirmed the genetic interaction between Nipped-B and fs(1)h, the orthologs of human NIPBL and BRD4, respectively. Thus, we provide evidence for NIPBL and BRD4 cooperation in transcriptional regulation, which should contribute to explain the recently observed CdLS-like phenotype associated with BRD4 mutations.
NIPBL 突变是 Cornelia de Lange 综合征(CdLS)的主要原因。NIPBL 是黏合蛋白加载因子,最近与 BET(溴结构域和末端(ET)结构域)蛋白 BRD2 和 BRD4 相关联。与此相关,已描述了与 BRD4 突变相关的 CdLS 样表型。在这里,我们在酵母中显示了 NIPBL 与不同 BET 成员的直接相互作用,并且在细胞中与 BRD4 选择性相互作用,其中 ET 结构域参与相互作用。为了了解 NIPBL 和 BET 蛋白之间的关系,我们进行了不同蛋白质耗竭后的 RNA-Seq 表达分析。结果表明,受 NIPBL 调节的基因与受 BRD4 调节的基因大部分重叠,但与受 BRD2 调节的基因不重叠。ChIP-Seq 分析表明 NIPBL 优先占据启动子,敲低实验表明 NIPBL 和 BRD4 在共同调节的启动子上相互稳定。此外,来自 NIPBL 突变的 CdLS 先证者的人成纤维细胞显示共同占据的启动子上 BRD4 减少。使用果蝇的突变体进行体内功能分析,证实了人类 NIPBL 和 BRD4 的同源物 Nipped-B 和 fs(1)h 之间的遗传相互作用。因此,我们提供了 NIPBL 和 BRD4 合作进行转录调控的证据,这应该有助于解释最近观察到的与 BRD4 突变相关的 CdLS 样表型。
