孤儿核受体hB1F/hLRH-1铰链区强抑制结构域的表征。

Ping-Long Xu, Shi-Fang Shan, Yu-Ying Kong, You-Hua Xie, Yuan Wang
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摘要

人乙型肝炎病毒增强子II B1结合因子(hB1F,也称为NR5A2, LRH-1, FTF或CPF)是一种孤儿核受体,属于富氏tarazu因子I (FTZ-F1)亚家族。它在胆汁酸生物合成途径、乙型肝炎病毒(HBV)复制和肝脏特异性调控网络等多个基因的转录调控中发挥重要作用。与其他核受体一样,hB1F由模块化功能域组成。我们在其铰链区发现了一个结构域,该结构域对hB1F的转录活性施加了强烈的抑制,这对于hB1F调节HBV增强子II/核心启动子活性的功能很重要。该结构域核心残基的突变消除了抑制作用。生物信息学分析表明,该区域的氨基酸序列仅在FTZ-F1亚家族成员中高度保守。在5个细胞系中观察到这种抑制,但抑制程度差异很大,这与130 kD的DEAD box蛋白(DP103)的表达水平不平行,该蛋白是甾体生成因子1 (SF-1)同源结构域的潜在相互作用蛋白。此外,抑制不受维甲酸受体和甲状腺激素受体(SMRT)和类固醇受体共激活因子1 (SRC-1)的沉默介质的影响。总之,这些数据提示了hB1F转录活性的一种新的调控机制。
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Characterization of a strong repression domain in the hinge region of orphan nuclear receptor hB1F/hLRH-1.

Human hepatitis B virus enhancer II B1 binding factor (hB1F also known as NR5A2, LRH-1, FTF or CPF) is an orphan nuclear receptor and belongs to the fushi tarazu factor I (FTZ-F1) subfamily. It plays important roles in the transcriptional regulation of a number of genes involved in bile acid biosynthesis pathway, hepatitis B virus (HBV) replication and liver specific regulatory network. Like other nuclear receptors, hB1F is composed of modular functional domains. We characterized a domain in its hinge region that imposes a strong repression on the transcriptional activity of hB1F, which is important for the function of hB1F on regulating the activity of HBV enhancer II/core promoter. Mutations of the core residues in this domain abrogate the repression. Bioinformatic analysis reveals that the amino acid sequence of this region is highly conserved only among members of the FTZ-F1 subfamily. The repression is observed in five cell lines tested, while the degree of the repression varies greatly, which does not parallel with the expression level of the DEAD box protein of 130 kD (DP103), a potential interacting protein of a homologous domain in the steroidogenic factor 1 (SF-1). Moreover, the repression is not affected by the silencing mediator for retinoic acid receptor and thyroid hormone receptor (SMRT) and steroid receptor coactivator 1 (SRC-1). Collectively, these data suggest a novel regulatory mechanism for the transcriptional activity of hB1F.

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