单独的神经生长抑制因子结构域结合芳烃受体核转运蛋白2(ARNT2)和缺氧诱导因子1α(HIF1α)并抑制转录。
Separate necdin domains bind ARNT2 and HIF1alpha and repress transcription.
作者信息
Friedman Eitan R, Fan Chen-Ming
机构信息
Department of Embryology, Carnegie Institution of Washington, 3520 San Martin Drive, Baltimore, MD 21218, USA.
出版信息
Biochem Biophys Res Commun. 2007 Nov 9;363(1):113-8. doi: 10.1016/j.bbrc.2007.08.108. Epub 2007 Aug 29.
Abstract
PWS is caused by the loss of expression of a set of maternally imprinted genes including NECDIN (NDN). NDN is expressed in post-mitotic neurons and plays an essential role in PWS as mouse models lacking only the Ndn gene mimic aspects of this disease. Patients haploid for SIM1 develop a PW-like syndrome. Here, we report that NDN directly interacts with ARNT2, a bHLH-PAS protein and dimer partner for SIM1. We also found that NDN can interact with HIF1alpha. We showed that NDN can repress transcriptional activation mediated by ARNT2:SIM1 as well as ARNT2:HIF1alpha. The N-terminal 115 residues of NDN are sufficient for interaction with the bHLH domains of ARNT2 or HIF1alpha but not for transcriptional repression. Using GAL4-NDN fusion proteins, we determined that NDN possesses multiple repression domains. We thus propose that NDN regulates neuronal function and hypoxic response by regulating the activities of the ARNT2:SIM1 and ARNT2:HIF1alpha dimers, respectively.
摘要
普拉德-威利综合征(PWS)是由一组母源印记基因(包括NECDIN,简称NDN)的表达缺失所引起的。NDN在有丝分裂后的神经元中表达,并且在PWS中起着至关重要的作用,因为仅缺失Ndn基因的小鼠模型可模拟该疾病的某些方面。单倍体的SIM1患者会出现类似PWS的综合征。在此,我们报告NDN直接与ARNT2相互作用,ARNT2是一种bHLH-PAS蛋白,也是SIM1的二聚体伙伴。我们还发现NDN能与HIF1α相互作用。我们表明NDN可抑制由ARNT2:SIM1以及ARNT2:HIF1α介导的转录激活。NDN的N端115个残基足以与ARNT2或HIF1α的bHLH结构域相互作用,但不足以进行转录抑制。使用GAL4-NDN融合蛋白,我们确定NDN具有多个抑制结构域。因此,我们提出NDN分别通过调节ARNT2:SIM1和ARNT2:HIF1α二聚体的活性来调节神经元功能和缺氧反应。
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