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神经分化因子区分雄性大鼠脑中盐皮质激素受体与糖皮质激素受体的DNA结合情况。

NeuroD Factors Discriminate Mineralocorticoid From Glucocorticoid Receptor DNA Binding in the Male Rat Brain.

作者信息

van Weert Lisa T C M, Buurstede Jacobus C, Mahfouz Ahmed, Braakhuis Pamela S M, Polman J Annelies E, Sips Hetty C M, Roozendaal Benno, Balog Judit, de Kloet E Ronald, Datson Nicole A, Meijer Onno C

机构信息

Department of Medicine, Division of Endocrinology, Leiden University Medical Center, 2300 RC, Leiden, The Netherlands.

Department of Cognitive Neuroscience, Radboud University Medical Center, 6500 HB, Nijmegen, The Netherlands.

出版信息

Endocrinology. 2017 May 1;158(5):1511-1522. doi: 10.1210/en.2016-1422.

DOI:10.1210/en.2016-1422
PMID:28324065
Abstract

In the limbic brain, mineralocorticoid receptors (MRs) and glucocorticoid receptors (GRs) both function as receptors for the naturally occurring glucocorticoids (corticosterone/cortisol) but mediate distinct effects on cellular physiology via transcriptional mechanisms. The transcriptional basis for specificity of these MR- vs GR-mediated effects is unknown. To address this conundrum, we have identified the extent of MR/GR DNA-binding selectivity in the rat hippocampus using chromatin immunoprecipitation followed by sequencing. We found 918 and 1450 nonoverlapping binding sites for MR and GR, respectively. Furthermore, 475 loci were co-occupied by MR and GR. De novo motif analysis resulted in a similar binding motif for both receptors at 100% of the target loci, which matched the known glucocorticoid response element (GRE). In addition, the Atoh/NeuroD consensus sequence was found in co-occurrence with all MR-specific binding sites but was absent for GR-specific or MR-GR overlapping sites. Basic helix-loop-helix family members Neurod1, Neurod2, and Neurod6 showed hippocampal expression and were hypothesized to bind the Atoh motif. Neurod2 was detected at rat hippocampal MR binding sites but not at GR-exclusive sites. All three NeuroD transcription factors acted as DNA-binding-dependent coactivators for both MR and GR in reporter assays in heterologous HEK293 cells, likely via indirect interactions with the receptors. In conclusion, a NeuroD family member binding to an additional motif near the GRE seems to drive specificity for MR over GR binding at hippocampal binding sites.

摘要

在边缘脑区,盐皮质激素受体(MRs)和糖皮质激素受体(GRs)均作为天然存在的糖皮质激素(皮质酮/皮质醇)的受体发挥作用,但通过转录机制介导对细胞生理学的不同影响。这些MR介导与GR介导的效应特异性的转录基础尚不清楚。为了解决这一难题,我们利用染色质免疫沉淀测序技术确定了大鼠海马体中MR/GR DNA结合选择性的程度。我们分别发现了918个和1450个MR和GR的非重叠结合位点。此外,475个位点被MR和GR共同占据。从头基序分析在100%的靶位点上为两种受体产生了相似的结合基序,该基序与已知的糖皮质激素反应元件(GRE)匹配。此外,Atoh/NeuroD共有序列在所有MR特异性结合位点同时出现,但在GR特异性或MR-GR重叠位点不存在。碱性螺旋-环-螺旋家族成员Neurod1、Neurod2和Neurod6在海马体中表达,并被推测与Atoh基序结合。在大鼠海马体MR结合位点检测到Neurod2,但在GR独有的位点未检测到。在异源HEK293细胞的报告基因检测中,所有三种NeuroD转录因子均作为MR和GR的DNA结合依赖性共激活因子,可能是通过与受体的间接相互作用。总之,一个与GRE附近的另一个基序结合的NeuroD家族成员似乎在海马体结合位点驱动MR比GR结合的特异性。

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