Early growth response protein 1 regulates promoter activity of α-plasma membrane calcium ATPase 2, a major calcium pump in the brain and auditory system

IF 2.946 Q3 Biochemistry, Genetics and Molecular Biology BMC Molecular Biology Pub Date : 2017-05-22 DOI:10.1186/s12867-017-0092-1

Rebecca R. Minich, Jin Li, Bruce L. Tempel

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引用次数: 7

Abstract

Along with sodium/calcium (Ca²⁺) exchangers, plasma membrane Ca²⁺ ATPases (ATP2Bs) are main regulators of intracellular Ca²⁺ levels. There are four ATP2B paralogs encoded by four different genes. Atp2b2 encodes the protein pump with the fastest activation, ATP2B2. In mice, the Atp2b2 transcript has several alternate transcriptional start site variants: α, β, μ and δ. These variants are expressed in developmental and tissue specific manners. The α and β Atp2b2 transcripts are equally expressed in the brain. αAtp2b2 is the only transcript found in the outer hair cells of young mice (Silverstein RS, Tempel BL. in Neuroscience 141:245–257, 2006). Mutations in the coding region of the mouse Atp2b2 gene indicate a narrow window for tolerated dysfunction of the ATP2B2 protein, specifically in the auditory system. This highlights the necessity of tight regulation of this gene for normal cell physiology.

Although ATP2Bs are important regulators of Ca²⁺ in many cell types, little is known about their transcriptional regulation. This study identifies the proximal promoter of the αAtp2b2 transcript. Further investigations indicate that ATOH1 and EGR1 modulate promoter activity. Additionally, we report that EGR1 increases endogenous expression of Atp2b2 transcript in two cell lines. Electrophoretic mobility shift assays (EMSA) indicate that EGR1 binds to a specific site in the CpG island of the αAtp2b2 promoter.

This study furthers our understanding of Atp2b2 regulation by: (I) elucidating transcriptional regulatory mechanisms for Atp2b2, and (II) identifying transcription factors that modulate expression of Atp2b2 in the brain and peripheral auditory system and (III) allows for future studies modulating gene expression of Atp2b2.

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早期生长反应蛋白1调节α-质膜钙atp酶2的启动子活性，α-质膜钙atp酶2是大脑和听觉系统的主要钙泵

与钠/钙(Ca2+)交换器一样，质膜Ca2+ atp酶(ATP2Bs)是细胞内Ca2+水平的主要调节因子。有四个ATP2B类似物由四个不同的基因编码。Atp2b2编码激活最快的蛋白泵，Atp2b2。在小鼠中，Atp2b2转录物有几个交替的转录起始位点变异:α、β、μ和δ。这些变异以发育和组织特异性的方式表达。α和β Atp2b2转录本在大脑中同样表达。αAtp2b2是唯一在幼鼠外毛细胞中发现的转录本(Silverstein RS, Tempel BL. in Neuroscience . 141:245-257, 2006)。小鼠Atp2b2基因编码区的突变表明，Atp2b2蛋白耐受性功能障碍存在狭窄的窗口，特别是在听觉系统中。这突出了对正常细胞生理进行严格调控的必要性。尽管ATP2Bs在许多细胞类型中是Ca2+的重要调节因子，但对其转录调控知之甚少。本研究确定了αAtp2b2转录本的近端启动子。进一步的研究表明，ATOH1和EGR1调节启动子活性。此外，我们报道了EGR1在两种细胞系中增加内源性Atp2b2转录物的表达。电泳迁移位移分析(EMSA)表明，EGR1与αAtp2b2启动子CpG岛的特定位点结合。本研究通过:(I)阐明了Atp2b2的转录调控机制，(II)确定了调节大脑和外周听觉系统中Atp2b2表达的转录因子，以及(III)为未来调节Atp2b2基因表达的研究奠定了基础，进一步加深了我们对Atp2b2调控的理解。

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来源期刊

BMC Molecular Biology 生物-生化与分子生物学

CiteScore

4.80

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： BMC Molecular Biology is an open access journal publishing original peer-reviewed research articles in all aspects of DNA and RNA in a cellular context, encompassing investigations of chromatin, replication, recombination, mutation, repair, transcription, translation and RNA processing and function.