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组蛋白变体 H2A.Z.1 和 H2A.Z.2 在神经元活动诱导的 和其他即刻早期基因转录中发挥独立且特定于情境的作用。

Histone Hypervariants H2A.Z.1 and H2A.Z.2 Play Independent and Context-Specific Roles in Neuronal Activity-Induced Transcription of and Other Immediate Early Genes.

机构信息

Molecular and Cell Biology Unit, School of Natural Sciences, University of California at Merced, Merced, CA 95343.

Laboratory of Neurobiology, NIEHS, NIH, Research Triangle Park, NC 27709.

出版信息

eNeuro. 2017 Aug 24;4(4). doi: 10.1523/ENEURO.0040-17.2017. eCollection 2017 Jul-Aug.

DOI:10.1523/ENEURO.0040-17.2017
PMID:28856239
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5569379/
Abstract

The histone variant H2A.Z is an essential and conserved regulator of eukaryotic gene transcription. However, the exact role of this histone in the transcriptional process remains perplexing. In vertebrates, H2A.Z has two hypervariants, H2A.Z.1 and H2A.Z.2, that have almost identical sequences except for three amino acid residues. Due to such similarity, functional specificity of these hypervariants in neurobiological processes, if any, remain largely unknown. In this study with dissociated rat cortical neurons, we asked if H2A.Z hypervariants have distinct functions in regulating basal and activity-induced gene transcription. Hypervariant-specific RNAi and microarray analyses revealed that H2A.Z.1 and H2A.Z.2 regulate basal expression of largely nonoverlapping gene sets, including genes that code for several synaptic proteins. In response to neuronal activity, rapid transcription of our model gene is impaired by depletion of H2A.Z.2, but not H2A.Z.1. This impairment is partially rescued by codepletion of the H2A.Z chaperone, ANP32E. In contrast, under a different context (after 48 h of tetrodotoxin, TTX), rapid transcription of is impaired by depletion of either hypervariant. Such context-dependent roles of H2A.Z hypervariants, as revealed by our multiplexed gene expression assays, are also evident with several other immediate early genes, where regulatory roles of these hypervariants vary from gene to gene under different conditions. Together, our data suggest that H2A.Z hypervariants have context-specific roles that complement each other to mediate activity-induced neuronal gene transcription.

摘要

组蛋白变体 H2A.Z 是真核生物基因转录的必需和保守调节因子。然而,这种组蛋白在转录过程中的确切作用仍然令人费解。在脊椎动物中,H2A.Z 有两种超变体,H2A.Z.1 和 H2A.Z.2,它们的序列几乎相同,除了三个氨基酸残基。由于这种相似性,这些超变体在神经生物学过程中的功能特异性,如果有的话,仍然很大程度上未知。在这项使用分离的大鼠皮质神经元的研究中,我们询问 H2A.Z 超变体是否在调节基础和活性诱导的基因转录中具有不同的功能。超变体特异性 RNAi 和微阵列分析表明,H2A.Z.1 和 H2A.Z.2 调节基础表达的基因集很大程度上不重叠,包括编码几种突触蛋白的基因。在神经元活动的刺激下,我们模型基因的快速转录受到 H2A.Z.2 耗竭的损害,但不受 H2A.Z.1 的损害。这种损伤可以通过共耗竭 H2A.Z 伴侣蛋白 ANP32E 部分挽救。相比之下,在另一种情况下(四氢生物蝶呤,TTX 后 48 小时),H2A.Z.2 或 H2A.Z.1 的耗竭会损害 基因的快速转录。我们的多重基因表达分析显示,H2A.Z 超变体的这种上下文依赖性作用也存在于其他几个即时早期基因中,在不同条件下,这些超变体对这些基因的调节作用因基因而异。总之,我们的数据表明,H2A.Z 超变体具有特定于上下文的作用,相互补充以介导活性诱导的神经元基因转录。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2b55/5569379/a86ba4a35d09/enu0041723870011.jpg
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Comprehensive analysis of promoter-proximal RNA polymerase II pausing across mammalian cell types.跨哺乳动物细胞类型的启动子近端RNA聚合酶II暂停的综合分析。
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Control of Intestinal Stemness and Cell Lineage by Histone Variant H2A.Z Isoforms.组蛋白变体 H2A.Z 异构体对肠道干细胞和细胞谱系的控制。
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