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腺病毒染色质结构的改变先于感染后早期基因的激活。

Changes in adenoviral chromatin organization precede early gene activation upon infection.

机构信息

Biochemie Zentrum Regensburg, University of Regensburg, Regensburg, Germany.

Laboratory of Epigenetics and Metabolism, Institute for Molecular and Cellular Regulation, Gunma University, Gunma, Japan.

出版信息

EMBO J. 2023 Oct 4;42(19):e114162. doi: 10.15252/embj.2023114162. Epub 2023 Aug 29.

DOI:10.15252/embj.2023114162
PMID:37641864
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10548178/
Abstract

Within the virion, adenovirus DNA associates with the virus-encoded, protamine-like structural protein pVII. Whether this association is organized, and how genome packaging changes during infection and subsequent transcriptional activation is currently unclear. Here, we combined RNA-seq, MNase-seq, ChIP-seq, and single genome imaging during early adenovirus infection to unveil the structure- and time-resolved dynamics of viral chromatin changes as well as their correlation with gene transcription. Our MNase mapping data indicates that the adenoviral genome is arranged in precisely positioned nucleoprotein particles with nucleosome-like characteristics, that we term adenosomes. We identified 238 adenosomes that are positioned by a DNA sequence code and protect about 60-70 bp of DNA. The incoming adenoviral genome is more accessible at early gene loci that undergo additional chromatin de-condensation upon infection. Histone H3.3 containing nucleosomes specifically replaces pVII at distinct genomic sites and at the transcription start sites of early genes. Acetylation of H3.3 is predominant at the transcription start sites and precedes transcriptional activation. Based on our results, we propose a central role for the viral pVII nucleoprotein architecture, which is required for the dynamic structural changes during early infection, including the regulation of nucleosome assembly prior to transcription initiation. Our study thus may aid the rational development of recombinant adenoviral vectors exhibiting sustained expression in gene therapy.

摘要

在病毒粒子内,腺病毒 DNA 与病毒编码的、类似于鱼精蛋白的结构蛋白 pVII 结合。目前尚不清楚这种结合是否有序,以及基因组包装在感染和随后的转录激活过程中如何发生变化。在这里,我们结合 RNA-seq、MNase-seq、ChIP-seq 和早期腺病毒感染过程中的单基因组成像,揭示了病毒染色质变化的结构和时间分辨动力学及其与基因转录的相关性。我们的 MNase 图谱数据表明,腺病毒基因组排列在具有核小体样特征的精确定位的核蛋白颗粒中,我们称之为腺粒体。我们鉴定了 238 个腺粒体,它们由 DNA 序列编码定位,并保护约 60-70bp 的 DNA。在感染过程中,早期基因座的腺病毒基因组更容易接近,并且会发生额外的染色质去凝聚。含有组蛋白 H3.3 的核小体特异性地在特定的基因组位点和早期基因的转录起始位点取代 pVII。H3.3 的乙酰化在转录起始位点占主导地位,并先于转录激活。基于我们的结果,我们提出了病毒 pVII 核蛋白结构的核心作用,这对于早期感染过程中的动态结构变化很重要,包括在转录起始之前调节核小体组装。因此,我们的研究可能有助于理性开发在基因治疗中表现出持续表达的重组腺病毒载体。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5091/10548178/553287b7ba7b/EMBJ-42-e114162-g002.jpg
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