Zic转录因子的基因组结合特性是它们在神经元成熟过程中功能变化的基础。

IF 4.4 1区 生物学 Q1 BIOLOGY BMC Biology Pub Date : 2024-09-02 DOI:10.1186/s12915-024-01989-9
Melyssa S Minto, Jesús Emiliano Sotelo-Fonseca, Vijyendra Ramesh, Anne E West
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引用次数: 0

摘要

背景:小脑颗粒神经元(CGNs)的增殖和成熟都是由Zic转录因子家族(TFs)促进的,这就提出了一个问题:一个组成型表达的TF家族如何支持不同的发育过程?在这里,我们采用综合实验和生物信息学方法来发现 Zic TF 结合与出生后 CGN 分化过程中基因转录程序变化之间的调控关系:我们首先建立了一个生物信息学管道,将发育中小鼠小脑的Zic ChIP-seq数据与来自同一组织的其他基因组数据集进行整合。在新生小鼠小脑中,Zic TF结合主要集中在活性增强子上,这些增强子与包括Atoh1在内的发育调控TF共同结合;而在成熟小鼠小脑中,Zic TF结合则集中在启动子上,这些启动子与活性调控TF共同定位。然后,我们在分化的 CGNs 中进行了 CUT&RUN-seq 分析,以确定 Zic TF 结合的发育转变的时间过程及其与基因表达的关系。利用染色质循环将 Zic TF 结合位点映射到基因上,我们确定了一组在 Zic1 或 Zic2 敲除 CGN 的 RNA-seq 中表达发生变化的 Zic 靶基因:我们的数据表明,Zic TF 对不同的发育调控靶基因的诱导和抑制都是必需的,其机制在很大程度上与 Zic TF 结合的变化无关。我们认为,Zic TF 与其他 TF 家族的不同协作是其生物功能在 CGN 发育过程中发生转变的基础。
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Genome binding properties of Zic transcription factors underlie their changing functions during neuronal maturation.

Background: The Zic family of transcription factors (TFs) promote both proliferation and maturation of cerebellar granule neurons (CGNs), raising the question of how a single, constitutively expressed TF family can support distinct developmental processes. Here we use an integrative experimental and bioinformatic approach to discover the regulatory relationship between Zic TF binding and changing programs of gene transcription during postnatal CGN differentiation.

Results: We first established a bioinformatic pipeline to integrate Zic ChIP-seq data from the developing mouse cerebellum with other genomic datasets from the same tissue. In newborn CGNs, Zic TF binding predominates at active enhancers that are co-bound by developmentally regulated TFs including Atoh1, whereas in mature CGNs, Zic TF binding consolidates toward promoters where it co-localizes with activity-regulated TFs. We then performed CUT&RUN-seq in differentiating CGNs to define both the time course of developmental shifts in Zic TF binding and their relationship to gene expression. Mapping Zic TF binding sites to genes using chromatin looping, we identified the set of Zic target genes that have altered expression in RNA-seq from Zic1 or Zic2 knockdown CGNs.

Conclusions: Our data show that Zic TFs are required for both induction and repression of distinct, developmentally regulated target genes through a mechanism that is largely independent of changes in Zic TF binding. We suggest that the differential collaboration of Zic TFs with other TF families underlies the shift in their biological functions across CGN development.

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来源期刊
BMC Biology
BMC Biology 生物-生物学
CiteScore
7.80
自引率
1.90%
发文量
260
审稿时长
3 months
期刊介绍: BMC Biology is a broad scope journal covering all areas of biology. Our content includes research articles, new methods and tools. BMC Biology also publishes reviews, Q&A, and commentaries.
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