细胞周期退出的时间序列建模确定了 Brd4 对小脑神经发生的调控作用。

Time series modeling of cell cycle exit identifies Brd4 dependent regulation of cerebellar neurogenesis.

机构信息

Department of Psychiatry and Behavioral Sciences, Center for Therapeutic Innovation, Sylvester Comprehensive Cancer Center, Miami Project to Cure Paralysis, University of Miami Miller School of Medicine, Miami, FL, 33136, USA.

Institut de Neurociències, Departament de Biologia Cellular, Fisiologia i Immunologia, Universitat Autònoma de Barcelona, CIBERNED, Bellaterra, 08193, Spain.

出版信息

Nat Commun. 2019 Jul 10;10(1):3028. doi: 10.1038/s41467-019-10799-5.

DOI:10.1038/s41467-019-10799-5

PMID:31292434

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6620341/

Abstract

Cerebellar neuronal progenitors undergo a series of divisions before irreversibly exiting the cell cycle and differentiating into neurons. Dysfunction of this process underlies many neurological diseases including ataxia and the most common pediatric brain tumor, medulloblastoma. To better define the pathways controlling the most abundant neuronal cells in the mammalian cerebellum, cerebellar granule cell progenitors (GCPs), we performed RNA-sequencing of GCPs exiting the cell cycle. Time-series modeling of GCP cell cycle exit identified downregulation of activity of the epigenetic reader protein Brd4. Brd4 binding to the Gli1 locus is controlled by Casein Kinase 1δ (CK1 δ)-dependent phosphorylation during GCP proliferation, and decreases during GCP cell cycle exit. Importantly, conditional deletion of Brd4 in vivo in the developing cerebellum induces cerebellar morphological deficits and ataxia. These studies define an essential role for Brd4 in cerebellar granule cell neurogenesis and are critical for designing clinical trials utilizing Brd4 inhibitors in neurological indications.

摘要

小脑神经元祖细胞在不可逆地退出细胞周期并分化为神经元之前经历一系列分裂。该过程的功能障碍是许多神经疾病的基础，包括共济失调和最常见的小儿脑肿瘤——髓母细胞瘤。为了更好地定义控制哺乳动物小脑最丰富的神经元细胞——小脑颗粒细胞祖细胞（GCP）的途径，我们对退出细胞周期的 GCP 进行了 RNA 测序。GCP 细胞周期退出的时间序列模型鉴定出表观遗传阅读器蛋白 Brd4 的活性下调。Brd4 与 Gli1 基因座的结合受 GCP 增殖过程中酪蛋白激酶 1δ（CK1δ）依赖性磷酸化的控制，并在 GCP 细胞周期退出过程中减少。重要的是，在发育中的小脑中体内条件性删除 Brd4 会诱导小脑形态缺陷和共济失调。这些研究定义了 Brd4 在小脑颗粒细胞神经发生中的重要作用，对于设计利用 Brd4 抑制剂治疗神经学适应症的临床试验至关重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/21d3/6620341/0d8450ba4c01/41467_2019_10799_Fig1_HTML.jpg

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细胞周期退出的时间序列建模确定了 Brd4 对小脑神经发生的调控作用。

Time series modeling of cell cycle exit identifies Brd4 dependent regulation of cerebellar neurogenesis.

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