CTCF/内聚蛋白组织染色质-核散斑结合的基态。

IF 0.8 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY MRS Advances Pub Date : 2023-10-24 DOI:10.1101/2023.07.22.550178
Ruofan Yu, Shelby Roseman, Allison P Siegenfeld, Son C Nguyen, Eric F Joyce, Brian B Liau, Ian D Krantz, Katherine A Alexander, Shelley L Berger
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引用次数: 0

摘要

细胞核内的染色质间隙含有各种无膜核体。最近的研究结果表明,核斑点由一个独特的核体组成,在基态下与某些染色质区域相互作用。关键问题是染色质-核斑点关联的基态是如何建立的,以及这层核组织的基因调控作用是什么。我们在这里报告了染色质结构因子CTCF和内聚蛋白是DNA和核斑点之间完全基态关联所必需的。通过CTCF耗竭或内聚蛋白耗竭破坏基态dna -斑点接触对斑点相关基因的基础水平表达有轻微影响,但我们发现对斑点相关基因的刺激依赖性诱导有强烈的负面影响。我们在内聚蛋白亚基RAD21中发现了一个推测的斑点靶向基序(STM),并证明了STM是染色质-核斑点关联所必需的。与CTCF或RAD21的减少相反,内聚蛋白释放因子WAPL的缺失稳定了染色质和dna -斑点接触上的内聚蛋白,从而增强了斑点相关基因的诱导性。此外,我们观察到患有科涅利亚·德·兰格综合征(CdLS)的患者来源细胞中染色质-核斑关联的破坏,这是一种先天性神经发育诊断,涉及有缺陷的内聚蛋白途径,从而揭示了核斑作为治疗探索的途径。总之,我们的发现揭示了染色质斑点关联的基本组织状态,促进基因诱导,并与人类疾病相关的机制。
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CTCF/cohesin organize the ground state of chromatin-nuclear speckle association.

The interchromatin space in the cell nucleus contains various membrane-less nuclear bodies. Recent findings indicate that nuclear speckles, comprising a distinct nuclear body, exhibit interactions with certain chromatin regions in a ground state. Key questions are how this ground state of chromatin-nuclear speckle association is established and what are the gene regulatory roles of this layer of nuclear organization. We report here that chromatin structural factors CTCF and cohesin are required for full ground state association between DNA and nuclear speckles. Disruption of ground state DNA-speckle contacts via either CTCF depletion or cohesin depletion had minor effects on basal level expression of speckle-associated genes, however we show strong negative effects on stimulus-dependent induction of speckle-associated genes. We identified a putative speckle targeting motif (STM) within cohesin subunit RAD21 and demonstrated that the STM is required for chromatin-nuclear speckle association. In contrast to reduction of CTCF or RAD21, depletion of the cohesin releasing factor WAPL stabilized cohesin on chromatin and DNA-speckle contacts, resulting in enhanced inducibility of speckle-associated genes. In addition, we observed disruption of chromatin-nuclear speckle association in patient derived cells with Cornelia de Lange syndrome (CdLS), a congenital neurodevelopmental diagnosis involving defective cohesin pathways, thus revealing nuclear speckles as an avenue for therapeutic inquiry. In summary, our findings reveal a mechanism to establish the ground organizational state of chromatin-speckle association, to promote gene inducibility, and with relevance to human disease.

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来源期刊
MRS Advances
MRS Advances MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
1.50
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0.00%
发文量
184
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