Cytokinetic Abscission Regulation in Neural Stem Cells and Tissue Development.

IF 2.3 Q4 CELL & TISSUE ENGINEERING
Current Stem Cell Reports Pub Date : 2021-12-01 Epub Date: 2021-08-11 DOI:10.1007/s40778-021-00193-7
Katrina C McNeely, Noelle D Dwyer
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引用次数: 7

Abstract

Purpose of review: How stem cells balance proliferation with differentiation, giving rise to specific daughter cells during development to build an embryo or tissue, remains an open question. Here, we discuss recent evidence that cytokinetic abscission regulation in stem cells, particularly neural stem cells (NSCs), is part of the answer. Abscission is a multi-step process mediated by the midbody, a microtubule-based structure formed in the intercellular bridge between daughter cells after mitosis.

Recent findings: Human mutations and mouse knockouts in abscission genes reveal that subtle disruptions of NSC abscission can cause brain malformations. Experiments in several epithelial systems have shown that midbodies serve as scaffolds for apical junction proteins and are positioned near apical membrane fate determinants. Abscission timing is tightly controlled and developmentally regulated in stem cells, with delayed abscission in early embryos and faster abscission later. Midbody remnants (MBRs) contain over 400 proteins and may influence polarity, fate, and ciliogenesis.

Summary: As NSCs and other stem cells build tissues, they tightly regulate three aspects of abscission: midbody positioning, duration, and MBR handling. Midbody positioning and remnants establish or maintain cell polarity. MBRs are deposited on the apical membranes of epithelia, can be released or internalized by surrounding cells, and may sequester fate determinants or transfer information between cells. Work in cell lines and simpler systems has shown multiple roles for abscission regulation influencing stem cell polarity, potency, and daughter fates during development. Elucidating how the abscission process influences cell fate and tissue growth is important for our continued understanding of brain development and stem cell biology.

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神经干细胞与组织发育中的细胞动力学脱落调控。
综述目的:干细胞如何平衡增殖和分化,在发育过程中产生特定的子细胞来构建胚胎或组织,仍然是一个悬而未决的问题。在这里,我们讨论了最近的证据,干细胞,特别是神经干细胞(NSCs)的细胞动力学脱落调节是答案的一部分。脱落是一个多步骤的过程,由中间体介导,中间体是有丝分裂后子细胞之间的细胞间桥梁中形成的微管结构。最近的发现:人类突变和小鼠脱落基因敲除表明,NSC脱落的细微破坏可引起脑畸形。在几个上皮系统中的实验表明,中间体作为顶端连接蛋白的支架,位于顶端膜命运决定因素附近。干细胞的脱落时间受到严格的控制和发育调控,早期胚胎的脱落延迟,后期的脱落更快。中间残体(MBRs)含有超过400种蛋白质,可能影响极性、命运和纤毛发生。摘要:在NSCs和其他干细胞构建组织的过程中,它们密切调控着脱位的三个方面:中体定位、持续时间和MBR处理。中体定位和残余物建立或维持细胞极性。mbr沉积在上皮的顶膜上,可被周围细胞释放或内化,并可能隔离命运决定因素或在细胞之间传递信息。在细胞系和更简单的系统中的研究表明,脱落调节在发育过程中影响干细胞极性、效力和子代命运的多种作用。阐明脱落过程如何影响细胞命运和组织生长对我们继续理解大脑发育和干细胞生物学是很重要的。
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来源期刊
Current Stem Cell Reports
Current Stem Cell Reports Biochemistry, Genetics and Molecular Biology-Genetics
CiteScore
3.30
自引率
0.00%
发文量
19
期刊介绍: The goal of this journal is to publish cutting-edge reviews on subjects pertinent to all aspects of stem cell research, therapy, ethics, commercialization, and policy. We aim to provide incisive, insightful, and balanced contributions from leading experts in each relevant domain that will be of immediate interest to a wide readership of clinicians, basic scientists, and translational investigators. We accomplish this aim by appointing major authorities to serve as Section Editors in key subject areas across the discipline. Section Editors select topics to be reviewed by leading experts who emphasize recent developments and highlight important papers published over the past year on their topics, in a crisp and readable format. We also provide commentaries from well-known figures in the field, and an Editorial Board of internationally diverse members suggests topics of special interest to their country/region and ensures that topics are current and include emerging research.
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