非洲大鼠新皮质神经发生和成熟。

IF 4 3区 生物学 Q1 DEVELOPMENTAL BIOLOGY
Oluwaseun Mustapha, Thomas Grochow, James Olopade, Simone A Fietz
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引用次数: 0

摘要

背景:新生皮质的发育已经在啮齿类动物如小鼠和大鼠中得到了广泛的研究。为了更好地模拟和了解新皮层的发育,有必要沿着“性早熟”谱系鉴定替代动物模型。大甘蔗鼠(GCR,Thyronomys swinderians)是一种非洲本土早熟啮齿动物。尽管已经记录了GCR中大脑发育的基本方面,但缺乏关于新皮层发育的详细信息,包括GCR中不同类型神经祖细胞(NPC)的出现和丰度。方法:从妊娠50~140天的定时妊娠母鼠中获得GCR胚胎和胎儿,并使用NPC、神经元和神经胶质细胞的特征标记蛋白通过免疫荧光染色分析其新皮层。将数据与密切相关的早熟和异性物种(即豚鼠和侏儒兔)的现有数据进行比较。结果:神经和胶质生成以及神经元成熟的主要序列保留在产前GCR新皮层中。我们发现GCR表现出70天的相对较长的皮层神经发生期。在Pax6神经发生的中晚期,室下区成为主要的NPC池 + 构成GCR新皮层中主要基础祖细胞亚型的NPC。GCR皮质板中的树突形成似乎在神经发生开始后立即开始,而轴突形成和成熟以及星形细胞发生的主要方面直到神经发生中期才开始。与豚鼠类似,GCR新皮层表现出高度成熟状态,在出生时包含树突发育良好的神经元、有髓鞘轴突和星形胶质细胞,从而为早熟哺乳动物中很大一部分新皮层生长和成熟发生在出生前的观点提供了进一步的证据。结论:总之,这项工作加深了我们对GCR的新皮层发育、在性早熟谱系中调节大脑生长和发育的时间和细胞差异及其作为神经发育研究研究模型的适用性的理解。这项研究提供的大脑发育时间表可以作为未来研究的经验参考数据和基础,以便建模和更好地理解神经发育和相关变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Neocortex neurogenesis and maturation in the African greater cane rat.

Neocortex neurogenesis and maturation in the African greater cane rat.

Neocortex neurogenesis and maturation in the African greater cane rat.

Neocortex neurogenesis and maturation in the African greater cane rat.

Background: Neocortex development has been extensively studied in altricial rodents such as mouse and rat. Identification of alternative animal models along the "altricial-precocial" spectrum in order to better model and understand neocortex development is warranted. The Greater cane rat (GCR, Thyronomys swinderianus) is an indigenous precocial African rodent. Although basic aspects of brain development in the GCR have been documented, detailed information on neocortex development including the occurrence and abundance of the distinct types of neural progenitor cells (NPCs) in the GCR are lacking.

Methods: GCR embryos and fetuses were obtained from timed pregnant dams between gestation days 50-140 and their neocortex was analyzed by immunofluorescence staining using characteristic marker proteins for NPCs, neurons and glia cells. Data were compared with existing data on closely related precocial and altricial species, i.e. guinea pig and dwarf rabbit.

Results: The primary sequence of neuro- and gliogenesis, and neuronal maturation is preserved in the prenatal GCR neocortex. We show that the GCR exhibits a relatively long period of cortical neurogenesis of 70 days. The subventricular zone becomes the major NPC pool during mid-end stages of neurogenesis with Pax6 + NPCs constituting the major basal progenitor subtype in the GCR neocortex. Whereas dendrite formation in the GCR cortical plate appears to initiate immediately after the onset of neurogenesis, major aspects of axon formation and maturation, and astrogenesis do not begin until mid-neurogenesis. Similar to the guinea pig, the GCR neocortex exhibits a high maturation status, containing neurons with well-developed dendrites and myelinated axons and astrocytes at birth, thus providing further evidence for the notion that a great proportion of neocortex growth and maturation in precocial mammals occurs before birth.

Conclusions: Together, this work has deepened our understanding of neocortex development of the GCR, of the timing and the cellular differences that regulate brain growth and development within the altricial-precocial spectrum and its suitability as a research model for neurodevelopmental studies. The timelines of brain development provided by this study may serve as empirical reference data and foundation in future studies in order to model and better understand neurodevelopment and associated alterations.

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来源期刊
Neural Development
Neural Development 生物-发育生物学
CiteScore
6.60
自引率
0.00%
发文量
11
审稿时长
>12 weeks
期刊介绍: Neural Development is a peer-reviewed open access, online journal, which features studies that use molecular, cellular, physiological or behavioral methods to provide novel insights into the mechanisms that underlie the formation of the nervous system. Neural Development aims to discover how the nervous system arises and acquires the abilities to sense the world and control adaptive motor output. The field includes analysis of how progenitor cells form a nervous system during embryogenesis, and how the initially formed neural circuits are shaped by experience during early postnatal life. Some studies use well-established, genetically accessible model systems, but valuable insights are also obtained from less traditional models that provide behavioral or evolutionary insights.
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