Early development of the cerebellar circuits

小脑回路的早期发育

• 批准号: RGPIN-2018-06040
• 负责人: Marzban, Hassan
• 金额: $ 2.33万
• 依托单位: University of Manitoba
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2018
• 资助国家: 加拿大
• 起止时间: 2018-01-01 至 2019-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=658949
• 关键词: Early; development; cerebellar; circuits

The overall goal of my research program is to understand the mechanism driving early cerebellar development and circuit formation. The cerebellum is a part of the brain that is important for coordinating movements, emotion and cognition. Two types of neurons are central in regulating cerebellar function: cerebellar nuclei (CN) neurons and Purkinje cells (Pcs). The CN neurons and Pcs are the only neuronal populations that exist during early cerebellar development. Although the CN are the main output neurons of the cerebellum, little is known about their formation and their connectivity in early neural circuit development. We have discovered that a subset of CN neurons that express SNCA/Otx2/P75ntr (hereafter called “A-cells”) originates from the mesencephalon and migrates into the developing cerebellum. We have also provided novel information that the trigeminal nerve projects pioneer axons to the cerebellar primordium, targets A-cells. These data raise the possibility that early cerebellar circuit development depends on the trigeminal nerve, not the vestibular nerve as traditionally thought. My research will investigate how early cerebellar circuits regulate cerebellar morphogenesis and provide a migratory substrate for CN neurons. To achieve this goal I will use a combination of in vitro and in vivo models including mouse genetics, embryonic and primary cerebellar culture, whole mount and section immunohistochemistry, in situ hybridization (RNAscope), Western blotting, neuronal tract tracing, and a 3D micro-engineered model of neuronal migration. Important questions to be answered include: Do A-cells originate from mesencephalic neural crest? Do rhombic lip-derived CN neurons use A-cells/pioneer axons for migration? What is the fate of A-cells in the developing cerebellum? ***The proposed research will enhance our understanding of how early pioneer axons and their target neurons play intrinsic organizer roles in the developing cerebellum. I will investigate if A-cells are temporarily present and with pioneer axons from the trigeminal nerve test if they establish cerebellar circuit. The mechanism I propose deviates from the traditional model. I will also investigate if these new A-cells/pioneer axon combination provide a migratory substrate for the rhombic lip-derived cells to their destination. Elucidating the role of this intrinsic organizer will answer key questions about the basic biology of early cerebellar morphogenesis and development. The proposed research will be used as a vehicle to train HQP in the broad areas of developmental neurobilogy and for research scientists in the field of neuroscience.

我的研究计划的总体目标是了解驱动早期小脑发育和电路形成的机制。小脑是大脑的一部分，对协调运动，情感和认知非常重要。两种类型的神经元是调节小脑功能的中心：小脑核（CN）神经元和浦肯野细胞（Pcs）。CN神经元和Pcs是小脑发育早期存在的唯一神经元群体。虽然CN是小脑的主要输出神经元，但对它们的形成及其在早期神经回路发育中的连接知之甚少。我们已经发现，表达SNCA/Otx 2/P75 ntr的CN神经元的子集（下文称为“A细胞”）起源于中脑并迁移到发育中的小脑。我们还提供了新的信息，三叉神经项目先锋轴突小脑原基，目标是A细胞。这些数据提出了早期小脑回路发育依赖于三叉神经的可能性，而不是传统认为的前庭神经。我的研究将探讨早期小脑回路如何调节小脑形态发生，并为CN神经元提供迁移基质。为了实现这一目标，我将使用体外和体内模型的组合，包括小鼠遗传学，胚胎和原代小脑培养，整体安装和部分免疫组织化学，原位杂交（RNAscope），蛋白质印迹，神经束示踪，和神经元迁移的3D微工程模型。需要回答的重要问题包括：A细胞起源于中脑神经嵴吗？菱形唇源性CN神经元是否使用A细胞/先锋轴突迁移？A细胞在发育中的小脑中的命运是什么？* 拟议的研究将增强我们对早期先驱轴突及其靶神经元如何在发育中的小脑中发挥内在组织者作用的理解。我将研究A细胞是否暂时存在，并与三叉神经试验中的先驱轴突一起建立小脑回路。我提出的机制偏离了传统模式。我还将研究这些新的A细胞/先锋轴突组合是否为菱形唇源性细胞向其目的地提供迁移基质。阐明这种内在组织者的作用将回答有关早期小脑形态发生和发育的基础生物学的关键问题。拟议的研究将被用作工具，以培训HQP在发展神经生物学的广泛领域和研究科学家在神经科学领域。