Early Cerebellar Development in Relation to the Trigeminal System

The Nuclear Transitory Zone: A Key Player in the Cerebellar Development

The nuclear transitory zone (NTZ), while crucial during cerebellar development, has remained elusive due to its transient nature and the technical limitations in observing this dynamic structure in vivo. Traditionally considered an assembly point for immature neurons of the prospective cerebellar nuclei, recent studies highlight the NTZ's rich cellular and molecular heterogeneity in the early-developing region at the rostral end of the cerebellar primordium. While much is known about its molecular diversity, the precise functional role of NTZ in cerebellar development remains unclear. This review synthesizes current knowledge of the NTZ, focusing on its developmental origin, cellular and molecular composition, and potential role in regulating cerebellar development. We explore studies primarily conducted in mice, exploring the NTZ development from the rhombic lip, the ventricular zone, and possibly the mesencephalon. Special attention is given to molecules such as TLX3, Contactin-1 (CNTN1), OLIG2, Reelin (RELN), LMX1A, and TBR2, which are prominently expressed in the NTZ during early cerebellar development. Evidence suggests that the NTZ is more than just a neuronal assembly site; its molecular markers and gene expression profile indicate a role in circuit formation and regulation within the cerebellar primordium. We suggest that the NTZ may contribute to early cerebellar circuit formation, potentially acting as a regulator or organizer of cerebellar development. However, caution is necessary in attributing developmental roles solely based on gene expression patterns. Future studies should focus on the functional consequences of gene expression in the NTZ and its interactions with developing cerebellar circuits.

Cerebellum Lecture: the Cerebellar Nuclei-Core of the Cerebellum

The cerebellum is a key player in many brain functions and a major topic of neuroscience research. However, the cerebellar nuclei (CN), the main output structures of the cerebellum, are often overlooked. This neglect is because research on the cerebellum typically focuses on the cortex and tends to treat the CN as relatively simple output nuclei conveying an inverted signal from the cerebellar cortex to the rest of the brain. In this review, by adopting a nucleocentric perspective we aim to rectify this impression. First, we describe CN anatomy and modularity and comprehensively integrate CN architecture with its highly organized but complex afferent and efferent connectivity. This is followed by a novel classification of the specific neuronal classes the CN comprise and speculate on the implications of CN structure and physiology for our understanding of adult cerebellar function. Based on this thorough review of the adult literature we provide a comprehensive overview of CN embryonic development and, by comparing cerebellar structures in various chordate clades, propose an interpretation of CN evolution. Despite their critical importance in cerebellar function, from a clinical perspective intriguingly few, if any, neurological disorders appear to primarily affect the CN. To highlight this curious anomaly, and encourage future nucleocentric interpretations, we build on our review to provide a brief overview of the various syndromes in which the CN are currently implicated. Finally, we summarize the specific perspectives that a nucleocentric view of the cerebellum brings, move major outstanding issues in CN biology to the limelight, and provide a roadmap to the key questions that need to be answered in order to create a comprehensive integrated model of CN structure, function, development, and evolution.