Abstract

Over the last 60 years, the spotlight of research has periodically returned to the cerebellum as new techniques and insights have emerged. Because of its simple homogeneous structure, limited diversity of cell types and characteristic behavioral pathologies, the cerebellum is a natural home for studies of cell specification, patterning, and neuronal migration. However, recent evidence has extended the traditional range of perceived cerebellar function to include modulation of cognitive processes and implicated cerebellar hypoplasia and Purkinje neuron hypo-cellularity with autistic spectrum disorder. In the light of this emerging frontier, we review the key stages and genetic mechanisms behind cerebellum development. In particular, we discuss the role of the midbrain hindbrain isthmic organizer in the development of the cerebellar vermis and the specification and differentiation of Purkinje cells and granule neurons. These developmental processes are then considered in relation to recent insights into selected human developmental cerebellar defects: Joubert syndrome, Dandy–Walker malformation, and pontocerebellar hypoplasia. Finally, we review current research that opens up the possibility of using the mouse as a genetic model to study the role of the cerebellum in cognitive function.

Highlights

  • The cerebellum is an intriguing component of the central nervous system

  • zinc finger protein of the cerebellum 1 (ZIC1)+/-;zinc finger protein of the cerebellum 4 (ZIC4)+/- haploinsufficiency linked to Dandy– Walker malformation (Grinberg et al, 2004; Tohyama et al, 2011)

  • We aim to demonstrate some of these new insights by discussing our current understanding of two major syndromes associated with cerebellar hypoplasia: Joubert syndrome and Dandy–Walker malformation

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Summary

INTRODUCTION

The cerebellum is an intriguing component of the central nervous system From one perspective it is a famously simple neuronanatomical circuit constructed from a relatively few neuronal types and comprising a single uniform microarchitecture (Cajal, 1894; Eccles et al, 1967). Despite the uniformity of its cellular structure, the cerebellum is divided into clear anatomical divisions on the basis of a transverse fissures that separate lobes. These are folds in what is a continuous ribbon of neural circuitry that, in humans, would extend over a meter in anteroposterior length (Braitenberg and Atwood, 1958). For the majority for the cerebellum, the targeting of output of each nucleus determines the functional output of Frontiers in Neuroanatomy www.frontiersin.org

Basson and Wingate
Cerebellar phenotype
Expanded roof plate
Severe cerebellar hypoplasia
General cerebellar hypoplasia
Cerebellar hypoplasia
Findings
Idées sur la Structure du Système

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