Publication: Compartmentation of the granular layer of the cerebellum
Authors
Ozol, K.O. ; Hawkes, R.
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Publisher
Murcia : F. Hernández
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DOI
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info:eu-repo/semantics/article
Description
Abstract
Numerous studies have demonstrated that the
cerebellum is highly compartmentalized. In most cases,
compartmentation involves the Purkinje cells and the
molecular layer, but there is also substantial evidence
that the granular layer is subdivided into a large
number of highly reproducible modules. We first
review the evidence for a modular granular layer.
Compartmentation of the granular layer has been
revealed both functionally and structurally. First, tactile
receptive field mapping has revealed numerous discrete
functional modules within the granular layer. The
molecular correlates of the receptive fields may be the
compartments revealed by histological staining of the
cerebellum for several enzymes and antigens. The
structural substrate of the receptive fields is the mossy
fiber afferent projection map, and anterograde tracing of
various mossy fiber projections shows afferent terminals
in parasagittal bands within the granular layer that are
topographically aligned with the Purkinje cell
compartments. Based on this evidence we argue that the
cerebellum consists of many hundreds of reproducible
structural/functiona1 modules, and that a modular
organization is a prerequisite for the efficient parallel
processing of information during motor control.
The complex organization of the adult granular layer implies elaborate developmental mechanisms. In
the second part of the review we consider five
developmental models to generate the modular
organization of the adult granular layer: 1) the external
granular layer is heterogeneous, and its topography
translates directly into a modular granular layer; 2)
granular layer modules are clones, derived from single
external granular layer precursors; 3) modules in the
granular layers are a secondary epigenetic response to
the compartmentation of the Purkinje cells; 4) modules
are secondary to the compartmentation of the afferent
terminal fields; 5) modules are sculpted by activitydependent
processes.
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