The cerebellum is known to influence motor behavior and to enable smooth, c
oordinated movements. Recent evidence also suggests that the cerebellum con
tributes to non-motor behavior, including components of cognition and regul
ation of affective state. This review summarizes the organization and circu
itry of the cerebellum as a basis for understanding newly emerging concepts
about the function of this neuronal system. The cerebellum consists of sev
eral divisions with separate functions. One region is associated with the v
estibular system and another with brainstem and spinal cord. A third region
, the cerebrocerebellum, has extensive interconnections with cerebral corte
x and is likely to be involved in motor coordination and regulation of non-
motor behavior. The cerebellar cortex is made up of radial modules of inter
connected neurons. The Purkinje cell is the principle integrating neuron an
d focal point of each module. Other neuron types include the granule cell a
nd three inhibitory interneurons. The Purkinje cell integrates excitatory i
nputs from climbing and parallel fibers, while its axon modulates activity
of neurons in the deep nuclei, which represents the final outflow from cere
bellum to other parts of the brain. Cerebellar circuitry exhibits a strong
parasagittal organization based on climbing fiber input and the distributio
ns of neuronal proteins and neuronal vulnerability to insults. The combinat
ion of this parasagittal circuitry with the mediolateral course of parallel
fibers results in a Cartesian coordinate system which is likely to be a cr
ucial factor in its signal processing function. Although numerous details o
f cerebellar microcircuitry, synaptic transmission and signal transduction
have been determined, the functional contribution of cerebellar signalling
to brain function remains highly enigmatic.