| Neuron: Climbing fiber | |
|---|---|
 Microcircuitry of the cerebellum. Excitatory synapses are denoted by (+) and inhibitory synapses by (-). Climbing fiber is shown originating from the inferior olive (green). |
|
| Location | Inferior Olive and Cerebellum |
| Function | Unique excitatory function (see text) |
| Morphology | Unique projection neuron (see text) |
| Presynaptic connections | Inferior olive |
| Postsynaptic connections | Purkinje cells |
| Gray's | subject #187 796 |
Climbing fibers are the name given to a series of neuronal projections from the inferior olivary nucleus located in the medulla oblongata.[1][2]
These axons pass through the pons and enter the cerebellum via the inferior cerebellar peduncle where they form synapses with the deep cerebellar nuclei and Purkinje cells. Each climbing fiber will form synapses with 1-10 Purkinje cells.
Early in development, Purkinje cells are innervated by multiple climbing fibers, but as the cerebellum matures, these inputs gradually become eliminated resulting in a single climbing fiber input per Purkinje cell.
These fibers provide very powerful, excitatory input to the cerebellum which results in the generation of complex spike excitatory postsynaptic potential (EPSP) in Purkinje cells.[1] In this way climbing fibers (CFs) perform a central role in motor behaviors.[3]
Climbing fiber activation is thought to serve as a motor error signal sent to the cerebellum, and is an important signal for motor timing.
These climbing fibers carry information from various sources such as the spinal cord, vestibular system, red nucleus, superior colliculus, reticular formation and sensory and motor cortices.
See also
References
- ^ a b Harting, John K.; Helmrick, Kevin J. (1996,1997). "Cerebellum - Circuitry - Climbing Fibers". http://www.neuroanatomy.wisc.edu/cere/text/P4/climb.htm. Retrieved 2008-12-25.
- ^ Bear, Mark F.; Michael A. Paradiso; Barry W. Connors (2006) (Digitised online by Google Books). Neuroscience: Exploring the Brain. Lippincott Williams & Wilkins. p. 773. ISBN 0781760038, 9780781760034. http://books.google.com/books?id=75NgwLzueikC&printsec=frontcover&dq=neuroscience+exploring+the+brain. Retrieved 2008-12-25. Image of Parallel fiber
- ^ McKay, Bruce E.; Engbers, Jordan D. T., W. Hamish Mehaffey, Grant R. J. Gordon, Michael L. Molineux, Jaideep S. Bains, and Ray W. Turner (January 31, 2007), Climbing Fiber Discharge Regulates Cerebellar Functions by Controlling the Intrinsic Characteristics of Purkinje Cell Output, J Neurophysiol, doi:10.1152/jn.00627.2006., http://www.ucalgary.ca/~rwturner/files/purkinje_trimodal_cf_07.pdf, retrieved 2008-12-25
External links
- Climbing Fiber Discharge Regulates Cerebellar Functions by Controlling the intrinsic Characteristics of Purkinje Cell Output
- Spatiotemporal Tuning of Optic Flow Inputs to the Vestibulocerebellum in Pigeons: Differences Between Mossy and Climbing Fiber Pathways
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