Structural mechanisms to produce differential dendritic gains

The axons of sacral parasympathetic preganglionic neurons (PGNs) originate on a primary dendrite between 10 and 110 μm from the soma. Therefore, it was hypothesized that the location of the axon origin would impact the relative efficacy of ipsilateral and contralateral synaptic inputs. The morpholog...

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Bibliographic Details
Published in:Brain research 2005-02, Vol.1033 (2), p.117-127
Main Authors: Lee, Dongchul C., Jensen, Alicia L., Schiefer, Matthew A., Morgan, Charles W., Grill, Warren M.
Format: Article
Language:English
Subjects:
Action Potentials - physiology
Animals
Axon
Axons - physiology
Biological and medical sciences
Cats
Cell Size
CNS
Computational neuroscience
Dendrites - physiology
Fundamental and applied biological sciences. Psychology
General aspects. Models. Methods
Neural model
Preganglionic
Synapses - physiology
Vertebrates: nervous system and sense organs
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Summary:The axons of sacral parasympathetic preganglionic neurons (PGNs) originate on a primary dendrite between 10 and 110 μm from the soma. Therefore, it was hypothesized that the location of the axon origin would impact the relative efficacy of ipsilateral and contralateral synaptic inputs. The morphology of two PGNs was reconstructed, and the transfer impedance was used to quantify the influence of synaptic inputs on the transmembrane potential at the axon initial segment. The ratio of ipsilateral transfer impedance to contralateral transfer impedance (termed the relative gain) was increased by 14–29% for axons originating from the dendrite vs. axons originating from the soma. The addition of 50 synchronized “gating” synapses on the proximal dendrites increased the relative gain by 17–38% when the axon originated from the dendrite, but only by 11–15% when the axon originated from the soma. The efficacy of synaptic inputs and the ability of proximal gating synapses to regulate synaptic efficacy were strongly influenced by the site of origin of the axon. The position of axon origin is an effective structural mechanism to regulate the relative efficacy of synaptic inputs arriving at different locations on the dendritic tree.
ISSN:0006-8993
1872-6240
DOI:10.1016/j.brainres.2004.11.034