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Chapter 6 - Impulse Transmission Through Autonomic Ganglia

from Part III - Transmission of Signals in the Peripheral Autonomic Nervous System

Published online by Cambridge University Press:  16 July 2022

Wilfrid Jänig
Affiliation:
Christian-Albrechts Universität zu Kiel, Germany
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Summary

Synaptic transmission from preganglionic to postganglionic neurons in autonomic ganglia is cholinergic nicotinic. Most autonomic ganglia transmit the central message with high accuracy to the postganglionic neurons. This concurs with the idea that the target tissues are predominantly under the control of the central nervous system. A small number of sympathetic preganglionic neurons connect to a large number of postganglionic neurons. This divergence is primarily for distribution. Additionally, postganglionic neurons receive convergent synaptic input from several preganglionic neurons. Neurons in sympathetic paravertebral and parasympathetic ganglia and some neurons in prevertebral ganglia receive one or two suprathreshold preganglionic synaptic inputs, the rest being subthreshold. Discharges in these postganglionic neurons are generated by strong synaptic inputs but not by summation of weak synaptic inputs. Some neurons with non-vascular functions in sympathetic prevertebral ganglia receive, in addition to preganglionic inputs, cholinergic synaptic inputs from peripheral intestinofugal neurons. In many sympathetic neurons of the prevertebral ganglia, and in some parasympathetic ganglia, the central synaptic input is weak or even may play a subordinate role. Nicotinic synaptic transmission in vasoconstrictor neurons in sympathetic ganglia can be enhanced by muscarinic and non-cholinergic mechanisms.

Type
Chapter
Information
The Integrative Action of the Autonomic Nervous System
Neurobiology of Homeostasis
, pp. 167 - 199
Publisher: Cambridge University Press
Print publication year: 2022

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References

Suggested Reading

Gibbins, I. L., Jobling, P., Messenger, J. P., Teo, E. H. and Morris, J. L. (2000) Neuronal morphology and the synaptic organisation of sympathetic ganglia. J Auton Nerv Syst 81, 104109.CrossRefGoogle ScholarPubMed
Gibbins, I. L., Jobling, P., Teo, E. H., Matthew, S. E. and Morris, J. L. (2003a) Heterogeneous expression of SNAP-25 and synaptic vesicle proteins by central and peripheral inputs to sympathetic neurons. J Comp Neurol 459, 2543.CrossRefGoogle ScholarPubMed
Gibbins, I. L. and Morris, J. L. (2006) Structure of peripheral synapses: autonomic ganglia. Cell Tissue Res 326, 205220.Google Scholar
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McLachlan, E. M., Häbler, H. J., Jamieson, J. and Davies, P. J. (1998) Analysis of the periodicity of synaptic events in neurones in the superior cervical ganglion of anaesthetized rats. J Physiol 511, 461478.CrossRefGoogle ScholarPubMed
Morris, J. L. and Gibbins, I. L. (2006) Structure of peripheral synapses: autonomic ganglia. Cell Tissue Res 326, 205220.Google Scholar
Skok, V. I. (2002) Nicotinic acetylcholine receptors in autonomic ganglia. Auton Neurosci 97, 111.CrossRefGoogle ScholarPubMed
Young, H. M., Cane, K. N. and Anderson, S. R. (2011) Development of the autonomic nervous system: a comparative view. Auton Neurosci 165, 1027.CrossRefGoogle ScholarPubMed

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