Stability and variability of synapses in the adult molluskan CNS. Magoski, N. S. & Bulloch, A. G. M. Journal of Neurobiology, 42(4):410–423, Wiley Online Library, mar, 2000.
Stability and variability of synapses in the adult molluskan CNS [link]Paper  doi  abstract   bibtex   
Synaptic transmission was examined between identified neurons in the central nervous system (CNS) of the freshwater mollusk, Lymnaea stagnalis. Four identified neurons were used: Right Pedal Dorsal one (RPeD1; a dopaminergic respiratory interneuron), Visceral Dorsal two and three (VD2/3), and Visceral Dorsal four (VD4; a cardiorespiratory interneuron). Neuron RPeD1 synapses onto both VD2/3 and VD4, while VD4 makes a reciprocal synapse onto RPeD1. When compared from animal to animal, the connections were variable in sign. Previously, we demonstrated that, in a given animal, the RPeD1 → VD4 synapse could be either inhibitory, biphasic, or undetectable. The present study now expands this concept of variability by showing that the RPeD1 → VD2/3 synapse was either excitatory or undetectable from animal to animal, while the synapse from VD4 to RPeD1 was observed as inhibitory, biphasic, depolarizing, excitatory, or undetectable. Next, we used 1-day organ culture to determine if the variability observed between animals is a product of ongoing change to the sign of these identified synapses and whether or not the extent of change could be influenced by the culture conditions. Changes to the sign of transmission occurred within minutes and, more commonly, after 24-h organ culture. All three synapses were investigated before and after 1- day organ culture, in either defined medium (DM) or brain-conditioned medium (CM). Regardless of culture conditions, the RPeD1 VD2/3 synapse showed no change of sign, i.e., it was relatively stable. However, the synapses between RPeD1 and VD4 did change sign, and when cultured in CM, the VD4 → RPeD1 synapse changed significantly more than in DM. These data indicate that variability of some synapses reflects changes at these synapses. This is the first report that specific synapses in an adult CNS can change sign, and that the sign of transmission can be modulated by environmental conditions. (C) 2000 John Wiley and Sons. Inc.
@article{pop00450,
abstract = {Synaptic transmission was examined between identified neurons in the central nervous system (CNS) of the freshwater mollusk, Lymnaea stagnalis. Four identified neurons were used: Right Pedal Dorsal one (RPeD1; a dopaminergic respiratory interneuron), Visceral Dorsal two and three (VD2/3), and Visceral Dorsal four (VD4; a cardiorespiratory interneuron). Neuron RPeD1 synapses onto both VD2/3 and VD4, while VD4 makes a reciprocal synapse onto RPeD1. When compared from animal to animal, the connections were variable in sign. Previously, we demonstrated that, in a given animal, the RPeD1 → VD4 synapse could be either inhibitory, biphasic, or undetectable. The present study now expands this concept of variability by showing that the RPeD1 → VD2/3 synapse was either excitatory or undetectable from animal to animal, while the synapse from VD4 to RPeD1 was observed as inhibitory, biphasic, depolarizing, excitatory, or undetectable. Next, we used 1-day organ culture to determine if the variability observed between animals is a product of ongoing change to the sign of these identified synapses and whether or not the extent of change could be influenced by the culture conditions. Changes to the sign of transmission occurred within minutes and, more commonly, after 24-h organ culture. All three synapses were investigated before and after 1- day organ culture, in either defined medium (DM) or brain-conditioned medium (CM). Regardless of culture conditions, the RPeD1 VD2/3 synapse showed no change of sign, i.e., it was relatively stable. However, the synapses between RPeD1 and VD4 did change sign, and when cultured in CM, the VD4 → RPeD1 synapse changed significantly more than in DM. These data indicate that variability of some synapses reflects changes at these synapses. This is the first report that specific synapses in an adult CNS can change sign, and that the sign of transmission can be modulated by environmental conditions. (C) 2000 John Wiley and Sons. Inc.},
annote = {Query date: 2020-06-29 13:05:30},
author = {Magoski, Neil S. and Bulloch, Andrew G. M.},
doi = {10.1002/(SICI)1097-4695(200003)42:4<410::AID-NEU3>3.0.CO;2-G},
issn = {0022-3034},
journal = {Journal of Neurobiology},
keywords = {Freshwater mollusk,RPeD1,Synaptic transmission,VD2/3,VD4},
month = {mar},
number = {4},
pages = {410--423},
publisher = {Wiley Online Library},
title = {{Stability and variability of synapses in the adult molluskan CNS}},
url = {https://onlinelibrary.wiley.com/doi/abs/10.1002/(SICI)1097-4695(200003)42:4{\%}3C410::AID-NEU3{\%}3E3.0.CO;2-G http://doi.wiley.com/10.1002/{\%}28SICI{\%}291097-4695{\%}28200003{\%}2942{\%}3A4{\%}3C410{\%}3A{\%}3AAID-NEU3{\%}3E3.0.CO{\%}3B2-G},
volume = {42},
year = {2000}
}

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