Afferent synaptic contacts on glycine-immunoreactive neurons in the rat cuneate nucleus

This study was aimed to clarify whether the primary afferent terminals (PATs), GABAergic terminals, and glutamatergic terminals made direct synaptic contacts with glycine‐IR neurons in the cuneate nucleus of rats. In this connection, injection of the anterograde tracer WGA‐HRP into brachial plexus,...

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Veröffentlicht in:	Synapse (New York, N.Y.) N.Y.), 2001-08, Vol.41 (2), p.139-149
Hauptverfasser:	Lue, June-Horng, Chen, Seu-Hwa, Shieh, Jeng-Yung, Wen, Chen-Yuan
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Sprache:	eng
Schlagworte:	Animals Dendrites - metabolism Dendrites - ultrastructure GABA-IR terminals gamma-Aminobutyric Acid - metabolism glutamate-IR terminals Glutamic Acid - metabolism Glycine - metabolism glycine-IR terminals immunogold Immunohistochemistry immunoperoxidase Male Medulla Oblongata - metabolism Medulla Oblongata - ultrastructure Microscopy, Electron Neural Inhibition - physiology Neurons, Afferent - metabolism Neurons, Afferent - ultrastructure Presynaptic Terminals - metabolism Presynaptic Terminals - ultrastructure primary afferent terminals Rats Rats, Wistar synaptic ratio Synaptic Transmission - physiology WGA-HRP
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creator	Lue, June-Horng Chen, Seu-Hwa Shieh, Jeng-Yung Wen, Chen-Yuan
description	This study was aimed to clarify whether the primary afferent terminals (PATs), GABAergic terminals, and glutamatergic terminals made direct synaptic contacts with glycine‐IR neurons in the cuneate nucleus of rats. In this connection, injection of the anterograde tracer WGA‐HRP into brachial plexus, antiglycine preembedding immunoperoxidase, and anti‐GABA, along with antiglutamate postembedding immunogold labeling, were used to identify the PATs, glycine‐IR neurons, GABA‐IR terminals, and glutamate‐IR terminals, respectively. The present results showed that HRP‐labeled PATs, immunoperoxidase‐labeled glycine‐IR terminals, immunogold‐labeled GABA‐IR, and glutamate‐IR terminals made axodendritic synaptic contacts with immunoperoxidase‐labeled glycine‐IR neurons. The latter three presynaptic elements also formed axosomatic synapses with glycine‐IR neurons. Statistical analysis has shown that the minimum diameter of the glycine‐IR dendrites postsynaptic to the above‐mentioned four presynaptic elements did not differ significantly. In addition, the synaptic ratio of the glutamate‐IR terminals on the glycine‐IR dendrites was higher than that of GABA‐IR terminals. The synaptic ratio of the GABA‐IR terminals on glycine‐IR dendrite was in turn higher than that of the PATs and glycine‐IR terminals. It is suggested that the PATs and glutamate‐IR terminals on the glycine‐IR neurons may be involved in subsequent postsynaptic inhibition for spatial precision of lateral inhibition. On the other hand, the GABA‐IR and glycine‐IR terminals which make synaptic contacts with the dendrites of glycine‐IR neurons may provide a putative means for disinhibition or facilitation to maintain the baseline neuronal activity in the rat cuneate nucleus. The results of quantitative analysis suggest that glutamate act as the primary excitatory neurotransmitter, while GABA, when compared with glycine, may serve as a more powerful inhibitory neurotransmitter on glycine‐IR neurons in the rat cuneate nucleus. Synapse 41:139–149, 2001. © 2001 Wiley‐Liss, Inc.
doi_str_mv	10.1002/syn.1068
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In this connection, injection of the anterograde tracer WGA‐HRP into brachial plexus, antiglycine preembedding immunoperoxidase, and anti‐GABA, along with antiglutamate postembedding immunogold labeling, were used to identify the PATs, glycine‐IR neurons, GABA‐IR terminals, and glutamate‐IR terminals, respectively. The present results showed that HRP‐labeled PATs, immunoperoxidase‐labeled glycine‐IR terminals, immunogold‐labeled GABA‐IR, and glutamate‐IR terminals made axodendritic synaptic contacts with immunoperoxidase‐labeled glycine‐IR neurons. The latter three presynaptic elements also formed axosomatic synapses with glycine‐IR neurons. Statistical analysis has shown that the minimum diameter of the glycine‐IR dendrites postsynaptic to the above‐mentioned four presynaptic elements did not differ significantly. In addition, the synaptic ratio of the glutamate‐IR terminals on the glycine‐IR dendrites was higher than that of GABA‐IR terminals. The synaptic ratio of the GABA‐IR terminals on glycine‐IR dendrite was in turn higher than that of the PATs and glycine‐IR terminals. It is suggested that the PATs and glutamate‐IR terminals on the glycine‐IR neurons may be involved in subsequent postsynaptic inhibition for spatial precision of lateral inhibition. On the other hand, the GABA‐IR and glycine‐IR terminals which make synaptic contacts with the dendrites of glycine‐IR neurons may provide a putative means for disinhibition or facilitation to maintain the baseline neuronal activity in the rat cuneate nucleus. The results of quantitative analysis suggest that glutamate act as the primary excitatory neurotransmitter, while GABA, when compared with glycine, may serve as a more powerful inhibitory neurotransmitter on glycine‐IR neurons in the rat cuneate nucleus. 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The synaptic ratio of the GABA‐IR terminals on glycine‐IR dendrite was in turn higher than that of the PATs and glycine‐IR terminals. It is suggested that the PATs and glutamate‐IR terminals on the glycine‐IR neurons may be involved in subsequent postsynaptic inhibition for spatial precision of lateral inhibition. On the other hand, the GABA‐IR and glycine‐IR terminals which make synaptic contacts with the dendrites of glycine‐IR neurons may provide a putative means for disinhibition or facilitation to maintain the baseline neuronal activity in the rat cuneate nucleus. The results of quantitative analysis suggest that glutamate act as the primary excitatory neurotransmitter, while GABA, when compared with glycine, may serve as a more powerful inhibitory neurotransmitter on glycine‐IR neurons in the rat cuneate nucleus. 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Chen, Seu-Hwa ; Shieh, Jeng-Yung ; Wen, Chen-Yuan</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c3558-27065f5c316dfd6d1a271e3e96513003636b16ecb695ca5447c5f1de26a302c03</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2001</creationdate><topic>Animals</topic><topic>Dendrites - metabolism</topic><topic>Dendrites - ultrastructure</topic><topic>GABA-IR terminals</topic><topic>gamma-Aminobutyric Acid - metabolism</topic><topic>glutamate-IR terminals</topic><topic>Glutamic Acid - metabolism</topic><topic>Glycine - metabolism</topic><topic>glycine-IR terminals</topic><topic>immunogold</topic><topic>Immunohistochemistry</topic><topic>immunoperoxidase</topic><topic>Male</topic><topic>Medulla Oblongata - metabolism</topic><topic>Medulla Oblongata - ultrastructure</topic><topic>Microscopy, Electron</topic><topic>Neural Inhibition - physiology</topic><topic>Neurons, Afferent - metabolism</topic><topic>Neurons, Afferent - ultrastructure</topic><topic>Presynaptic Terminals - metabolism</topic><topic>Presynaptic Terminals - ultrastructure</topic><topic>primary afferent terminals</topic><topic>Rats</topic><topic>Rats, Wistar</topic><topic>synaptic ratio</topic><topic>Synaptic Transmission - physiology</topic><topic>WGA-HRP</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Lue, June-Horng</creatorcontrib><creatorcontrib>Chen, Seu-Hwa</creatorcontrib><creatorcontrib>Shieh, Jeng-Yung</creatorcontrib><creatorcontrib>Wen, Chen-Yuan</creatorcontrib><collection>Istex</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Synapse (New York, N.Y.)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Lue, June-Horng</au><au>Chen, Seu-Hwa</au><au>Shieh, Jeng-Yung</au><au>Wen, Chen-Yuan</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Afferent synaptic contacts on glycine-immunoreactive neurons in the rat cuneate nucleus</atitle><jtitle>Synapse (New York, N.Y.)</jtitle><addtitle>Synapse</addtitle><date>2001-08</date><risdate>2001</risdate><volume>41</volume><issue>2</issue><spage>139</spage><epage>149</epage><pages>139-149</pages><issn>0887-4476</issn><eissn>1098-2396</eissn><abstract>This study was aimed to clarify whether the primary afferent terminals (PATs), GABAergic terminals, and glutamatergic terminals made direct synaptic contacts with glycine‐IR neurons in the cuneate nucleus of rats. In this connection, injection of the anterograde tracer WGA‐HRP into brachial plexus, antiglycine preembedding immunoperoxidase, and anti‐GABA, along with antiglutamate postembedding immunogold labeling, were used to identify the PATs, glycine‐IR neurons, GABA‐IR terminals, and glutamate‐IR terminals, respectively. The present results showed that HRP‐labeled PATs, immunoperoxidase‐labeled glycine‐IR terminals, immunogold‐labeled GABA‐IR, and glutamate‐IR terminals made axodendritic synaptic contacts with immunoperoxidase‐labeled glycine‐IR neurons. The latter three presynaptic elements also formed axosomatic synapses with glycine‐IR neurons. Statistical analysis has shown that the minimum diameter of the glycine‐IR dendrites postsynaptic to the above‐mentioned four presynaptic elements did not differ significantly. In addition, the synaptic ratio of the glutamate‐IR terminals on the glycine‐IR dendrites was higher than that of GABA‐IR terminals. The synaptic ratio of the GABA‐IR terminals on glycine‐IR dendrite was in turn higher than that of the PATs and glycine‐IR terminals. It is suggested that the PATs and glutamate‐IR terminals on the glycine‐IR neurons may be involved in subsequent postsynaptic inhibition for spatial precision of lateral inhibition. On the other hand, the GABA‐IR and glycine‐IR terminals which make synaptic contacts with the dendrites of glycine‐IR neurons may provide a putative means for disinhibition or facilitation to maintain the baseline neuronal activity in the rat cuneate nucleus. The results of quantitative analysis suggest that glutamate act as the primary excitatory neurotransmitter, while GABA, when compared with glycine, may serve as a more powerful inhibitory neurotransmitter on glycine‐IR neurons in the rat cuneate nucleus. Synapse 41:139–149, 2001. © 2001 Wiley‐Liss, Inc.</abstract><cop>New York</cop><pub>John Wiley & Sons, Inc</pub><pmid>11400180</pmid><doi>10.1002/syn.1068</doi><tpages>11</tpages></addata></record>
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subjects	Animals Dendrites - metabolism Dendrites - ultrastructure GABA-IR terminals gamma-Aminobutyric Acid - metabolism glutamate-IR terminals Glutamic Acid - metabolism Glycine - metabolism glycine-IR terminals immunogold Immunohistochemistry immunoperoxidase Male Medulla Oblongata - metabolism Medulla Oblongata - ultrastructure Microscopy, Electron Neural Inhibition - physiology Neurons, Afferent - metabolism Neurons, Afferent - ultrastructure Presynaptic Terminals - metabolism Presynaptic Terminals - ultrastructure primary afferent terminals Rats Rats, Wistar synaptic ratio Synaptic Transmission - physiology WGA-HRP
title	Afferent synaptic contacts on glycine-immunoreactive neurons in the rat cuneate nucleus
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