Morphology and electrophysiological properties of hamster spinal dorsal horn neurons that express VGLUT2 and enkephalin

Schneider, Stephen P.; Walker, Tracy M.

doi:10.1002/cne.21292

Cited by 29 publications

(26 citation statements)

References 85 publications

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“…In this study, simultaneous whole cell recordings were made between synaptically connected pairs of neurons in spinal lamina III and IV where collateral branches of slowly and rapidly adapting mechanoreceptor afferent fibers terminate. The present results are consistent with our previous studies suggesting that LIII/IV interneurons are interconnected via excitatory synapses using glutamate as a transmitter or via inhibitory linkages mediated by release of GABA (Schneider and Lopez 2002;Schneider and Walker 2007). Synaptic connections between LIII and IV neurons are predominantly unidirectional, and the majority of these are inhibitory.…”

Section: Discussionsupporting

confidence: 93%

“…The present results are consistent with our previous finding that the VGLUT2 vesicular glutamate transporter, a specific and reliable marker of glutamatergic synapses, is localized within axon terminals of dorsal horn interneurons (Schneider and Walker 2007). Together these studies show that glutamate, acting on AMPA type receptors, mediates excitatory synaptic linkages between lamina III and IV interneurons.…”

Section: Chemical Mediators At Local Synaptic Linkagessupporting

confidence: 93%

“…Transmission failures between LIII and IV cells could reflect impairment of presynaptic action potential invasion at the branch points of complex axon terminations (Henneman et al 1984;Lüscher and Shiner 1990) that are characteristic of interneurons in this region (Schneider 1992;Schneider et al 1995). It is also possible that the high failure rates seen in the present study result from co-release of enkephalin at synaptic terminals containing glutamate or GABA (Schneider and Walker 2007;Todd et al 1992Todd et al , 2003 via activation of inhibitory presynaptic opioid receptors (Grudt and Henderson 1998;Hori et al 1992).…”

Section: Strength and Reliability Of Single-axon Pspsmentioning

confidence: 71%

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Local Circuit Connections Between Hamster Laminae III and IV Dorsal Horn Neurons

Schneider¹

2008

Journal of Neurophysiology

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Section: Discussionsupporting

confidence: 93%

Section: Chemical Mediators At Local Synaptic Linkagessupporting

confidence: 93%

Section: Strength and Reliability Of Single-axon Pspsmentioning

confidence: 71%

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Local Circuit Connections Between Hamster Laminae III and IV Dorsal Horn Neurons

Schneider¹

2008

Journal of Neurophysiology

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“…The pattern of immunohistochemical labeling obtained with the guinea pig anti-VGLUT1 in rodent brain tissue was similar to that obtained with the rabbit anti-VGLUT1 (Persson et al, 2006;Bogen et al, 2006). Preabsorption of antisera with the immunogen synthetic peptide utilized to produce guinea pig anti-VGLUT2 antibodies eliminated the immunostaining in tissue sections from rat CNS (manufacturer's technical information) and in hamster spinal cord (Schneider and Walker, 2007). The pattern of rodent CNS staining was identical to that obtained by Fremeau et al (2001) with a polyclonal rabbit anti-VGLUT2 antibody.…”

Section: Antibody Specificitysupporting

confidence: 55%

Development of “Pinceaux” formations and dendritic translocation of climbing fibers during the acquisition of the balance between glutamatergic and γ‐aminobutyric acidergic inputs in developing Purkinje cells

Sotelo

2007

J of Comparative Neurology

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The acquisition of the dynamic balance between excitation and inhibition in developing Purkinje cells, necessary for their proper function, is analyzed. Newborn (P0) mouse cerebellum contains glutamatergic (VGLUT2-IR) and gamma-aminobutyric acid (GABA)-ergic (VIAAT-IR) axons. The former prevail and belong to climbing fibers, whereas the latter neither colabel with calbindin-expressing fibers nor belong to axons of the cortical GABAergic interneurons. During the first postnatal week, VIAAT-IR axons in the Purkinje cell neighborhood remains very low, and the first synapses with basket fibers are formed at P7, when climbing fibers have already established dense pericellular nets. The descending basket fibers reach the Purkinje cell axon initial segment by P9, immediately establishing axoaxonic synapses. The pinceaux appear as primitive vortex-like arrangements by P12, and by P20 interbasket fiber septate-like junctions, typical of fully mature pinceaux, are still missing. The climbing fiber's somatodendritic translocation occurs later than expected, after the regression of the multiple innervation, and follows the ascending collaterals of the basket axons, which are apparently the optimal substrate for the proper subcellular targeting of the climbing fibers. These results emphasize that chemical transmission in the axon initial segment precedes the electrical inhibition generated by field effects. In addition, GABAergic Purkinje cells, as opposed to glutamatergic projection neurons in other cortical structures, do not begin to receive their excitation to inhibition balance until the end of the first postnatal week, despite the early presence of potentially functional GABAergic axons that possess the required vesicular transport system.

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“…Many neurons in the spinal cord are interneurons with processes that extend only few spinal segments (Kostyuk and Vasilenko, 1979). At least some of these interneurons express VGLUT2 (Hinckley et al, 2005;Bannatyne et al, 2006;Schneider and Walker, 2007) and thus could be the source of some of the VGLUT2-ir we observed in the spinal cord. As mentioned above, we and others (Pan et al, 1999;Schnell and Wessendorf, 2004) have found abundant MOR 1C mRNA throughout the spinal cord.…”

Section: Spinal Cordmentioning

confidence: 87%

Coexpression of the mu‐opioid receptor splice variant MOR_1C and the vesicular glutamate transporter 2 (VGLUT2) in rat central nervous system

Schnell¹,

Wessendorf²

2008

J of Comparative Neurology

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It has been reported that mu-opioid agonists depress glutamate release in some neurons but the specific receptor subtype mediating this effect is unclear. The purpose of the present study was to examine whether a particular mu-opioid receptor (MOR) splice-variant, MOR(1C), is expressed in rat central nervous system (CNS) by terminals expressing the vesicular glutamate transporter2 (VGLUT2), a marker of glutamatergic neurons. Several MOR splice variants have been identified in mice and MOR(1C) appears mainly to be localized to fibers and terminals, from which most neurotransmitter release would be expected. In addition, VGLUT2 has been found in the CNS and antibodies to it are reliable markers for glutamatergic terminals. Using fluorescence immunohistochemistry and confocal microscopy to examine spatial relationships between MOR(1C) and VGLUT2, we found that MOR(1C) and VGLUT2 puncta were widely distributed throughout the rat CNS; moreover, many regions contained terminals that expressed both. Thus, it appears that coexpression of MOR(1C) and VGLUT2 is common in the rat CNS. We hypothesize that activation of MOR(1C) by mu-opioid agonists at some glutamatergic terminals may be a mechanism by which glutamate release is inhibited.

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Morphology and electrophysiological properties of hamster spinal dorsal horn neurons that express VGLUT2 and enkephalin

Cited by 29 publications

References 85 publications

Local Circuit Connections Between Hamster Laminae III and IV Dorsal Horn Neurons

Local Circuit Connections Between Hamster Laminae III and IV Dorsal Horn Neurons

Development of “Pinceaux” formations and dendritic translocation of climbing fibers during the acquisition of the balance between glutamatergic and γ‐aminobutyric acidergic inputs in developing Purkinje cells

Coexpression of the mu‐opioid receptor splice variant MOR_1C and the vesicular glutamate transporter 2 (VGLUT2) in rat central nervous system

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Morphology and electrophysiological properties of hamster spinal dorsal horn neurons that express VGLUT2 and enkephalin

Cited by 29 publications

References 85 publications

Local Circuit Connections Between Hamster Laminae III and IV Dorsal Horn Neurons

Local Circuit Connections Between Hamster Laminae III and IV Dorsal Horn Neurons

Development of “Pinceaux” formations and dendritic translocation of climbing fibers during the acquisition of the balance between glutamatergic and γ‐aminobutyric acidergic inputs in developing Purkinje cells

Coexpression of the mu‐opioid receptor splice variant MOR1C and the vesicular glutamate transporter 2 (VGLUT2) in rat central nervous system

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Coexpression of the mu‐opioid receptor splice variant MOR_1C and the vesicular glutamate transporter 2 (VGLUT2) in rat central nervous system