A neural tract tracing study on synaptic connections for cortical glutamatergic terminals and cervical spinal calretinin neurons in rats

The cerebral cortex innervates motor neurons in the anterior horn of the spinal cord by regulating of interneurons. At present, nerve tracing, immunohistochemistry, and immunoelectron microscopy are used to explore and confirm the characteristics of synaptic connections between the corticospinal tra...

Descripción completa

Detalles Bibliográficos
Autores principales: Huang, Ziyun, Sun, Liping, Zheng, Xuefeng, Zhang, Ye, Zhu, Yaxi, Chen, Tao, Chen, Zhi, Ja, Linju, OuYang, Lisi, Zhu, Yaofeng, Chen, Si, Lei, Wanlong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2023
Materias:
Neural Circuits
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10175624/
https://www.ncbi.nlm.nih.gov/pubmed/37187913
http://dx.doi.org/10.3389/fncir.2023.1086873
_version_ 1785040249326403584
author Huang, Ziyun
Sun, Liping
Zheng, Xuefeng
Zhang, Ye
Zhu, Yaxi
Chen, Tao
Chen, Zhi
Ja, Linju
OuYang, Lisi
Zhu, Yaofeng
Chen, Si
Lei, Wanlong
author_facet Huang, Ziyun
Sun, Liping
Zheng, Xuefeng
Zhang, Ye
Zhu, Yaxi
Chen, Tao
Chen, Zhi
Ja, Linju
OuYang, Lisi
Zhu, Yaofeng
Chen, Si
Lei, Wanlong
author_sort Huang, Ziyun
collection PubMed
description The cerebral cortex innervates motor neurons in the anterior horn of the spinal cord by regulating of interneurons. At present, nerve tracing, immunohistochemistry, and immunoelectron microscopy are used to explore and confirm the characteristics of synaptic connections between the corticospinal tract (CST) and cervical spinal calretinin (Cr) interneurons. Our morphological results revealed that (1) biotinylated dextran amine labeled (BDA+) fibers from the cerebral cortex primarily presented a contralateral spinal distribution, with a denser distribution in the ventral horn (VH) than in the dorsal horn (DH). An electron microscope (EM) showed that BDA+ terminals formed asymmetric synapses with spinal neurons, and their mean labeling rate was not different between the DH and VH. (2) Cr-immunoreactive (Cr+) neurons were unevenly distributed throughout the spinal gray matter, and were denser and larger in the VH than in the DH. At the single labeling electron microscope (EM) level, the labeling rate of Cr+ dendrites was higher in the VH than in the DH, in which Cr+ dendrites mainly received asymmetric synaptic inputs, and between the VH and DH. (3) Immunofluorescence triple labeling showed obvious apposition points among BDA+ terminals, synaptophysin and Cr+ dendrites, with a higher density in the VH than in the DH. (4) Double labeling in EM, BDA+ terminals and Cr+ dendrites presented the same pattern, BDA+ terminals formed asymmetric synapses either with Cr+ dendrites or Cr negative (Cr-) dendrites, and Cr+ dendrites received either BDA+ terminals or BDA- synaptic inputs. The average percentage of BDA+ terminals targeting Cr+ dendrites was higher in the VH than in the DH, but the percentage of BDA+ terminals targeting Cr- dendrites was prominently higher than that targeting Cr+ dendrites. There was no difference in BDA+ terminal size. The percentage rate for Cr+ dendrites receiving BDA+ terminal inputs was lower than that receiving BDA- terminal inputs, and the BDA+ terminal size was larger than the BDA- terminal size received by Cr+ dendrites. The present morphological results suggested that spinal Cr+ interneurons are involved in the regulatory process of the cortico-spinal pathway.
format Online
Article
Text
id pubmed-10175624
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher Frontiers Media S.A.
record_format MEDLINE/PubMed
spelling pubmed-101756242023-05-13 A neural tract tracing study on synaptic connections for cortical glutamatergic terminals and cervical spinal calretinin neurons in rats Huang, Ziyun Sun, Liping Zheng, Xuefeng Zhang, Ye Zhu, Yaxi Chen, Tao Chen, Zhi Ja, Linju OuYang, Lisi Zhu, Yaofeng Chen, Si Lei, Wanlong Front Neural Circuits Neural Circuits The cerebral cortex innervates motor neurons in the anterior horn of the spinal cord by regulating of interneurons. At present, nerve tracing, immunohistochemistry, and immunoelectron microscopy are used to explore and confirm the characteristics of synaptic connections between the corticospinal tract (CST) and cervical spinal calretinin (Cr) interneurons. Our morphological results revealed that (1) biotinylated dextran amine labeled (BDA+) fibers from the cerebral cortex primarily presented a contralateral spinal distribution, with a denser distribution in the ventral horn (VH) than in the dorsal horn (DH). An electron microscope (EM) showed that BDA+ terminals formed asymmetric synapses with spinal neurons, and their mean labeling rate was not different between the DH and VH. (2) Cr-immunoreactive (Cr+) neurons were unevenly distributed throughout the spinal gray matter, and were denser and larger in the VH than in the DH. At the single labeling electron microscope (EM) level, the labeling rate of Cr+ dendrites was higher in the VH than in the DH, in which Cr+ dendrites mainly received asymmetric synaptic inputs, and between the VH and DH. (3) Immunofluorescence triple labeling showed obvious apposition points among BDA+ terminals, synaptophysin and Cr+ dendrites, with a higher density in the VH than in the DH. (4) Double labeling in EM, BDA+ terminals and Cr+ dendrites presented the same pattern, BDA+ terminals formed asymmetric synapses either with Cr+ dendrites or Cr negative (Cr-) dendrites, and Cr+ dendrites received either BDA+ terminals or BDA- synaptic inputs. The average percentage of BDA+ terminals targeting Cr+ dendrites was higher in the VH than in the DH, but the percentage of BDA+ terminals targeting Cr- dendrites was prominently higher than that targeting Cr+ dendrites. There was no difference in BDA+ terminal size. The percentage rate for Cr+ dendrites receiving BDA+ terminal inputs was lower than that receiving BDA- terminal inputs, and the BDA+ terminal size was larger than the BDA- terminal size received by Cr+ dendrites. The present morphological results suggested that spinal Cr+ interneurons are involved in the regulatory process of the cortico-spinal pathway. Frontiers Media S.A. 2023-04-28 /pmc/articles/PMC10175624/ /pubmed/37187913 http://dx.doi.org/10.3389/fncir.2023.1086873 Text en Copyright © 2023 Huang, Sun, Zheng, Zhang, Zhu, Chen, Chen, Ja, OuYang, Zhu, Chen and Lei. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Neural Circuits
Huang, Ziyun
Sun, Liping
Zheng, Xuefeng
Zhang, Ye
Zhu, Yaxi
Chen, Tao
Chen, Zhi
Ja, Linju
OuYang, Lisi
Zhu, Yaofeng
Chen, Si
Lei, Wanlong
A neural tract tracing study on synaptic connections for cortical glutamatergic terminals and cervical spinal calretinin neurons in rats
title A neural tract tracing study on synaptic connections for cortical glutamatergic terminals and cervical spinal calretinin neurons in rats
title_full A neural tract tracing study on synaptic connections for cortical glutamatergic terminals and cervical spinal calretinin neurons in rats
title_fullStr A neural tract tracing study on synaptic connections for cortical glutamatergic terminals and cervical spinal calretinin neurons in rats
title_full_unstemmed A neural tract tracing study on synaptic connections for cortical glutamatergic terminals and cervical spinal calretinin neurons in rats
title_short A neural tract tracing study on synaptic connections for cortical glutamatergic terminals and cervical spinal calretinin neurons in rats
title_sort neural tract tracing study on synaptic connections for cortical glutamatergic terminals and cervical spinal calretinin neurons in rats
topic Neural Circuits
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10175624/
https://www.ncbi.nlm.nih.gov/pubmed/37187913
http://dx.doi.org/10.3389/fncir.2023.1086873
work_keys_str_mv AT huangziyun aneuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT sunliping aneuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT zhengxuefeng aneuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT zhangye aneuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT zhuyaxi aneuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT chentao aneuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT chenzhi aneuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT jalinju aneuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT ouyanglisi aneuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT zhuyaofeng aneuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT chensi aneuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT leiwanlong aneuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT huangziyun neuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT sunliping neuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT zhengxuefeng neuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT zhangye neuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT zhuyaxi neuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT chentao neuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT chenzhi neuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT jalinju neuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT ouyanglisi neuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT zhuyaofeng neuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT chensi neuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats
AT leiwanlong neuraltracttracingstudyonsynapticconnectionsforcorticalglutamatergicterminalsandcervicalspinalcalretininneuronsinrats

Ejemplares similares