Literature DB >> 16148740

Axotomized bulbospinal neurons express c-Jun after cervical spinal cord injury.

Stéphane Vinit1, Pascale Boulenguez, Laurie Efthimiadi, Jean-Claude Stamegna, Patrick Gauthier, Anne Kastner.   

Abstract

In several central nervous system neuronal populations, axotomy triggers the upregulation of regeneration-associated genes such as c-Jun, which determines neurons ability to regenerate axon in a growth-permissive environment. We analyzed the expression of c-Jun in rat ventral medullary neurons after cervical hemisection in order to investigate their intrinsic regenerative potential. Maximal expression of c-Jun was observed 7 days after injury mainly in axotomized medullary neurons located in the gigantocellularis nucleus, the raphe nucleus and, although less intensively, in the rostral ventral respiratory group. This suggests that after high cervical injury, a large number of medullary neurons projecting to the spinal cord become competent for axonal regeneration, although this regenerating potential may not be equivalent between the various neuronal populations.

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Year:  2005        PMID: 16148740     DOI: 10.1097/01.wnr.0000179075.32035.0f

Source DB:  PubMed          Journal:  Neuroreport        ISSN: 0959-4965            Impact factor:   1.837


  11 in total

Review 1.  Enhancing neural activity to drive respiratory plasticity following cervical spinal cord injury.

Authors:  Kristiina M Hormigo; Lyandysha V Zholudeva; Victoria M Spruance; Vitaliy Marchenko; Marie-Pascale Cote; Stephane Vinit; Simon Giszter; Tatiana Bezdudnaya; Michael A Lane
Journal:  Exp Neurol       Date:  2016-08-28       Impact factor: 5.330

2.  Spontaneous respiratory plasticity following unilateral high cervical spinal cord injury in behaving rats.

Authors:  Tatiana Bezdudnaya; Kristiina M Hormigo; Vitaliy Marchenko; Michael A Lane
Journal:  Exp Neurol       Date:  2018-03-26       Impact factor: 5.330

3.  Distinct expression of c-Jun and HSP27 in axotomized and spared bulbospinal neurons after cervical spinal cord injury.

Authors:  Stéphane Vinit; Fannie Darlot; Hayet Aoulaïche; Pascale Boulenguez; Anne Kastner
Journal:  J Mol Neurosci       Date:  2010-12-04       Impact factor: 3.444

4.  Supraspinal respiratory plasticity following acute cervical spinal cord injury.

Authors:  Tatiana Bezdudnaya; Vitaliy Marchenko; Lyandysha V Zholudeva; Victoria M Spruance; Michael A Lane
Journal:  Exp Neurol       Date:  2017-04-19       Impact factor: 5.330

Review 5.  Intermittent hypoxia induces functional recovery following cervical spinal injury.

Authors:  Stéphane Vinit; Mary Rachael Lovett-Barr; Gordon S Mitchell
Journal:  Respir Physiol Neurobiol       Date:  2009-08-03       Impact factor: 1.931

6.  A murine model of cervical spinal cord injury to study post-lesional respiratory neuroplasticity.

Authors:  Emilie Keomani; Thérèse B Deramaudt; Michel Petitjean; Marcel Bonay; Frédéric Lofaso; Stéphane Vinit
Journal:  J Vis Exp       Date:  2014-05-28       Impact factor: 1.355

7.  Anatomical feasibility of vagus nerve esophageal branch transfer to the phrenic nerve.

Authors:  Ce Wang; Jun Liu; Wen Yuan; Xuhui Zhou; Xinwei Wang; Peng Xu; Jian Chen; Guoxin Wu; Sheng Shi
Journal:  Neural Regen Res       Date:  2012-03-25       Impact factor: 5.135

8.  Effects of aerobic exercise training on muscle plasticity in a mouse model of cervical spinal cord injury.

Authors:  Isley Jesus; Pauline Michel-Flutot; Therese B Deramaudt; Alexia Paucard; Valentin Vanhee; Stéphane Vinit; Marcel Bonay
Journal:  Sci Rep       Date:  2021-01-08       Impact factor: 4.379

Review 9.  Neuroprotective and Neurorestorative Processes after Spinal Cord Injury: The Case of the Bulbospinal Respiratory Neurons.

Authors:  Anne Kastner; Valéry Matarazzo
Journal:  Neural Plast       Date:  2016-08-03       Impact factor: 3.599

Review 10.  The crossed phrenic phenomenon.

Authors:  Michael George Zaki Ghali
Journal:  Neural Regen Res       Date:  2017-06       Impact factor: 5.135
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