Overexpression of BDNF increases excitability of the lumbar spinal network and leads to robust early locomotor recovery in completely spinalized rats.

Overexpression of BDNF increases excitability of the lumbar spinal network and leads to robust early locomotor recovery in completely spinalized rats.

Strategies to induce recovery from lesions of the spinal cord have not fully resulted in clinical applications. This is a consequence of a number of impediments that axons encounter when trying to regrow beyond the lesion site, and that intraspinal rearrangements are subjected to. In the present stu...

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Main Authors: Ewelina Ziemlińska, Sebastian Kügler, Melitta Schachner, Iwona Wewiór, Julita Czarkowska-Bauch, Małgorzata Skup
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3925164?pdf=render
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spelling doaj-39bb8e0aef51419d9dadadf40df6d38f2020-11-24T21:44:32ZengPublic Library of Science (PLoS)PLoS ONE1932-62032014-01-0192e8883310.1371/journal.pone.0088833Overexpression of BDNF increases excitability of the lumbar spinal network and leads to robust early locomotor recovery in completely spinalized rats.Ewelina ZiemlińskaSebastian KüglerMelitta SchachnerIwona WewiórJulita Czarkowska-BauchMałgorzata SkupStrategies to induce recovery from lesions of the spinal cord have not fully resulted in clinical applications. This is a consequence of a number of impediments that axons encounter when trying to regrow beyond the lesion site, and that intraspinal rearrangements are subjected to. In the present study we evaluated (1) the possibility to improve locomotor recovery after complete transection of the spinal cord by means of an adeno-associated (AAV) viral vector expressing the neurotrophin brain-derived neurotrophic factor (BDNF) in lumbar spinal neurons caudal to the lesion site and (2) how the spinal cord transection and BDNF treatment affected neurotransmission in the segments caudal to the lesion site. BDNF overexpression resulted in clear increases in expression levels of molecules involved in glutamatergic (VGluT2) and GABAergic (GABA, GAD65, GAD67) neurotransmission in parallel with a reduction of the potassium-chloride co-transporter (KCC2) which contributes to an inhibitory neurotransmission. BDNF treated animals showed significant improvements in assisted locomotor performance, and performed locomotor movements with body weight support and plantar foot placement on a moving treadmill. These positive effects of BDNF local overexpression were detectable as early as two weeks after spinal cord transection and viral vector application and lasted for at least 7 weeks. Gradually increasing frequencies of clonic movements at the end of the experiment attenuated the quality of treadmill walking. These data indicate that BDNF has the potential to enhance the functionality of isolated lumbar circuits, but also that BDNF levels have to be tightly controlled to prevent hyperexcitability.http://europepmc.org/articles/PMC3925164?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Ewelina Ziemlińska
Sebastian Kügler
Melitta Schachner
Iwona Wewiór
Julita Czarkowska-Bauch
Małgorzata Skup
spellingShingle Ewelina Ziemlińska
Sebastian Kügler
Melitta Schachner
Iwona Wewiór
Julita Czarkowska-Bauch
Małgorzata Skup
Overexpression of BDNF increases excitability of the lumbar spinal network and leads to robust early locomotor recovery in completely spinalized rats.
PLoS ONE
author_facet Ewelina Ziemlińska
Sebastian Kügler
Melitta Schachner
Iwona Wewiór
Julita Czarkowska-Bauch
Małgorzata Skup
author_sort Ewelina Ziemlińska
title Overexpression of BDNF increases excitability of the lumbar spinal network and leads to robust early locomotor recovery in completely spinalized rats.
title_short Overexpression of BDNF increases excitability of the lumbar spinal network and leads to robust early locomotor recovery in completely spinalized rats.
title_full Overexpression of BDNF increases excitability of the lumbar spinal network and leads to robust early locomotor recovery in completely spinalized rats.
title_fullStr Overexpression of BDNF increases excitability of the lumbar spinal network and leads to robust early locomotor recovery in completely spinalized rats.
title_full_unstemmed Overexpression of BDNF increases excitability of the lumbar spinal network and leads to robust early locomotor recovery in completely spinalized rats.
title_sort overexpression of bdnf increases excitability of the lumbar spinal network and leads to robust early locomotor recovery in completely spinalized rats.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2014-01-01
description Strategies to induce recovery from lesions of the spinal cord have not fully resulted in clinical applications. This is a consequence of a number of impediments that axons encounter when trying to regrow beyond the lesion site, and that intraspinal rearrangements are subjected to. In the present study we evaluated (1) the possibility to improve locomotor recovery after complete transection of the spinal cord by means of an adeno-associated (AAV) viral vector expressing the neurotrophin brain-derived neurotrophic factor (BDNF) in lumbar spinal neurons caudal to the lesion site and (2) how the spinal cord transection and BDNF treatment affected neurotransmission in the segments caudal to the lesion site. BDNF overexpression resulted in clear increases in expression levels of molecules involved in glutamatergic (VGluT2) and GABAergic (GABA, GAD65, GAD67) neurotransmission in parallel with a reduction of the potassium-chloride co-transporter (KCC2) which contributes to an inhibitory neurotransmission. BDNF treated animals showed significant improvements in assisted locomotor performance, and performed locomotor movements with body weight support and plantar foot placement on a moving treadmill. These positive effects of BDNF local overexpression were detectable as early as two weeks after spinal cord transection and viral vector application and lasted for at least 7 weeks. Gradually increasing frequencies of clonic movements at the end of the experiment attenuated the quality of treadmill walking. These data indicate that BDNF has the potential to enhance the functionality of isolated lumbar circuits, but also that BDNF levels have to be tightly controlled to prevent hyperexcitability.
url http://europepmc.org/articles/PMC3925164?pdf=render
work_keys_str_mv AT ewelinaziemlinska overexpressionofbdnfincreasesexcitabilityofthelumbarspinalnetworkandleadstorobustearlylocomotorrecoveryincompletelyspinalizedrats
AT sebastiankugler overexpressionofbdnfincreasesexcitabilityofthelumbarspinalnetworkandleadstorobustearlylocomotorrecoveryincompletelyspinalizedrats
AT melittaschachner overexpressionofbdnfincreasesexcitabilityofthelumbarspinalnetworkandleadstorobustearlylocomotorrecoveryincompletelyspinalizedrats
AT iwonawewior overexpressionofbdnfincreasesexcitabilityofthelumbarspinalnetworkandleadstorobustearlylocomotorrecoveryincompletelyspinalizedrats
AT julitaczarkowskabauch overexpressionofbdnfincreasesexcitabilityofthelumbarspinalnetworkandleadstorobustearlylocomotorrecoveryincompletelyspinalizedrats
AT małgorzataskup overexpressionofbdnfincreasesexcitabilityofthelumbarspinalnetworkandleadstorobustearlylocomotorrecoveryincompletelyspinalizedrats
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