Literature DB >> 22917619

Treadmill training stimulates brain-derived neurotrophic factor mRNA expression in motor neurons of the lumbar spinal cord in spinally transected rats.

M S Joseph1, N J K Tillakaratne, R D de Leon.   

Abstract

Brain-derived neurotrophic factor (BDNF) induces plasticity within the lumbar spinal circuits thereby improving locomotor recovery in spinal cord-injured animals. We examined whether lumbar spinal cord motor neurons and other ventral horn cells of spinally transected (ST) rats were stimulated to produce BDNF mRNA in response to treadmill training. Rats received complete spinal cord transections as neonates (n=20) and one month later, received four weeks of either a low (100 steps/training session; n=10) or high (1000 steps/training session; n=10) amount of robotic-assisted treadmill training. Using combined non-radioactive in situ hybridization and immunohistochemical techniques, we found BDNF mRNA expression in heat shock protein 27-labeled motor neurons and in non-motor neuron cells was greater after 1000 steps/training session compared to the 100 steps/training session and was similar to BDNF mRNA labeling in untrained Intact rats. In addition, there were significantly more motor neurons that contained BDNF mRNA labeling within processes in the ST rats that received the higher amount of treadmill training. These findings suggested that motor neurons and other ventral horn cells in ST rats synthesized BDNF in response to treadmill training. The findings support a mechanism by which postsynaptic release of BDNF from motor neurons contributed to synaptic plasticity.
Copyright © 2012 IBRO. Published by Elsevier Ltd. All rights reserved.

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Year:  2012        PMID: 22917619      PMCID: PMC4433547          DOI: 10.1016/j.neuroscience.2012.08.024

Source DB:  PubMed          Journal:  Neuroscience        ISSN: 0306-4522            Impact factor:   3.590


  33 in total

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Authors:  Andrea L Behrman; Anna R Lawless-Dixon; Sandra B Davis; Mark G Bowden; Preeti Nair; Chetan Phadke; Elizabeth M Hannold; Prudence Plummer; Susan J Harkema
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10.  Locomotor ability in spinal rats is dependent on the amount of activity imposed on the hindlimbs during treadmill training.

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  11 in total

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Journal:  Infant Behav Dev       Date:  2019-09-23

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4.  Acute intermittent hypoxia as a potential adjuvant to improve walking following spinal cord injury: evidence, challenges, and future directions.

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5.  Daily acute intermittent hypoxia combined with walking practice enhances walking performance but not intralimb motor coordination in persons with chronic incomplete spinal cord injury.

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Review 6.  Innervation: the missing link for biofabricated tissues and organs.

Authors:  Suradip Das; Wisberty J Gordián-Vélez; Harry C Ledebur; Foteini Mourkioti; Panteleimon Rompolas; H Isaac Chen; Mijail D Serruya; D Kacy Cullen
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Review 7.  Health Benefits of Endurance Training: Implications of the Brain-Derived Neurotrophic Factor-A Systematic Review.

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10.  Acute intermittent hypoxia and rehabilitative training following cervical spinal injury alters neuronal hypoxia- and plasticity-associated protein expression.

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Journal:  PLoS One       Date:  2018-05-18       Impact factor: 3.240
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