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- Title
Functional plasticity of glutamatergic neurons of medullary reticular nuclei after spinal cord injury in mice.
- Authors
Lemieux, Maxime; Karimi, Narges; Bretzner, Frederic
- Abstract
Spinal cord injury disrupts the descending command from the brain and causes a range of motor deficits. Here, we use optogenetic tools to investigate the functional plasticity of the glutamatergic reticulospinal drive of the medullary reticular formation after a lateral thoracic hemisection in female mice. Sites evoking stronger excitatory descending drive in intact conditions are the most impaired after injury, whereas those associated with a weaker drive are potentiated. After lesion, pro- and anti-locomotor activities (that is, initiation/acceleration versus stop/deceleration) are overall preserved. Activating the descending reticulospinal drive improves stepping ability on a flat surface of chronically impaired injured mice, and its priming enhances recovery of skilled locomotion on a horizontal ladder. This study highlights the resilience and capacity for reorganization of the glutamatergic reticulospinal command after injury, along with its suitability as a therapeutical target to promote functional recovery. Spinal cord injury disrupts the descending command from the brain necessary for locomotion. Here, the authors show the functional plasticity of glutamatergic reticulospinal neurons and how their recruitment can enhance spontaneous motor recovery.
- Subjects
SPINAL cord injuries; RETICULAR formation; NEURONS; ANIMAL locomotion; MICE
- Publication
Nature Communications, 2024, Vol 15, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-024-45300-4