Functional Contribution of Mesencephalic Locomotor Region Nuclei to Locomotor Recovery After Spinal Cord Injury
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Abstract
Spinal cord injury (SCI) results in a disruption of information between the brain and the spinal locomotor circuit. Although the spinal cord contains all the neural circuits to generate locomotion, people with SCI are unable to walk due to the absence of descending commands from the brain. Electrical stimulation of supraspinal locomotor centers, such as the Mesencephalic Locomotor Region (MLR), can promote locomotor recovery in acute and chronic SCI rodent models. Although clinical trials are currently underway in SCI patients, there is still debate about the organization of this supraspinal locomotor center and which anatomical correlate of the MLR should be targeted to promote functional recovery. Combining kinematics, electromyographic recordings, anatomical analysis, and mouse genetics, our study reveals that glutamatergic neurons of the cuneiform nucleus contribute to locomotor recovery by enhancing motor efficacy in flexor and extensor hindlimb muscles, and by increasing locomotor rhythm and speed on a treadmill, over ground, and during swimming in mice with chronic SCI. In contrast, glutamatergic neurons of the pedunculopontine nucleus slow down locomotion. Therefore, our study identifies the cuneiform nucleus and its glutamatergic neurons as a therapeutical target to improve locomotor recovery in patients living with SCI. One Sentence Summary Glutamatergic neurons of the mesencephalic locomotor region contribute to spontaneous locomotor recovery following spinal cord injury and selective activation of a discrete glutamatergic subpopulation in this region can further improve functional outcome in chronic spinal cord injury.
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