Abstract

Locomotor movements in mammals are generated by neural networks, situated in the spinal cord, known as central pattern generators (CPGs). Recently, significant strides have been made in the genetic identification of interneuronal components of the locomotor CPG and their specific function. Despite this progress, a population of interneurons that is required for locomotor rhythmogenesis has yet to be identified, and it has been suggested that subsets of interneurons belonging to several genetically-defined populations may be involved. In this study, rather than hunt for rhythmogenic neurons, we take a different approach and attempt to identify the specific region of the spinal cord in which they are located. Focal application of 5-hydroxytryptamine creatine sulfate complex (5-HT) and N-methyl-D-aspartate (NMDA) to the central canal of the rostral lumbar segments of newborn male and female mouse spinal cords quickly generates a robust pattern of fictive locomotion, while inhibition or ablation of neurons in this region disrupts the locomotor rhythm in both rostral and caudal lumbar segments. When applied to the central canal at caudal lumbar levels a higher volume of 5-HT and NMDA are required to elicit fictive locomotion, while inhibition of neurons surrounding the central canal at caudal levels again interrupts rhythmic activity at local segmental levels with minimal effects rostrally. The results of this study indicate that interneurons in the most medial laminae of the neonatal mouse spinal cord are both necessary and sufficient for the generation of locomotor activity, and suggests that this is the region where the rhythm generating core of the locomotor CPG resides.

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