Abstract
Hindlimb locomotor activity spontaneously recovers after complete spinal cord transection (CST) in neonatal rats, but not in juvenile rats. A previous study in neonatal rats that underwent CST at the thoracic level demonstrated that primary afferent projections increase in the ventral horn and intermediate zone at the lumbar level. It remains unclear whether primary afferent terminals of motoneurons increase and whether primary afferent projections to the spinal cord are altered after CST in juvenile rats. Here, we used biotinylated dextran amine as a tracer to demonstrate that primary afferent projections to the ventral horn and intermediate zone were significantly increased in rats that underwent CST in the juvenile period compared to intact rats of the same age. We then examined Ⅰa afferents using immunohistochemistry for parvalbumin. Our findings revealed an increase in parvalbumin-immunoreactive terminals on motoneurons in both neonatal and juvenile rats after CST compared to intact rats of the same age. These results suggest that proprioceptive afferent terminals on motoneurons are increased after CST in both neonatal and juvenile rats. In neonatal rats, this increase might contribute to the spontaneous recovery of hindlimb motor activity after CST, whereas in juvenile rats, the increase in proprioceptive afferent terminals on motoneurons does not contribute to recovery following CST.