The permissivity of adult olfactory bulb to the ingrowth of olfactory axons could be due to the unique properties of ensheathing glia. To test whether these glial cells could be used to promote axonal regeneration in a spontaneously nonregenerating system, we transplanted suspensions of pure ensheathing cells into a rhizotomized spinal cord segment. Ensheathing cells were purified away from other cell types by immunoaffinity, using anti-p75 nerve growth factor receptor. After laminectomy at the lower thoracic level, the spinal cord was exposed and one dorsal root (T10) was completely transected at the cord entry point. The root stump was microsurgically anastomosed to the cord and a suspension of ensheathing cells was transplanted in the spinal cord at the dorsal root entry zone. Three weeks after transplantation, numerous regenerating dorsal root axons were observed reentering the spinal cord. Ingrowth of dorsal root axons was observed using DiI and antibodies against calcitonin gene-related peptide and growth-associated protein. Primary sensory afferents invaded laminae 1, 2, and 3, grew through laminae 4 and 5, and reached the dorsal grey commissure and lamina 4 of the contralateral side. We did not observe regenerating axons within the ipsilateral ventral horn and dorsal column. Transplanted ensheathing cells reached the same laminae as axons. Neither ensheathing cells nor regenerating axons invaded those laminae they did not innervate under normal circumstances. In conclusion, the regeneration of injured dorsal root axons into the adult spinal cord was possible after ensheathing glia transplantation. The use of ensheathing cells as stimulators of axonal growth might be generalized to other central nervous system injuries.