Abstract

Failure of injured axons to regenerate in the central nervous system (CNS) is the main obstacle for repair of stroke and traumatic injuries to the spinal cord and sensory roots. This regeneration failure is highlighted at the dorsal root transitional zone (DRTZ), the boundary between the peripheral (PNS) and central nervous system where sensory axons enter the spinal cord. Injured sensory axons regenerate in the PNS compartment of the dorsal root but are halted as soon as they reach the DRTZ. The failure of regenerating dorsal root axons to re-enter the mature spinal cord is a reflection of the generally non-permissive nature of the CNS environment, in contrast to the regeneration supportive properties of the PNS. The dorsal root injury paradigm is therefore an attractive model for studying mechanisms underlying CNS regeneration failure in general and how to overcome the hostile CNS environment Here we review the main lines which have been pursued to achieve growth of injured dorsal root axons into the spinal cord: 1) modifying the inhibitory nature of the DRTZ by breaking down or blocking the effect of growth repelling molecules, 2), stimulate elongation of injured dorsal root axons by a prior conditioning lesion or administration of specific growth factors, 3) implantation of olfactory ensheathing cells to provide a growth supportive cellular terrain at the DRTZ and 4) replacing the regeneration deficient adult dorsal root ganglion neurons with embryonic neurons or neural stem cells.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call