Regeneration of Corticospinal Axons into Neural Progenitor Cell Grafts After Spinal Cord Injury

Abstract

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Spinal cord injuries leave patients with lifelong paralysis. To date, there are no therapies that promote the critical step required for the recovery of voluntary motor function: corticospinal axon regeneration. Spinal cord-derived neural progenitor cell (NPC) grafts integrate into the injured host spinal cord, enable robust corticospinal axon regeneration, and restore forelimb function following spinal cord injury in rodents. Consequently, engineered stem cell differentiation and transplantation techniques harbor promising potential for the design and implementation of therapies promoting corticospinal axon regeneration. However, in order to optimize the outcome of clinical trials, it is critical to fully understand the cellular and molecular mechanisms underlying this regeneration. Our recent study highlights the unexpected intrinsic potential of corticospinal neurons to regenerate and allows us to investigate new hypotheses exploiting this newly discovered potential.