4.7 Article

Circuit reconstruction of newborn neurons after spinal cord injury in adult rats via an NT3-chitosan scaffold

Journal

PROGRESS IN NEUROBIOLOGY
Volume 220, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.pneurobio.2022.102375

Keywords

Spinal cord injury; Newborn neurons; Corticospinal tract; Rubrospinal tract; Neuromuscular junction; Functional recovery

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An implanted NT3-chitosan scaffold can recruit neural stem cells to the lesion region and lead to the formation of functional neural circuits, promoting recovery after spinal cord injury. The scaffold facilitates the maturation of spinal neurons and the reestablishment of neural circuits, allowing for the recovery of neuromuscular function. This finding highlights the importance of the NT3-chitosan scaffold in promoting functional recovery after paraplegia.
An implanted neurotrophin-3 (NT3)-chitosan scaffold can recruit endogenous neural stem cells to migrate to a lesion region and differentiate into mature neurons after adult spinal cord injury (SCI). However, the identities of these newborn neurons and whether they can form functional synapses and circuits to promote recovery after paraplegia remain unknown. By using combined advanced technologies, we revealed here that the newborn neurons of several subtypes received synaptic input from the corticospinal tract (CST), rubrospinal tract (RST), and supraspinal tracts. They formed a functional neural circuit at the injured spinal region, further driving the local circuits beneath the lesion. Our results showed that the NT3-chitosan scaffold facilitated the maturation of spinal neurons and the reestablishment of the spinal neural circuit in the lesion region 12 weeks after SCI. Transsynaptic virus experiments revealed that these newborn spinal neurons received synaptic connections from the CST and RST and drove the neural circuit beneath the lesion via newly formed synapses. These re-established circuits successfully recovered the formation and function of the neuromuscular junction (NMJ) beneath the lesion spinal segments. These findings suggest that the NT3-chitosan scaffold promotes the formation of relay neural circuits to accommodate various types of brain descending inputs and facilitate functional recovery after paraplegia.

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