Grants and Contracts Details
Description
Abstract
Spinal cord injury at the high cervical level results in respiratory impairment. Activation of the latent
respiratory pathway is an endogenous mechanism of neural plasticity that can contribute to restoration of
breathing. We recently discovered that genetic stimulation of moderate astrocyte reactivity throughout the CNS
via overexpression of leucine zipper-bearing kinase (LZK) in adult astrocytes enhances injury-induced CNS axon
plasticity. Using this unique genetic model, we further found that stimulation of astrocyte reactivity improved
recovery of breathing following high cervical lateral hemisection of the spinal cord. This pilot project will test the
hypothesis that stimulation of astrocyte reactivity combined with intermittent hypoxia respiratory training will
further augment activation of the latent pathway to enhance respiratory recovery. Additionally, local reactive
astrocyte stimulation via AAV-mediated induction of astrocyte-targeted LZK expression at the level of phrenic
nucleus will be tested as a therapeutic approach to recover breathing function after spinal cord injury.
Status | Finished |
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Effective start/end date | 2/1/24 → 2/1/24 |
Funding
- KY Spinal Cord and Head Injury Research Trust
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