AI Article Synopsis
- Despite advances in understanding CNS axon regeneration, promoting recovery of the corticospinal tract (CST) after spinal cord injuries is still challenging.
- Researchers used single-cell RNA sequencing to analyze regenerating CST neurons after certain gene deletions, developing a Regeneration Classifier to predict regeneration potential in different neuron types.
- Findings revealed the significance of antioxidant responses and mitochondrial biogenesis in regeneration, identifying NFE2L2 (NRF2) as crucial for CST regeneration and indicating a universal transcriptomic signature across various neuronal populations.
Article Abstract
Despite substantial progress in understanding the biology of axon regeneration in the CNS, our ability to promote regeneration of the clinically important corticospinal tract (CST) after spinal cord injury remains limited. To understand regenerative heterogeneity, we conducted patch-based single-cell RNA sequencing on rare regenerating CST neurons at high depth following PTEN and SOCS3 deletion. Supervised classification with Garnett gave rise to a Regeneration Classifier, which can be broadly applied to predict the regenerative potential of diverse neuronal types across developmental stages or after injury. Network analyses highlighted the importance of antioxidant response and mitochondrial biogenesis. Conditional gene deletion validated a role for NFE2L2 (or NRF2), a master regulator of antioxidant response, in CST regeneration. Our data demonstrate a universal transcriptomic signature underlying the regenerative potential of vastly different neuronal populations and illustrate that deep sequencing of only hundreds of phenotypically identified neurons has the power to advance regenerative biology.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10843387 | PMC |
| http://dx.doi.org/10.1016/j.neuron.2023.09.019 | DOI Listing |
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