AI Article Synopsis
- Interstitial neurons in the white matter of the adult human brain may originate from cortical progenitor cells and express markers associated with cortical layers, a concept previously unexplored.
- In patients with drug-resistant epilepsy, interstitial neurons showed higher levels of non-phosphorylated neurofilament protein and increased densities of glutamatergic and GABAergic synaptic puncta compared to controls.
- These findings suggest that interstitial neurons might contribute to an imbalanced synaptic network in the white matter, playing a role in the mechanisms underlying drug-resistant epilepsy.
Article Abstract
The interstitial neurons in the white matter of the human and non-human primate cortex share a similar developmental origin with subplate neurons and deep-layer cortical neurons. A subset of interstitial neurons expresses the molecular markers of subplate neurons, but whether interstitial neurons express cortical layer markers in the adult human brain remains unexplored. Here we report the expression of cortical layer markers in interstitial neurons in the white matter of the adult human brain, supporting the hypothesis that interstitial neurons could be derived from cortical progenitor cells. Furthermore, we found increased non-phosphorylated neurofilament protein (NPNFP) expression in interstitial neurons in the white matter of drug-resistant epilepsy patients. We also identified the expression of glutamatergic and g-aminobutyric acid (GABAergic) synaptic puncta that were distributed in the perikarya and dendrites of interstitial neurons. The density of glutamatergic and GABAergic synaptic puncta was increased in interstitial neurons in the white matter of drug-resistant epilepsy patients compared with control brain tissues with no history of epilepsy. Together, our results provide important insights of the molecular identity of interstitial neurons in the adult human white matter. Increased synaptic density of interstitial neurons could result in an imbalanced synaptic network in the white matter and participate as part of the epileptic network in drug-resistant epilepsy.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10137301 | PMC |
| http://dx.doi.org/10.3390/brainsci13040626 | DOI Listing |
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