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| Item Type: | Article |
|---|---|
| Title: | Markers of axonal injury in blood and tissue triggered by acute and chronic demyelination |
| Creators Name: | Abdelhak, A., Cordano, C., Duncan, G.J., Emberley, K., Nocera, S., Xin, W., Ananth, K., Jabassini, N., Ning, K., Reinsberg, H., Oertel, F.C., Beaudry-Richard, A., Kuhle, J., Petzold, A., Patel, P.J., Ribeiro Reis, A.P., Foster, P., Watkins, T., Chan, J., Emery, B. and Green, A.J. |
| Abstract: | Neuroaxonal injury is a major driver of irreversible disability in demyelinating conditions. Accurate assessment of the association between demyelination and axonal pathology is critical for evaluating and developing effective therapeutic approaches. Measuring neurofilament light chain (NfL) in blood could putatively allow longitudinal monitoring of neuroaxonal injury at “single protein resolution” with high pathological specificity. Here, we demonstrate a robust association between blood and tissue NfL-based assessment of neuroaxonal injury and severity of inflammatory demyelination in experimental autoimmune encephalitis (EAE). In EAE, high levels of NfL were evident at peak of demyelination and correlated with tissue evidence of NfL loss when using antibodies that target the same NfL epitopes. In addition, we validate the longitudinal NfL dynamics in relation to de- and remyelination in an inducible genetic model of inflammatory-independent myelin loss. Through inducible knockout of myelin regulatory protein (Myrf) in proteolipid protein (PLP) expressing cells in Myrf(fl/fl) PLP1-CreERT (Myrf(ΔiPLP)) mice, serum NfL peaked at time of demyelination and were reduced following effective remyelination. In people with multiple sclerosis, the most common demyelinating condition, we confirmed the association between NfL and myelin breakdown proteins in two independent cohorts using Olink proximity extension assays, the ReBUILD clinical trial, and the MS participants in the UK-Biobank. Our study provides a translational framework to understand the biology behind NfL changes in the context of de- and remyelination and reveals novel aspects related to monitoring potentially reversible neuroaxonal pathology in humans and rodents. |
| Keywords: | Neurofilament Light Chain, Multiple Sclerosis, Neuroprotection, Demyelination, Remyelination |
| Source: | Brain |
| ISSN: | 0006-8950 |
| Publisher: | Oxford University Press |
| Date: | 25 April 2025 |
| Official Publication: | https://doi.org/10.1093/brain/awaf144 |
| PubMed: | View item in PubMed |
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