AI Article Synopsis
- Multiple sclerosis (MS) causes inflammation and damage to the central nervous system, leading to periods of myelin repair, but some tissue damage can still persist.
- In a study using mice, researchers induced acute demyelination and found that although myelin and oligodendrocyte levels returned to normal after recovery, axonal degeneration and glial cell activation continued in the brain's corpus callosum.
- The study also revealed increased inflammation-related gene activity, suggesting that sustained damage from microglia and macrophages contributes to ongoing neurodegeneration and functional decline in MS patients.
Article Abstract
Multiple sclerosis (MS) is a chronic inflammatory disease of the central nervous system (CNS) with episodes of inflammatory demyelination and remyelination. While remyelination has been linked with functional recovery in MS patients, there is evidence of ongoing tissue damage despite complete myelin repair. In this study, we investigated the long-term consequences of an acute demyelinating white matter CNS lesion. For this purpose, acute demyelination was induced by 5-week-cuprizone intoxication in male C57BL/6 J mice, and the tissues were examined after a 7-month recovery period. While myelination and oligodendrocyte densities appeared normal, ongoing axonal degeneration and glia cell activation were found in the remyelinated corpus callosum. Neuropathologies were paralleled by subtle gait abnormalities evaluated using DigiGait™ high speed ventral plane videography. Gene array analyses revealed increased expression levels of various inflammation related genes, among protein kinase c delta (PRKCD). Immunofluorescence stains revealed predominant microglia/macrophages PRKCD expression in both, cuprizone tissues and post-mortem MS lesions. These results support the hypothesis that chronic microglia/macrophages driven tissue injury represents a key aspect of progressive neurodegeneration and functional decline in MS.
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| http://dx.doi.org/10.1016/j.nbd.2021.105371 | DOI Listing |
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