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Title

Disruption of neurofascin localization reveals early changes preceding demyelination and remyelination in multiple sclerosis

Authors
Howell, O W
Palser, A
Polito, A
Melrose, S
Zonta, B
Vora, A J
Brophy, P J
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Published in Brain. 2006, vol. 129, no. Pt 12, p. 3173-3185
Abstract Saltatory conduction in the nervous system is enabled through the intimate association between the leading edge of the myelin sheath and the axonal membrane to demarcate the node of Ranvier. The 186 kDa neuron specific isoform of the adhesion molecule neurofascin (Nfasc186) is required for the clustering of voltage gated Na+ channels at the node, whilst the 155 kDa glial specific isoform (Nfasc155) is required for the assembly of correct paranodal junctions. In order to understand the relationship between these vital structures and how they are affected in multiple sclerosis we have examined the expression of Nfasc155 and Nfasc186 in areas of inflammation, demyelination and remyelination from post-mortem brains. Fourteen cases of neuropathologically confirmed multiple sclerosis (8 female and 6 male; post-mortem delay 7-24 h; age 37-77 years; and disease duration 15-40 years), comprising 20 tissue blocks with 32 demyelinating or remyelinating lesions, were used in this study. A significant early alteration in Nfasc155+ paranodal structures occurs within and adjacent to actively demyelinating white matter lesions that are associated with damaged axons. Shaker-type Kv1.2 channels, normally located distally to the paranode, overlapped with the disrupted Nfasc155+ structures. In the absence of Nfasc155, Kv1.2 channels abutted normally clustered Nfasc186+ nodes, indicating that complete disruption of the paranodal structure and movement of Kv1.2 channels precede alterations at the node itself. Within areas of partial remyelination, a number of atypical triple-Nfasc155+ structures were noted that may represent transient oligodendrocyte-axonal contacts during the process of myelin repair or aberrant interactions. Within shadow plaques discretely clustered Na+v, Nfasc186+ and Nfasc155+ domains indicated the restoration of normal nodal architecture. The alterations in oligodendrocyte Nfasc155 expression that accompany inflammation and demyelination suggest an ongoing disruption to the axonal-oligodendrocyte complex within newly forming as well as established lesions in multiple sclerosis, resulting in destruction of the Nfasc186+/Na+v nodal complex vital to successful fast neurotransmission in the CNS.
Keywords AdultAgedAutopsyAxons/chemistry/pathology/physiologyBrain/pathology/physiopathologyBrain ChemistryCell Adhesion Molecules/analysisFemaleHumansImmunohistochemistry/methodsInflammation/pathologyMaleMiddle AgedMultiple Sclerosis/metabolism/pathology/physiopathologyMyelin Sheath/pathology/physiologyNerve Fibers, Myelinated/chemistry/pathology/physiologyNerve Growth Factors/analysisOligodendroglia/pathologyPotassium ChannelsProtein Isoforms/analysisRanvier's Nodes/pathology
Identifiers
PMID: 17041241
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Article (Published version) (1.6 MB) - document accessible for UNIGE members only Limited access to UNIGE
Research group Groupe Christoph Scheiermann (995)
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HOWELL, O W et al. Disruption of neurofascin localization reveals early changes preceding demyelination and remyelination in multiple sclerosis. In: Brain, 2006, vol. 129, n° Pt 12, p. 3173-3185. doi: 10.1093/brain/awl290 https://archive-ouverte.unige.ch/unige:111564

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Deposited on : 2018-11-28

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