Copper ions, prion protein and Aβ modulate Ca levels in central nervous system myelin in an NMDA receptor-dependent manner

dc.contributor.authorTsutsui, Shigeki
dc.contributor.authorMorgan, Megan
dc.contributor.authorTedford, Hugo
dc.contributor.authorYou, Haitao
dc.contributor.authorZamponi, Gerald W.
dc.contributor.authorStys, Peter K.
dc.date.accessioned2022-07-31T00:03:36Z
dc.date.available2022-07-31T00:03:36Z
dc.date.issued2022-07-26
dc.date.updated2022-07-31T00:03:36Z
dc.description.abstractAbstract As in neurons, CNS myelin expresses N-Methyl-D-Aspartate Receptors (NMDARs) that subserve physiological roles, but have the potential to induce injury to this vital element. Using 2-photon imaging of myelinic Ca in live ex vivo mouse optic nerves, we show that Cu ions potently modulate Ca levels in an NMDAR-dependent manner. Chelating Cu in the perfusate induced a substantial increase in Ca levels, and also caused significant axo-myelinic injury. Myelinic NMDARs are shown to be regulated by cellular prion protein; only in prion protein KO optic nerves does application of NMDA + D-serine induce a large Ca increase, consistent with strong desensitization of these receptors in the presence of prion protein limiting Ca overload. Aβ1-42 peptide induced a large Ca increase that was also Cu-dependent, and was blocked by NMDAR antagonism. Our results indicate that like in neurons, myelinic NMDARs permeate potentially injurious amounts of Ca, and are also potently regulated by micromolar Cu and activated by Aβ1-42 peptides. These findings shed mechanistic light on the important primary white matter injury frequently observed in Alzheimer's brain.
dc.identifier.citationMolecular Brain. 2022 Jul 26;15(1):67
dc.identifier.doihttps://doi.org/10.1186/s13041-022-00955-2
dc.identifier.urihttp://hdl.handle.net/1880/114900
dc.identifier.urihttps://doi.org/10.11575/PRISM/44824
dc.language.rfc3066en
dc.rights.holderThe Author(s)
dc.titleCopper ions, prion protein and Aβ modulate Ca levels in central nervous system myelin in an NMDA receptor-dependent manner
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