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Ageing-associated myelin dysfunction as a driver of amyloid deposition in Alzheimer’s disease

dc.contributor.advisorNave, Klaus-Armin Prof. Dr.
dc.contributor.authorDepp, Constanze Martha
dc.titleAgeing-associated myelin dysfunction as a driver of amyloid deposition in Alzheimer’s diseasede
dc.contributor.refereeNave, Klaus-Armin Prof. Dr.
dc.description.abstractengAlzheimer’s disease (AD) is the most common neurodegenerative disease with increasing prevalence due to longer lifespans in the human population. AD manifests as various age-associated cognitive impairments summarised under the syndrome of dementia. Why ageing constitutes the greatest risk factor for the development of AD, however, remains poorly understood. Ageing markedly affects the integrity of myelin at the ultrastructural level, with myelin splitting, outfoldings and secondary low-grade inflammation. In addition to the well-established role of oligodendroglia in producing insulating myelin, these glia cells also provide throphic support to ensheathed axons. Structural breakdown of myelin during ageing likely effects both insulation and metabolic support function of oligodendrocytes. This puts ensheathed axons and their neurons at risk for starvation and malfunction which could contribute to the development of neurodegenerative diseases upon ageing. Intriguingly, age-related myelin breakdown coincides with the beginning of amyloid build-up in the brain, the primary neuropathological hallmark of AD. I propose a mechanistic link between ageing-associated myelin dysfunction and the deposition of amyloid-β (Aβ) and hypothesised that breakdown of myelin - especially in cortical regions – is an upstream driver of amyloid deposition in AD. In my doctorate, I examined this possible link in proof of principle experiments in vivo by combining mouse models of myelin dysfunction with AD mouse models. I here show that in mouse models of AD (5xFAD, APPNLGF) genetically induced myelin defects (knockout of CNP or PLP1) as well as direct demyelinating injuries (experimental autoimmune encephalomyelitis, Cuprizone feeding) are potent drivers of amyloid deposition as shown by quantitative 3D light sheet microscopy. Conversely, lack of compact myelin in forebrain specific MBP knockout animals (“shiverer”) ameliorates plaque deposition. Behavioural analysis revealed synergistic effects of myelin defects and amyloid pathology on the manifestation of impairments. Mechanistically, I show that myelin dysfunction leads to the accumulation of the Aβ producing machinery (APP, β- and ɣ-secretase) in axonal spheroids and enhanced cortical APP cleavage. Additionally, I observed a profound loss of plaque-corralling microglia in AD mice with defective myelin. Transcriptomic analysis of isolated microglia revealed, however, that the disease-associated microglia (DAM) signature found in plaque-corralling microglia in 5xFADs is preserved in microglia additionally challenged with myelin. Indeed, myelin dysfunction alone is sufficient to induce a DAM-like state as shown by single nuclei RNA sequencing. I conclude that upon myelin damage in the brain microglia become primarily engaged in myelin clearance which renders them unresponsive to amyloid and prevents the protective reactions of microglia to Aβ plaques. The work presented in this thesis identifies myelin ageing as a previously overlooked risk factor for AD and makes the case for myelin health-directed therapies to combat
dc.contributor.coRefereeBayer, Thomas Prof. Dr.
dc.subject.engAlzheimer's diseasede
dc.affiliation.instituteGöttinger Graduiertenschule für Neurowissenschaften, Biophysik und molekulare Biowissenschaften (GGNB)de
dc.subject.gokfullBiologie (PPN619462639)de

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