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Selective suppression of oligodendrocyte-derived amyloid beta rescues neuronal dysfunction in Alzheimer’s disease

Rikesh M. Rajani, Robert Ellingford, Mariam Hellmuth, Sam Harris, Orjona Taso, David Graykowski, Francesca Kar Wey Lam, Charles Arber, Emre Fertan, John S. H. Danial, Matthew Swire, Marcus Lloyd, Tatiana A. Giovannucci, Mathieu Bourdenx, David Klenerman, Robert Vassar, Selina Wray, Carlo Sala Frigerio, Marc Aurel Busche

2024PLoS Biology46 citationsDOIOpen Access PDF

Abstract

Reduction of amyloid beta (Aβ) has been shown to be effective in treating Alzheimer's disease (AD), but the underlying assumption that neurons are the main source of pathogenic Aβ is untested. Here, we challenge this prevailing belief by demonstrating that oligodendrocytes are an important source of Aβ in the human brain and play a key role in promoting abnormal neuronal hyperactivity in an AD knock-in mouse model. We show that selectively suppressing oligodendrocyte Aβ production improves AD brain pathology and restores neuronal function in the mouse model in vivo. Our findings suggest that targeting oligodendrocyte Aβ production could be a promising therapeutic strategy for treating AD.

Topics & Concepts

OligodendrocyteBiologyNeuroscienceAmyloid betaAlzheimer's diseaseBETA (programming language)Amyloid (mycology)DiseaseIn vivoCentral nervous systemMyelinPathologyMedicineGeneticsComputer scienceProgramming languageBotanyAlzheimer's disease research and treatmentsNeurogenesis and neuroplasticity mechanismsNeuroinflammation and Neurodegeneration Mechanisms
Selective suppression of oligodendrocyte-derived amyloid beta rescues neuronal dysfunction in Alzheimer’s disease | Litcius