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Mitochondrial ubiquitin ligase alleviates Alzheimer’s disease pathology via blocking the toxic amyloid-β oligomer generation

Keisuke Takeda, Aoi Uda, Mikihiro Mitsubori, Shun Nagashima, Hiroko Iwasaki, Naoki Ito, Isshin Shiiba, Satoshi Ishido, Masaaki Matsuoka, Ryoko Inatome, Shigeru Yanagi

2021Communications Biology32 citationsDOIOpen Access PDF

Abstract

Mitochondrial pathophysiology is implicated in the development of Alzheimer's disease (AD). An integrative database of gene dysregulation suggests that the mitochondrial ubiquitin ligase MITOL/MARCH5, a fine-tuner of mitochondrial dynamics and functions, is downregulated in patients with AD. Here, we report that the perturbation of mitochondrial dynamics by MITOL deletion triggers mitochondrial impairments and exacerbates cognitive decline in a mouse model with AD-related Aβ pathology. Notably, MITOL deletion in the brain enhanced the seeding effect of Aβ fibrils, but not the spontaneous formation of Aβ fibrils and plaques, leading to excessive secondary generation of toxic and dispersible Aβ oligomers. Consistent with this, MITOL-deficient mice with Aβ etiology exhibited worsening cognitive decline depending on Aβ oligomers rather than Aβ plaques themselves. Our findings suggest that alteration in mitochondrial morphology might be a key factor in AD due to directing the production of Aβ form, oligomers or plaques, responsible for disease development.

Topics & Concepts

OligomerUbiquitin ligaseAmyloid βBlocking (statistics)UbiquitinChemistryAmyloid (mycology)DiseaseAlzheimer's diseasePathologyMedicineBiochemistryComputer scienceGeneOrganic chemistryComputer networkAlzheimer's disease research and treatmentsMitochondrial Function and PathologyGenetics and Neurodevelopmental Disorders
Mitochondrial ubiquitin ligase alleviates Alzheimer’s disease pathology via blocking the toxic amyloid-β oligomer generation | Litcius