Hypoxia Reduces Tau Aggregation Caused by Mitochondrial Bio-energetic Deficits
Sushila Thapa, Raghbendra Dutta, Esther Ojumah, Isaiah Smith, Matt Kaeberlein, Anthony Grillo

TL;DR
This study shows that hypoxia can reduce tau protein aggregation and neuroinflammation in models of mitochondrial dysfunction, suggesting it may be a potential treatment for related diseases.
Contribution
The study reveals that hypoxia mitigates tau pathology and neuroinflammation in mitochondrial dysfunction models, offering a novel therapeutic strategy.
Findings
Hypoxia normalized elevated oxygen levels and reduced astrogliosis and microglial activation in Ndufs4 KO mice.
Hypoxia decreased hyperphosphorylated tau in Ndufs4 KO mice but not in P301S mutant mice.
Complex I inhibition in human neuroblastoma cells increased tau phosphorylation, linking mitochondrial dysfunction to tau pathology.
Abstract
Tauopathies are marked by abnormal phosphorylation of the tau protein and are often linked to mitochondrial dysfunction. Among mitochondrial complexes, Complex I impairment has been associated with enhanced tau pathology, but the exact underlying mechanism remains unknown. Our study examines whether hypoxia can modulate tau phosphorylation and neuroinflammatory responses in models of mitochondrial and tau pathology. In Ndufs4 knockout (KO) mice, a model of primary Complex I deficiency, abnormally high brain oxygen tensions contribute to disease progression. Chronic exposure to a reduced oxygen environment (hypoxia) normalized these elevated oxygen levels, significantly decreasing astrogliosis and microglial activation. Additionally, hypoxia-treated Ndufs4 KO mice exhibited a reduction in hyperphosphorylated tau, suggesting that oxygen normalization mitigates tau pathology in the context…
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Taxonomy
TopicsAlzheimer's disease research and treatments · Mitochondrial Function and Pathology · Neurological Disease Mechanisms and Treatments
