AI Article Synopsis
- The study examines the occurrence of de novo-generated neuronal tetraploidy (dnNT) in Alzheimer's disease and normal aging, discovering that dnNT happens in both superficial and deep cortical layers of adult mice.
- The blockage of dnNT via the E2F1 gene leads to improved cognition even with reduced neurogenesis in the hippocampus.
- In humans, dnNT is primarily seen in the entorhinal cortex with Alzheimer’s disease also affecting association cortices, pointing to a connection between altered amyloid processing and enhanced dnNT prior to the onset of typical Alzheimer’s symptoms.
Article Abstract
A controversy exists as to whether de novo-generated neuronal tetraploidy (dnNT) occurs in Alzheimer's disease. In addition, the presence of age-associated dnNT in the normal brain remains unexplored. Here we show that age-associated dnNT occurs in both superficial and deep layers of the cerebral cortex of adult mice, a process that is blocked in the absence of E2F1, a known regulator of cell cycle progression. This blockage correlates with improved cognition despite compromised neurogenesis in the adult hippocampus was confirmed in mice lacking the E2f1 gene. We also show that the human cerebral cortex contains tetraploid neurons. In normal humans, age-associated dnNT specifically occurs in the entorhinal cortex whereas, in Alzheimer, dnNT also affects association cortices prior to neurofibrillary tangle formation. Alzheimer-associated dnNT is likely potentiated by altered amyloid precursor protein (APP) processing as it is enhanced in the cerebral cortex of young APP/PS1 mice, long before the first amyloid plaques are visible in their brains. In contrast to age-associated dnNT, enhanced dnNT in APP/PS1 mice mostly affects the superficial cortical layers. The correlation of dnNT with reduced cognition in mice and its spatiotemporal course, preceding and recapitulating Alzheimer-associated neuropathology, makes this process a potential target for intervention in Alzheimer's disease.
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| http://dx.doi.org/10.1016/j.neurobiolaging.2017.04.008 | DOI Listing |
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