AI Article Synopsis
- Accumulation of amyloid-β (Aβ) and tau proteins in the brains of Alzheimer's disease (AD) patients occurs gradually, and new research suggests this process may contribute to initiating AD symptoms.
- The abnormal accumulation of tau proteins in neurons is linked to their negative effects on nuclear and mitochondrial functions, potentially impacting neuronal communication and health.
- Emerging treatment strategies, such as the use of ultrasound to clear harmful Aβ and tau, are being explored alongside advancements in drug delivery and vaccination approaches, focusing on reducing tau synthesis instead of just its modifications.
Article Abstract
Accumulation of the peptide amyloid-β (Aβ) and the protein tau in Alzheimer's disease (AD) brains is a gradual process that involves the post-translational modification and assembly of monomeric forms into larger structures that eventually form fibrillar inclusions. This process is thought to both drive and initiate AD. However, why the axonally enriched tau in the course of AD accumulates in the somatodendritic domain is not fully understood. We discuss new data that provide a possible explanation that involves de novo protein synthesis, induced by Aβ and mediated through the kinase Fyn. We further discuss how in a pathological state, tau, being a scaffolding protein, impairs nuclear and mitochondrial functions and reduces action potential generation at the axon initial segment. Pathological tau can further be packaged into exosomes, released by one neuron and taken up by another, contributing to its pathogenicity. We also present our new work that suggests ultrasound as a new treatment modality to clear pathological Aβ and tau. We put this work into perspective, discussing current vaccination strategies and improved brain delivery methods involving antibody engineering and viral approaches. We propose that rather than reducing post-translational modifications of tau, its levels and de novo synthesis need to be reduced. We anticipate a surge in combinatorial strategies, simultaneously targeting multiple pathologies, and an improved drug delivery to the brain facilitated by emerging technologies such as ultrasound.
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| http://dx.doi.org/10.3233/JAD-179907 | DOI Listing |
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