AI Article Synopsis
- Loss of synapses in Alzheimer's disease (AD) is closely linked to cognitive deficits, but the exact mechanisms are still not fully understood.
- Mitochondrial dysfunction, which is a key early feature of AD, affects synaptic function by disrupting energy production and calcium regulation, leading to synaptic deficits.
- The study used electron microscopy to examine brain samples from AD patients, revealing reduced synaptic vesicle density and increased damaged mitochondria in both presynaptic and postsynaptic areas, highlighting the contribution of mitochondrial dysfunction to synaptic loss in AD.
Article Abstract
Loss of synapses is the most robust pathological correlate of Alzheimer's disease (AD)-associated cognitive deficits, although the underlying mechanism remains incompletely understood. Synaptic terminals have abundant mitochondria which play an indispensable role in synaptic function through ATP provision and calcium buffering. Mitochondrial dysfunction is an early and prominent feature in AD which could contribute to synaptic deficits. Here, using electron microscopy, we examined synapses with a focus on mitochondrial deficits in presynaptic axonal terminals and dendritic spines in cortical biopsy samples from clinically diagnosed AD and age-matched non-AD control patients. Synaptic vesicle density within the presynaptic axon terminals was significantly decreased in AD cases which appeared largely due to significantly decreased reserve pool, but there were significantly more presynaptic axons containing enlarged synaptic vesicles or dense core vesicles in AD. Importantly, there was reduced number of mitochondria along with significantly increased damaged mitochondria in the presynapse of AD which correlated with changes in SV density. Mitochondria in the post-synaptic dendritic spines were also enlarged and damaged in the AD biopsy samples. This study provided evidence of presynaptic vesicle loss as synaptic deficits in AD and suggested that mitochondrial dysfunction in both pre- and post-synaptic compartments contribute to synaptic deficits in AD.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10067183 | PMC |
| http://dx.doi.org/10.1186/s40478-023-01552-7 | DOI Listing |
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