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. 2023 Aug;49(4):e12924.
doi: 10.1111/nan.12924.

Nanoscale reorganisation of synaptic proteins in Alzheimer's disease

Wang-Hui Zhu  1   2 Xiao-Xu Yang  1   3   4 Xu-Zhuo Gou  1   2 Shu-Mei Fu  1   3   4 Jia-Hui Chen  1   2   4 Feng Gao  3 Yong Shen  3   4   5 Dan-Lei Bi  2   3   4   5 Ai-Hui Tang  1   2   3   4
Affiliations

Nanoscale reorganisation of synaptic proteins in Alzheimer's disease

Wang-Hui Zhu et al. Neuropathol Appl Neurobiol. 2023 Aug.

Erratum in

Abstract

Aims: Synaptic strength depends strongly on the subsynaptic organisation of presynaptic transmitter release and postsynaptic receptor densities, and their alterations are expected to underlie pathologies. Although synaptic dysfunctions are common pathogenic traits of Alzheimer's disease (AD), it remains unknown whether synaptic protein nano-organisation is altered in AD. Here, we systematically characterised the alterations in the subsynaptic organisation in cellular and mouse models of AD.

Methods: We used immunostaining and super-resolution stochastic optical reconstruction microscopy imaging to quantitatively examine the synaptic protein nano-organisation in both Aβ1-42-treated neuronal cultures and cortical sections from a mouse model of AD, APP23 mice.

Results: We found that Aβ1-42-treatment of cultured hippocampal neurons decreased the synaptic retention of postsynaptic scaffolds and receptors and disrupted their nanoscale alignment to presynaptic transmitter release sites. In cortical sections, we found that while GluA1 receptors in wild-type mice were organised in subsynaptic nanoclusters with high local densities, receptors in APP23 mice distributed more homogeneously within synapses. This reorganisation, together with the reduced overall receptor density, led to reduced glutamatergic synaptic transmission. Meanwhile, the transsynaptic alignment between presynaptic release-guiding RIM1/2 and postsynaptic scaffolding protein PSD-95 was reduced in APP23 mice. Importantly, these reorganisations were progressive with age and were more pronounced in synapses in close vicinity of Aβ plaques with dense cores.

Conclusions: Our study revealed a spatiotemporal-specific reorganisation of synaptic nanostructures in AD and identifies dense-core amyloid plaques as the major local inductor in APP23 mice.

Keywords: Alzheimer's disease; amyloid-β; stochastic optical reconstruction microscopy; super-resolution microscopy; synaptic nanodomain architecture.

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References

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