Aggregation shifts amyloid-β peptides from synaptogenic to synaptotoxic
Alberto Siddu, Silvia Natale, Connie H. Wong, Hamidreza Shaye, Thomas C. Südhof
Alberto Siddu, Silvia Natale, Connie H. Wong, Hamidreza Shaye, Thomas C. Südhof
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Research Article Cell biology Neuroscience

Aggregation shifts amyloid-β peptides from synaptogenic to synaptotoxic

Abstract

Whether amyloid-β (Aβ) peptides are synaptogenic or synaptotoxic remains a pivotal open question in Alzheimer’s disease research. Here, we chronically treated human neurons with precisely controlled concentrations of chemically defined synthetic Aβ40, Aβ42, and Aβ42arctic peptides that exhibit distinct aggregation propensities. Remarkably, chronic exposure of human neurons to free Aβ40 at higher concentrations or to free Aβ42 at lower concentrations potently promoted synapse formation. In contrast, aggregated Aβ42 or Aβ42arctic at higher concentrations were neurotoxic and synaptotoxic. The synaptotoxic effects of Aβ peptides manifested as an initial contraction of the synaptic vesicle cluster followed by synapse loss. Aβ40 and Aβ42 peptides with scrambled or inverted sequences were inactive. Thus, our experiments reveal that Aβ peptides exhibit an aggregation-dependent functional dichotomy that renders them either synaptogenic or synaptotoxic, thereby providing insight into how Aβ peptides straddle a thin line between physiological synapse organization and pathological synapse disruption. Among others, our data suggest that Alzheimer’s disease therapies might aim to shift the balance of Aβ peptides from the aggregated to the free state instead of suppressing all Aβ peptides.

Authors

Alberto Siddu, Silvia Natale, Connie H. Wong, Hamidreza Shaye, Thomas C. Südhof

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Figure 3

Chronic treatment of human neurons with various concentrations of Aβ42 does not significantly alter their dendritic arborization, soma size, endosome numbers, or endosome size.

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Chronic treatment of human neurons with various concentrations of Aβ42 d...
(A and B)Analysis of the dendritic arborization and soma size of neurons as a function of the chronic treatment with Aβ42 fails to reveal major changes (A) representative images of neurons immunolabeled for the somato-dendritic marker MAP2; (B) summary graphs of the dendritic branch numbers and lengths and the soma size). (C and D) Analysis of endosomes in neurons as a function of the chronic treatment with Aβ42 does not uncover significant changes produced by any concentration of Aβ42. (C) Representative images of neurons stained for MAP2 and the endosomal marker EEA1 (insets, expanded single-channel EEA1 images of the neuronal soma). (D) Summary graphs of density and sizes of the EEA1-positive somatic endosomes as a function of Aβ42 concentration. Human neurons were chronically treated with the indicated concentrations of synthetic Aβ42 peptides as described in Figure 1A and examined by confocal microscopy at DIV45. All numerical data are mean ± SEM; numbers of true replicates are reported in the bars (n = 3–4). Statistical significance as prespecified was assessed by 1-way ANOVA with post-hoc corrections, comparing the mean of each group with control (Ctrl). Nonsignificant comparisons are not indicated. More representative images and analyses of the data as pseudo replicates are shown in Supplemental Figure 3. Scale bars: 10 μm; 5 μm (inset).