期刊
BRAIN
卷 138, 期 -, 页码 1992-2004出版社
OXFORD UNIV PRESS
DOI: 10.1093/brain/awv127
关键词
synaptic transmission; Alzheimer's disease; amyloid; gene expression; mouse
资金
- Medical Research Council, UK [MR/J011851/1]
- Alzheimer's Research UK
- GlaxoSmithKline
- Alzheimers Research UK [ARUK-SRF2013-7] Funding Source: researchfish
- Medical Research Council [MR/J011851/1] Funding Source: researchfish
- MRC [MR/J011851/1] Funding Source: UKRI
Detecting and treating Alzheimer's disease, before cognitive deficits occur, has become the health challenge of our time. The earliest known event in Alzheimer's disease is rising amyloid-beta. Previous studies have suggested that effects on synaptic transmission may precede plaque deposition. Here we report how relative levels of different soluble amyloid-beta peptides in hippocampus, preceding plaque deposition, relate to synaptic and genomic changes. Immunoprecipitation-mass spectrometry was used to measure the early rise of different amyloid-beta peptides in a mouse model of increasing amyloid-beta ('TASTPM', transgenic for familial Alzheimer's disease genes APP/PSEN1). In the third postnatal week, several amyloid-b peptides were above the limit of detection, including amyloid-beta(40), amyloid-beta(38) and amyloid-beta(42) with an intensity ratio of 6: 3: 2, respectively. By 2 months amyloid-beta levels had only increased by 50% and although the ratio of the different peptides remained constant, the first changes in synaptic currents, compared to wild-type mice could be detected with patch-clamp recordings. Between 2 and 4 months old, levels of amyloid-beta(40) rose by similar to 7-fold, but amyloid-beta(42) rose by 25-fold, increasing the amyloid-beta(42): amyloid-beta(40) ratio to 1: 1. Only at 4 months did plaque deposition become detectable and only in some mice; however, synaptic changes were evident in all hippocampal fields. These changes included increased glutamate release probability (P < 0.001, n = 7-9; consistent with the proposed physiological effect of amyloid-beta) and loss of spontaneous action potential-mediated activity in the cornu ammonis 1 (CA1) and dentate gyrus regions of the hippocampus (P < 0.001, n = 7). Hence synaptic changes occur when the amyloid-beta levels and amyloid-beta(42): amyloid-beta(40) ratio are still low compared to those necessary for plaque deposition. Genome-wide microarray analysis revealed changes in gene expression at 2-4 months including synaptic genes being strongly affected but often showing significant changes only by 4 months. We thus demonstrate that, in a mouse model of rising amyloid-beta, the initial deposition of plaques does not occur until several months after the first amyloid-beta becomes detectable but coincides with a rapid acceleration in the rise of amyloid-beta levels and the amyloid-beta(42): amyloid-beta(40) ratio. Prior to acceleration, however, there is already a pronounced synaptic dysfunction, reflected as changes in synaptic transmission and altered gene expression, indicating that restoring synaptic function early in the disease progression may represent the earliest possible target for intervention in the onset of Alzheimer's disease.
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