High-level neuronal expression of abeta 1-42 in wild-type human amyloid protein precursor transgenic mice: synaptotoxicity without plaque formation.
Lennart Mucke,Eliezer Masliah,Gui-Qiu Yu,Margaret Mallory,Edward Rockenstein,Gwen Tatsuno,Kang Hu,Dora Kholodenko,Kelly Johnson-Wood,Lisa McConlogue +9 more
TLDR
It is concluded that Aβ is synaptotoxic even in the absence of plaques and that high levels of Aβ1–42 are insufficient to induce plaque formation in mice expressing wild-type hAPP, supporting the emerging view that plaque-independent Aβ toxicity plays an important role in the development of synaptic deficits in AD and related conditions.Abstract:
Amyloid plaques are a neuropathological hallmark of Alzheimer's disease (AD), but their relationship to neurodegeneration and dementia remains controversial. In contrast, there is a good correlation in AD between cognitive decline and loss of synaptophysin-immunoreactive (SYN-IR) presynaptic terminals in specific brain regions. We used expression-matched transgenic mouse lines to compare the effects of different human amyloid protein precursors (hAPP) and their products on plaque formation and SYN-IR presynaptic terminals. Four distinct minigenes were generated encoding wild-type hAPP or hAPP carrying mutations that alter the production of amyloidogenic Aβ peptides. The platelet-derived growth factor β chain promoter was used to express these constructs in neurons. hAPP mutations associated with familial AD (FAD) increased cerebral Aβ1–42 levels, whereas an experimental mutation of the β-secretase cleavage site (671M→I) eliminated production of human Aβ. High levels of Aβ1–42 resulted in age-dependent formation of amyloid plaques in FAD-mutant hAPP mice but not in expression-matched wild-type hAPP mice. Yet, significant decreases in the density of SYN-IR presynaptic terminals were found in both groups of mice. Across mice from different transgenic lines, the density of SYN-IR presynaptic terminals correlated inversely with Aβ levels but not with hAPP levels or plaque load. We conclude that Aβ is synaptotoxic even in the absence of plaques and that high levels of Aβ1–42are insufficient to induce plaque formation in mice expressing wild-type hAPP. Our results support the emerging view that plaque-independent Aβ toxicity plays an important role in the development of synaptic deficits in AD and related conditions.read more
Citations
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Journal ArticleDOI
The Amyloid Hypothesis of Alzheimer's Disease: Progress and Problems on the Road to Therapeutics
John Hardy,Dennis J. Selkoe +1 more
TL;DR: It has been more than 10 years since it was first proposed that the neurodegeneration in Alzheimer's disease (AD) may be caused by deposition of amyloid β-peptide in plaques in brain tissue and the rest of the disease process is proposed to result from an imbalance between Aβ production and Aβ clearance.
Journal ArticleDOI
Naturally secreted oligomers of amyloid beta protein potently inhibit hippocampal long-term potentiation in vivo.
Dominic M. Walsh,Igor Klyubin,Julia V. Fadeeva,William K. Cullen,Roger Anwyl,Michael S. Wolfe,Michael J. Rowan,Dennis J. Selkoe +7 more
TL;DR: It is reported that natural oligomers of human Aβ are formed soon after generation of the peptide within specific intracellular vesicles and are subsequently secreted from the cell, indicating that synaptotoxic Aβ oligomers can be targeted therapeutically.
Journal ArticleDOI
Alzheimer's Disease Is a Synaptic Failure
TL;DR: Mounting evidence suggests that this syndrome begins with subtle alterations of hippocampal synaptic efficacy prior to frank neuronal degeneration, and that the synaptic dysfunction is caused by diffusible oligomeric assemblies of the amyloid β protein.
Journal ArticleDOI
Amyloid-beta protein dimers isolated directly from Alzheimer's brains impair synaptic plasticity and memory.
Ganesh M. Shankar,Shaomin Li,Tapan Mehta,Amaya Garcia-Munoz,Nina E. Shepardson,Imelda M. Smith,Francesca Brett,Michael A. Farrell,Michael J. Rowan,Cynthia A. Lemere,Ciaran M. Regan,Dominic M. Walsh,Bernardo L. Sabatini,Dennis J. Selkoe +13 more
TL;DR: It is concluded that soluble Aβ oligomers extracted from Alzheimer's disease brains potently impair synapse structure and function and that dimers are the smallest synaptotoxic species.
Journal ArticleDOI
Pathways towards and away from Alzheimer's disease
TL;DR: Rapid progress towards understanding the cellular and molecular alterations that are responsible for the neuron's demise may soon help in developing effective preventative and therapeutic strategies in Alzheimer's disease.
References
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