Andrew Barry scite author profile

Alzheimer's disease (AD) is characterized neuropathologically by the deposition of different forms of amyloid beta-protein (A beta) including variable amounts of soluble species that correlate with severity of dementia. The extent of synaptic loss in the brain provides the best morphological correlate of cognitive impairment in clinical AD. Animal research on the pathophysiology of AD has therefore focussed on how soluble A beta disrupts synaptic mechanisms in vulnerable brain regions such as the hippocampus. Synaptic plasticity in the form of persistent activity-dependent increases or decreases in synaptic strength provide a neurophysiological substrate for hippocampal-dependent learning and memory. Acute treatment with human-derived or chemically prepared soluble A beta that contains certain oligomeric assemblies, potently and selectively disrupts synaptic plasticity causing inhibition of long-term potentiation (LTP) and enhancement of long-term depression (LTD) of glutamatergic transmission. Over time these and related actions of A beta have been implicated in reducing synaptic integrity. This review addresses the involvement of neurotransmitter intercellular signaling in mediating or modulating the synaptic plasticity disrupting actions of soluble A beta, with particular emphasis on the different roles of glutamatergic and cholinergic mechanisms. There is growing evidence to support the view that NMDA and possibly nicotinic receptors are critically involved in mediating the disruptive effect of A beta and that targeting muscarinic receptors can indirectly modulate A beta's actions. Such studies should help inform ongoing and future clinical trials of drugs acting through the glutamatergic and cholinergic systems.

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A monoclonal antibody against synthetic Aβ dimer assemblies neutralizes brain‐derived synaptic plasticity‐disrupting Aβ

Klyubin

Donald

Foster

et al. 2011

Journal of Neurochemistry

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Diverse lines of evidence indicate that pre-fibrillar, diffusible assemblies of the amyloid β-protein play an important role in Alzheimer’s disease pathogenesis. Although the precise molecular identity of these soluble toxins remains unsettled, recent experiments suggest that SDS-stable amyloid β-protein dimers may be the basic building blocks of Alzheimer’s disease-associated synaptotoxic assemblies and as such present an attractive target for therapeutic intervention. In the absence of sufficient amounts of highly pure cerebral amyloid β-protein dimers, we have used synthetic disulfide cross-linked dimers (free of Aβ monomer or fibrils) to generate conformation-specific monoclonal antibodies. These dimers aggregate to form kinetically trapped protofibrils, but do not readily form fibrils. We identified two antibodies, 3C6 and 4B5, which preferentially bind assemblies formed from covalent Aβ dimers, but do not bind to amyloid β-protein monomer, amyloid precursor protein, or aggregates formed by other amyloidogenic proteins. Monoclonal antibody 3C6, but not an IgM isotype-matched control antibody, ameliorated the plasticity-disrupting effects of Aβ extracted from the aqueous phase of Alzheimer’s disease brain, thus suggesting that 3C6 targets pathogenically relevant amyloid β-protein assemblies. These data prove the usefulness of covalent dimers and their assemblies as immunogens and recommend further investigation of the therapeutic and diagnostic utility of monoclonal antibodies raised to such assemblies.

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Andrew Barry

Alzheimer's Disease Brain-Derived Amyloid-β-Mediated Inhibition of LTPIn VivoIs Prevented by Immunotargeting Cellular Prion Protein

Alzheimer’s Disease Amyloid β-Protein and Synaptic Function

A monoclonal antibody against synthetic Aβ dimer assemblies neutralizes brain‐derived synaptic plasticity‐disrupting Aβ

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