The amyloid cascade-inflammatory hypothesis of Alzheimer disease: implications for therapy
Top Cited Papers
- 20 September 2013
- journal article
- review article
- Published by Springer Nature in Acta Neuropathologica
- Vol. 126 (4), 479-497
- https://doi.org/10.1007/s00401-013-1177-7
Abstract
The amyloid cascade hypothesis is widely accepted as the centerpiece of Alzheimer disease (AD) pathogenesis. It proposes that abnormal production of beta amyloid protein (Abeta) is the cause of AD and that the neurotoxicity is due to Abeta itself or its oligomeric forms. We suggest that this, in itself, cannot be the cause of AD because demonstrating such toxicity requires micromolar concentrations of these Abeta forms, while their levels in brain are a million times lower in the picomolar range. AD probably results from the inflammatory response induced by extracellular Abeta deposits, which later become enhanced by aggregates of tau. The inflammatory response, which is driven by activated microglia, increases over time as the disease progresses. Disease-modifying therapeutic attempts to date have failed and may continue to do so as long as the central role of inflammation is not taken into account. Multiple epidemiological and animal model studies show that NSAIDs, the most widely used antiinflammatory agents, have a substantial sparing effect on AD. These studies provide a proof of concept regarding the anti-inflammatory approach to disease modification. Biomarker studies have indicated that early intervention may be necessary. They have established that disease onset occurs more than a decade before it becomes clinically evident. By combining biomarker and pathological data, it is possible to define six phases of disease development, each separated by about 5 years. Phase one can be identified by decreases in Abeta in the CSF, phase 2 by increases of tau in the CSF plus clear evidence of Abeta brain deposits by PET scanning, phase 3 by slight decreases in brain metabolic rate by PET-FDG scanning, phase 4 by slight decreases in brain volume by MRI scanning plus minimal cognitive impairment, phase 5 by increased scanning abnormalities plus clinical diagnosis of AD, and phase 6 by advanced AD requiring institutional care. Utilization of antiinflammatory agents early in the disease process remains an overlooked therapeutic opportunity. Such agents, while not preventative, have the advantage of being able to inhibit the consequences of both Abeta and tau aggregation. Since there is more than a decade between disease onset and cognitive decline, a window of opportunity exists to introduce truly effective disease-modifying regimens. Taking advantage of this opportunity is the challenge for the future.Keywords
This publication has 173 references indexed in Scilit:
- Amyloid‐beta plaque growth in cognitively normal adults: Longitudinal [11C]Pittsburgh compound B dataAnnals of Neurology, 2011
- Cerebrospinal Fluid Profiles and Prospective Course and Outcome in Patients With Amnestic Mild Cognitive ImpairmentArchives of Neurology, 2010
- Hypothetical model of dynamic biomarkers of the Alzheimer's pathological cascadeThe Lancet Neurology, 2010
- Genome-wide association study identifies variants at CLU and PICALM associated with Alzheimer's diseaseNature Genetics, 2009
- Cerebrospinal fluid biomarker signature in Alzheimer's disease neuroimaging initiative subjectsAnnals of Neurology, 2009
- A Specific Enzyme-Linked Immunosorbent Assay for Measuring β-Amyloid Protein Oligomers in Human Plasma and Brain Tissue of Patients With Alzheimer DiseaseArchives of Neurology, 2009
- Distinct Pools of β-Amyloid in Alzheimer Disease–Affected BrainArchives of Neurology, 2008
- Ibuprofen reduces Aβ, hyperphosphorylated tau and memory deficits in Alzheimer miceBrain Research, 2008
- Neuropathological stageing of Alzheimer-related changesActa Neuropathologica, 1991
- Segregation of a missense mutation in the amyloid precursor protein gene with familial Alzheimer's diseaseNature, 1991