The amyloid cascade hypothesis: are we poised for success or failure?

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Abstract

The first description of Alzheimer's disease (AD) was made in 1907 by Alois Alzheimer (Allgemeine Zeitschrift fur Psyciatrie und Psychisch-Gerichtliche Medizin 64, 3, 1907), although other contemporary physicians had made similar, and rather more complete, assessments of the neuropathological changes present in the AD brain (Fischer, Monatsschr Psychiat Neurol 22, 17, 1907). Our knowledge of AD has increased dramatically and continues to accelerate. This year is 25 years after the publication of a series of papers that, in various ways, articulated the amyloid cascade hypothesis (ACH) for AD (Beyreuther and Masters, Brain Pathol 1, 241-251, 1991; Hardy and Allsop, Trends Pharmacol Sci 12, 383-388, 1991; Selkoe, Neuron 6, 487-498, 1991; Hardy and Higgins, Science 256, 184-185, 1992). This review will cover some familiar territory, but we shall also place the ACH into a wider context, compare it with other hypotheses for AD, explore the evolution of the hypothesis to encompass new findings, and determine, irrespective of the merits of the hypothesis itself, whether it has been useful for the research field, both in academia and in industry. Finally, we shall review how the ACH has led to a number of therapeutic approaches, all of which have, to date, failed to reach their primary efficacy end-points in clinical trials and reflect upon what the future may hold. We review the amyloid cascade hypothesis (ACH) and compare it with other hypotheses that have been posited to explain the initiation and progression Alzheimer's disease. We document the data that support the ACH, and also reflect upon its deficiencies. We list the recent clinical failures of amyloidocentric drugs and anticipate the results that new therapeutic approaches may deliver. This article is part of the 60th Anniversary special issue.

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A paravascular pathway facilitates CSF flow through the brain parenchyma and the clearance of interstitial solutes, including amyloid β.

Jeffrey J. Iliff, Minghuan Wang, Yonghong Liao … (2012)

Because it lacks a lymphatic circulation, the brain must clear extracellular proteins by an alternative mechanism. The cerebrospinal fluid (CSF) functions as a sink for brain extracellular solutes, but it is not clear how solutes from the brain interstitium move from the parenchyma to the CSF. We demonstrate that a substantial portion of subarachnoid CSF cycles through the brain interstitial space. On the basis of in vivo two-photon imaging of small fluorescent tracers, we showed that CSF enters the parenchyma along paravascular spaces that surround penetrating arteries and that brain interstitial fluid is cleared along paravenous drainage pathways. Animals lacking the water channel aquaporin-4 (AQP4) in astrocytes exhibit slowed CSF influx through this system and a ~70% reduction in interstitial solute clearance, suggesting that the bulk fluid flow between these anatomical influx and efflux routes is supported by astrocytic water transport. Fluorescent-tagged amyloid β, a peptide thought to be pathogenic in Alzheimer's disease, was transported along this route, and deletion of the Aqp4 gene suppressed the clearance of soluble amyloid β, suggesting that this pathway may remove amyloid β from the central nervous system. Clearance through paravenous flow may also regulate extracellular levels of proteins involved with neurodegenerative conditions, its impairment perhaps contributing to the mis-accumulation of soluble proteins.

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Toward defining the preclinical stages of Alzheimer's disease: recommendations from the National Institute on Aging-Alzheimer's Association workgroups on diagnostic guidelines for Alzheimer's disease.

Reisa Sperling, Paul S Aisen, Laurel A. Beckett … (2011)

The pathophysiological process of Alzheimer's disease (AD) is thought to begin many years before the diagnosis of AD dementia. This long "preclinical" phase of AD would provide a critical opportunity for therapeutic intervention; however, we need to further elucidate the link between the pathological cascade of AD and the emergence of clinical symptoms. The National Institute on Aging and the Alzheimer's Association convened an international workgroup to review the biomarker, epidemiological, and neuropsychological evidence, and to develop recommendations to determine the factors which best predict the risk of progression from "normal" cognition to mild cognitive impairment and AD dementia. We propose a conceptual framework and operational research criteria, based on the prevailing scientific evidence to date, to test and refine these models with longitudinal clinical research studies. These recommendations are solely intended for research purposes and do not have any clinical implications at this time. It is hoped that these recommendations will provide a common rubric to advance the study of preclinical AD, and ultimately, aid the field in moving toward earlier intervention at a stage of AD when some disease-modifying therapies may be most efficacious. Copyright © 2011. Published by Elsevier Inc.

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Meta-analysis of 74,046 individuals identifies 11 new susceptibility loci for Alzheimer's disease.

Otto Valladares, Eliecer Coto, Kara L. Hamilton-Nelson … (2014)

Eleven susceptibility loci for late-onset Alzheimer's disease (LOAD) were identified by previous studies; however, a large portion of the genetic risk for this disease remains unexplained. We conducted a large, two-stage meta-analysis of genome-wide association studies (GWAS) in individuals of European ancestry. In stage 1, we used genotyped and imputed data (7,055,881 SNPs) to perform meta-analysis on 4 previously published GWAS data sets consisting of 17,008 Alzheimer's disease cases and 37,154 controls. In stage 2, 11,632 SNPs were genotyped and tested for association in an independent set of 8,572 Alzheimer's disease cases and 11,312 controls. In addition to the APOE locus (encoding apolipoprotein E), 19 loci reached genome-wide significance (P < 5 × 10(-8)) in the combined stage 1 and stage 2 analysis, of which 11 are newly associated with Alzheimer's disease.