The probabilistic model of Alzheimer disease: the amyloid hypothesis revised

Giovanni B. Frisoni; Daniele Altomare; Dietmar Rudolf Thal; Federica Ribaldi; Rik van der Kant; Rik Ossenkoppele; Kaj Blennow; Jeffrey Cummings; Cornelia van Duijn; Peter M. Nilsson; Pierre Yves Dietrich; Philip Scheltens; Bruno Dubois

doi:10.1038/s41583-021-00533-w

The probabilistic model of Alzheimer disease: the amyloid hypothesis revised

Giovanni B. Frisoni, Daniele Altomare, Dietmar Rudolf Thal, Federica Ribaldi, Rik van der Kant, Rik Ossenkoppele, Kaj Blennow, Jeffrey Cummings, Cornelia van Duijn, Peter M. Nilsson, Pierre Yves Dietrich, Philip Scheltens, Bruno Dubois

Research output: Contribution to journal › Review article › peer-review

Abstract

The current conceptualization of Alzheimer disease (AD) is driven by the amyloid hypothesis, in which a deterministic chain of events leads from amyloid deposition and then tau deposition to neurodegeneration and progressive cognitive impairment. This model fits autosomal dominant AD but is less applicable to sporadic AD. Owing to emerging information regarding the complex biology of AD and the challenges of developing amyloid-targeting drugs, the amyloid hypothesis needs to be reconsidered. Here we propose a probabilistic model of AD in which three variants of AD (autosomal dominant AD, APOE ε4-related sporadic AD and APOE ε4-unrelated sporadic AD) feature decreasing penetrance and decreasing weight of the amyloid pathophysiological cascade, and increasing weight of stochastic factors (environmental exposures and lower-risk genes). Together, these variants account for a large share of the neuropathological and clinical variability observed in people with AD. The implementation of this model in research might lead to a better understanding of disease pathophysiology, a revision of the current clinical taxonomy and accelerated development of strategies to prevent and treat AD.

Original language	English
Pages (from-to)	53-66
Journal	Nature Reviews Neuroscience
Volume	23
Issue number	1
Early online date	2021
DOIs	https://doi.org/10.1038/s41583-021-00533-w
Publication status	Published - 2022

Subject classification (UKÄ)

Neurosciences

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10.1038/s41583-021-00533-w

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title = "The probabilistic model of Alzheimer disease: the amyloid hypothesis revised",

abstract = "The current conceptualization of Alzheimer disease (AD) is driven by the amyloid hypothesis, in which a deterministic chain of events leads from amyloid deposition and then tau deposition to neurodegeneration and progressive cognitive impairment. This model fits autosomal dominant AD but is less applicable to sporadic AD. Owing to emerging information regarding the complex biology of AD and the challenges of developing amyloid-targeting drugs, the amyloid hypothesis needs to be reconsidered. Here we propose a probabilistic model of AD in which three variants of AD (autosomal dominant AD, APOE ε4-related sporadic AD and APOE ε4-unrelated sporadic AD) feature decreasing penetrance and decreasing weight of the amyloid pathophysiological cascade, and increasing weight of stochastic factors (environmental exposures and lower-risk genes). Together, these variants account for a large share of the neuropathological and clinical variability observed in people with AD. The implementation of this model in research might lead to a better understanding of disease pathophysiology, a revision of the current clinical taxonomy and accelerated development of strategies to prevent and treat AD.",

author = "Frisoni, {Giovanni B.} and Daniele Altomare and Thal, {Dietmar Rudolf} and Federica Ribaldi and {van der Kant}, Rik and Rik Ossenkoppele and Kaj Blennow and Jeffrey Cummings and {van Duijn}, Cornelia and Nilsson, {Peter M.} and Dietrich, {Pierre Yves} and Philip Scheltens and Bruno Dubois",

year = "2022",

doi = "10.1038/s41583-021-00533-w",

language = "English",

volume = "23",

pages = "53--66",

journal = "Nature Reviews Neuroscience",

issn = "1471-003X",

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T1 - The probabilistic model of Alzheimer disease

T2 - the amyloid hypothesis revised

AU - Frisoni, Giovanni B.

AU - Altomare, Daniele

AU - Thal, Dietmar Rudolf

AU - Ribaldi, Federica

AU - van der Kant, Rik

AU - Ossenkoppele, Rik

AU - Blennow, Kaj

AU - Cummings, Jeffrey

AU - van Duijn, Cornelia

AU - Nilsson, Peter M.

AU - Dietrich, Pierre Yves

AU - Scheltens, Philip

AU - Dubois, Bruno

PY - 2022

Y1 - 2022

N2 - The current conceptualization of Alzheimer disease (AD) is driven by the amyloid hypothesis, in which a deterministic chain of events leads from amyloid deposition and then tau deposition to neurodegeneration and progressive cognitive impairment. This model fits autosomal dominant AD but is less applicable to sporadic AD. Owing to emerging information regarding the complex biology of AD and the challenges of developing amyloid-targeting drugs, the amyloid hypothesis needs to be reconsidered. Here we propose a probabilistic model of AD in which three variants of AD (autosomal dominant AD, APOE ε4-related sporadic AD and APOE ε4-unrelated sporadic AD) feature decreasing penetrance and decreasing weight of the amyloid pathophysiological cascade, and increasing weight of stochastic factors (environmental exposures and lower-risk genes). Together, these variants account for a large share of the neuropathological and clinical variability observed in people with AD. The implementation of this model in research might lead to a better understanding of disease pathophysiology, a revision of the current clinical taxonomy and accelerated development of strategies to prevent and treat AD.

AB - The current conceptualization of Alzheimer disease (AD) is driven by the amyloid hypothesis, in which a deterministic chain of events leads from amyloid deposition and then tau deposition to neurodegeneration and progressive cognitive impairment. This model fits autosomal dominant AD but is less applicable to sporadic AD. Owing to emerging information regarding the complex biology of AD and the challenges of developing amyloid-targeting drugs, the amyloid hypothesis needs to be reconsidered. Here we propose a probabilistic model of AD in which three variants of AD (autosomal dominant AD, APOE ε4-related sporadic AD and APOE ε4-unrelated sporadic AD) feature decreasing penetrance and decreasing weight of the amyloid pathophysiological cascade, and increasing weight of stochastic factors (environmental exposures and lower-risk genes). Together, these variants account for a large share of the neuropathological and clinical variability observed in people with AD. The implementation of this model in research might lead to a better understanding of disease pathophysiology, a revision of the current clinical taxonomy and accelerated development of strategies to prevent and treat AD.

U2 - 10.1038/s41583-021-00533-w

DO - 10.1038/s41583-021-00533-w

M3 - Review article

C2 - 34815562

AN - SCOPUS:85119834657

SN - 1471-003X

VL - 23

SP - 53

EP - 66

JO - Nature Reviews Neuroscience

JF - Nature Reviews Neuroscience

IS - 1

ER -

The probabilistic model of Alzheimer disease: the amyloid hypothesis revised

Abstract

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