Nature Versus Nurture: Does Proteostasis Imbalance Underlie the Genetic, Environmental, and Age-Related Risk Factors for Alzheimer’s Disease?

Nature Versus Nurture: Does Proteostasis Imbalance Underlie the Genetic, Environmental, and Age-Related Risk Factors for Alzheimer’s Disease?

Aging is a risk factor for a number of “age-related diseases”, including Alzheimer’s disease (AD). AD affects more than a third of all people over the age of 85, and is the leading cause of dementia worldwide. Symptoms include forgetfulness, memory loss, and cognitive decline, ultimately resulting i...

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Main Author: Elise A. Kikis
Format: Article
Language:English
Published: MDPI AG 2017-08-01
Series:Healthcare
Subjects:
Alzheimer’s disease
amyloid beta
ApoE
air pollution
particulate matter
Online Access:https://www.mdpi.com/2227-9032/5/3/46
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spelling doaj-493c21b211fa4a048059496f58eb29292020-11-25T01:02:14ZengMDPI AGHealthcare2227-90322017-08-01534610.3390/healthcare5030046healthcare5030046Nature Versus Nurture: Does Proteostasis Imbalance Underlie the Genetic, Environmental, and Age-Related Risk Factors for Alzheimer’s Disease?Elise A. Kikis0Biology Department, The University of the South, Sewanee, TN 37383, USAAging is a risk factor for a number of “age-related diseases”, including Alzheimer’s disease (AD). AD affects more than a third of all people over the age of 85, and is the leading cause of dementia worldwide. Symptoms include forgetfulness, memory loss, and cognitive decline, ultimately resulting in the need for full-time care. While there is no cure for AD, pharmacological approaches to alleviate symptoms and target underlying causes of the disease have been developed, albeit with limited success. This review presents the age-related, genetic, and environmental risk factors for AD and proposes a hypothesis for the mechanistic link between genetics and the environment. In short, much is known about the genetics of early-onset familial AD (EO-FAD) and the central role played by the Aβ peptide and protein misfolding, but late-onset AD (LOAD) is not thought to have direct genetic causes. Nonetheless, genetic risk factors such as isoforms of the protein ApoE have been identified. Additional findings suggest that air pollution caused by the combustion of fossil fuels may be an important environmental risk factor for AD. A hypothesis suggesting that poor air quality might act by disrupting protein folding homeostasis (proteostasis) is presented.https://www.mdpi.com/2227-9032/5/3/46Alzheimer’s diseaseamyloid betaApoEair pollutionparticulate matter
collection DOAJ
language English
format Article
sources DOAJ
author Elise A. Kikis
spellingShingle Elise A. Kikis
Nature Versus Nurture: Does Proteostasis Imbalance Underlie the Genetic, Environmental, and Age-Related Risk Factors for Alzheimer’s Disease?
Healthcare
Alzheimer’s disease
amyloid beta
ApoE
air pollution
particulate matter
author_facet Elise A. Kikis
author_sort Elise A. Kikis
title Nature Versus Nurture: Does Proteostasis Imbalance Underlie the Genetic, Environmental, and Age-Related Risk Factors for Alzheimer’s Disease?
title_short Nature Versus Nurture: Does Proteostasis Imbalance Underlie the Genetic, Environmental, and Age-Related Risk Factors for Alzheimer’s Disease?
title_full Nature Versus Nurture: Does Proteostasis Imbalance Underlie the Genetic, Environmental, and Age-Related Risk Factors for Alzheimer’s Disease?
title_fullStr Nature Versus Nurture: Does Proteostasis Imbalance Underlie the Genetic, Environmental, and Age-Related Risk Factors for Alzheimer’s Disease?
title_full_unstemmed Nature Versus Nurture: Does Proteostasis Imbalance Underlie the Genetic, Environmental, and Age-Related Risk Factors for Alzheimer’s Disease?
title_sort nature versus nurture: does proteostasis imbalance underlie the genetic, environmental, and age-related risk factors for alzheimer’s disease?
publisher MDPI AG
series Healthcare
issn 2227-9032
publishDate 2017-08-01
description Aging is a risk factor for a number of “age-related diseases”, including Alzheimer’s disease (AD). AD affects more than a third of all people over the age of 85, and is the leading cause of dementia worldwide. Symptoms include forgetfulness, memory loss, and cognitive decline, ultimately resulting in the need for full-time care. While there is no cure for AD, pharmacological approaches to alleviate symptoms and target underlying causes of the disease have been developed, albeit with limited success. This review presents the age-related, genetic, and environmental risk factors for AD and proposes a hypothesis for the mechanistic link between genetics and the environment. In short, much is known about the genetics of early-onset familial AD (EO-FAD) and the central role played by the Aβ peptide and protein misfolding, but late-onset AD (LOAD) is not thought to have direct genetic causes. Nonetheless, genetic risk factors such as isoforms of the protein ApoE have been identified. Additional findings suggest that air pollution caused by the combustion of fossil fuels may be an important environmental risk factor for AD. A hypothesis suggesting that poor air quality might act by disrupting protein folding homeostasis (proteostasis) is presented.
topic Alzheimer’s disease
amyloid beta
ApoE
air pollution
particulate matter
url https://www.mdpi.com/2227-9032/5/3/46
work_keys_str_mv AT eliseakikis natureversusnurturedoesproteostasisimbalanceunderliethegeneticenvironmentalandagerelatedriskfactorsforalzheimersdisease
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