Archive/Molecular Networks and Key Regulators Underlying Resilience of the Human Brain to Aging and Dementia
Molecular Networks and Key Regulators Underlying Resilience of the Human Brain to Aging and Dementia
Lei Guo, Nicholas Grimaldi, Minghui Wang et al.
6. Juli 2026
en

Abstract

Alzheimer’s disease (AD) is an aging-related neurodegenerative disease characterized by an initial memory impairment that progresses to a widespread cerebrocortical failure, culminating in death. Understanding the molecular mechanisms that protect brain function during aging may help reveal novel targets for the development of effective treatments for the memory and cognitive deficits associated with AD. In this study, we analyzed a gene expression dataset generated from the prefrontal cortices of individuals showing no neurological or cognitive abnormalities. The gene expression profiles were used to identify candidate protective genes. We then compared the expression patterns of these genes in aging with their expression patterns in AD, thereby enabling us to pinpoint the genes that potentially contribute to brain resilience that delays or prevents aging-related dementia. We selected seven genes that are potentially protective for aging and AD, and have known homologues in Caenorhabditis elegans (C. elegans). Among these genes, SRPK2, AAK1, EFR3A and MAPK10 were previously implicated in attenuating AD-related cognitive decline. Our experiments demonstrated that all seven genes prioritized by our resilience model significantly extended the lifespan of C. elegans. Given the important relationship between neuronal functional integrity and lifespan (i.e., lifespan vs. brain health span), this work suggests the predicted AD resilience genes could serve as important candidate targets for therapeutic intervention.

IPC Classification

G06H04C07

Keywords

molecularnetworksregulatorsunderlyingresiliencehumanbrainagingdementiabiomoleculesalzheimerdiseaseaging-relatedneurodegenerativecharacterizedinitialmemoryimpairmentprogresseswidespreadcerebrocorticalfailureculminatingdeath
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