Abstract
AbstractAmyloid β (Aβ) is a peptide known for its characteristic aggregates in Alzheimer’s Disease and its ability to induce a wide range of detrimental effects in various model systems. However, Aβ has also been shown to induce some beneficial effects, such as antimicrobial properties against pathogens. In this work, we explore the influence of Aβ in stress resistance in aC. elegansmodel of Alzheimer’s Disease. We found thatC. elegansthat express human Aβ exhibit increased resistance to heat and hypoxia, but not to oxidative stress. This beneficial effect of Aβ was driven from Aβ in neurons but not muscles, and the abundance of Aβ in neurons correlated with stress resistance levels. Transcriptomic analysis revealed that this selective stress resistance was mediated by the Heat Shock Protein (HSPs) family of genes. Furthermore, neuropeptide signaling was necessary for Aβ to induce stress resistance, suggesting neuroendocrine signaling plays a major role in activating organismal stress response pathways. These results highlight the potential beneficial role of Aβ in cellular function, as well as its complex effects on cellular and organismal physiology that must be considered when usingC. elegansas a model for Alzheimer’s Disease.
Publisher
Cold Spring Harbor Laboratory