Seeding and Growth of beta-Amyloid Aggregates upon Interaction with Neuronal Cell Membranes
Ruiz-Arias, Alvaro; Paredes, Jose M.; Di Biase, Chiara; Cuerva, Juan M.; Giron, Maria D.; Salto, Rafael; Gonzalez-Vera, Juan A.; Orte, Angel
Publicación: INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
2020
VL / 21 - BP / - EP /
abstract
In recent years, the prevalence of amyloid neurodegenerative diseases such as Alzheimer's disease (AD) has significantly increased in developed countries due to increased life expectancy. This amyloid disease is characterized by the presence of accumulations and deposits of beta-amyloid peptide (A beta) in neuronal tissue, leading to the formation of oligomers, fibers, and plaques. First, oligomeric intermediates that arise during the aggregation process are currently thought to be primarily responsible for cytotoxicity in cells. This work aims to provide further insights into the mechanisms of cytotoxicity by studying the interaction of A beta aggregates with Neuro-2a (N2a) neuronal cells and the effects caused by this interaction. For this purpose, we have exploited the advantages of advanced, multidimensional fluorescence microscopy techniques to determine whether different types of A beta are involved in higher rates of cellular toxicity, and we measured the cellular stress caused by such aggregates by using a fluorogenic intracellular biothiol sensor. Stress provoked by the peptide is evident by N2a cells generating high levels of biothiols as a defense mechanism. In our study, we demonstrate that A beta aggregates act as seeds for aggregate growth upon interacting with the cellular membrane, which results in cell permeability and damage and induces lysis. In parallel, these damaged cells undergo a significant increase in intracellular biothiol levels.
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