Abstract
AbstractBackgroundThe blood‐brain barrier (BBB) is typically compromised in Alzheimer’s disease (AD): its permeability and intracellular parameters of the endothelial cells are affected. AD‐related amyloid isoforms –Aβ42, isoD7‐Aβ42 and pS8‐Aβ42, inducing amyloidogenesis in a different mode – may have peripheral origin and affect the BBB cells. This study aimed to assess this effect.MethodMouse brain endothelial cells bEnd.3 underwent incubation with 10 µM of Aβ42, isoD7‐Aβ42 and pS8‐Aβ42 for 4, 24 and 48 hours to assess nitric oxide (NO), glutathione (GSH), reactive oxygen species (ROS), mitochondrial potential, Ca2+, cell viability by flow cytometry and mitochondrial functioning by Seahorse technology. To analyze the integrity of the cellular monolayer, the expression level of tight junction proteins and permeability of bEnd.3 monolayer to fluorescent tracers were assessed by Western Blotting and transwell‐modeling, correspondingly .ResultpS8‐Aβ42 and isoD7‐Aβ42 effects on the redox status of the cells and mitochondria functioning differ from the effects of Aβ42. Even at 4 hours, Aβ42 and isoD7‐Aβ42 induce immense changes in mitochondrial potential and NO level but pS8‐Aβ42 does not. Prolonged incubation with three isoforms leads to an increase in ROS, and greater increase is observed after incubation with isoD7‐Aβ42. pS8‐Aβ42 induces ROS increase later than other isoforms. Above all, incubation with pS8‐Aβ42 results in a less pronounced NO и GSH growth compared with Aβ42 и isoD7‐Aβ42 which induce activation of mitochondrial respiration and increase in mitochondrial potential, compared with pS8‐Aβ42. IsoD7‐Aβ42 is mostly toxic to bEnd.3 cells. Although Aβ42 and isoD7‐Aβ42 significantly affect redox parameters of bEnd.3 cells, their effects on BBB permeability and tight junction protein expression are less pronounced. Our data demonstrate that inhibition of NO synthases and NMDA receptors induces changes in BBB cells’ response to Aβ peptides.ConclusionAmyloid isoforms differently affect redox parameters of BBB cells significantly modulating mitochondria functioning. Iso‐Aβ42 induces higher cytotoxicity, thus, being a more pathogenic form. Post‐translational modifications of Aβ42 alter the amyloid effect on the BBB cells. It may result in different changes in BBB functioning and its permeability under amyloid isoforms.This research was funded by Russian Science Foundation (Grant No. #19‐74‐30007).
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