Oligomer amyloid beta 42 (Aβ) is considered the key pathogenic molecule in Alzheimer disease (AD) and causes specific lamin fragmentation. Curcumin has been recognized for its protective effects against Aβ-induced toxicity in AD, though its underlying mechanism remains unclear. In this study, the inhibitory mechanism of curcumin against Aβ-induced lamin fragmentation and cell death was investigated. Human neuroblastoma cells were used to examine Aβ-induced lamin fragmentation and lamin deformation by immunoblotting and confocal microscopy, while cell viability was measured using MTT and alamarBlue assay. Caspase and cathepsin L activity were assessed by spectrofluorometry, and Aβ aggregation was evaluated by ThT assay. Our results demonstrated that curcumin inhibited Aβ aggregation, reducing intracellular Aβ uptake by 45% compared to Aβ-treated cells. Curcumin also inhibited the Aβ-induced intracellular calcium rise, subsequently leading to a onefold reduction in cathepsin L activity. This reduction in cathepsin L activity by curcumin blocked the Aβ-induced lamin fragmentation. Collectively, these findings suggest that curcumin inhibits Aβ-induced cell death by preventing Aβ entry and lamin cleavage, providing potential new insights for AD treatment.
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