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Involvement of Intracellular and Mitochondrial Aβ in the Ameliorative Effects of Huperzine A against Oligomeric Aβ42-Induced Injury in Primary Rat Neurons. | LitMetric

AI Article Synopsis

  • - Huperzine A shows promise in reducing neuronal damage caused by β-amyloid (Aβ), a significant factor in Alzheimer's disease (AD), with this study being the first to examine its effects specifically on oligomeric Aβ(42) neurotoxicity.
  • - The treatment with huperzine A resulted in higher neuronal survival rates and decreased levels of intracellular Aβ(42), which suggests it may help limit Aβ accumulation inside neurons.
  • - Additionally, huperzine A improved mitochondrial function impacted by Aβ(42) exposure, indicating its potential role in therapeutic strategies aimed at AD by targeting both intracellular Aβ and associated mitochondrial dysfunction.

Article Abstract

Considerable studies indicate huperzine A is a promising natural product to suppress neuronal damages induced by β-amyloid (Aβ), a key pathogenic event in the Alzheimer's disease (AD). As an extension, the present study for the first time explored whether the beneficial profiles of huperzine A against oligomeric Aβ(42) induced neurotoxicity are associated with the accumulation and detrimental function of intraneuronal/mitochondrial Aβ, on the basis of the emerging evidence that intracellular Aβ is more relevant to AD progression as compared with extracellular Aβ. Huperzine A treatment was shown to significantly attenuate the neurotoxicity of oligomeric Aβ(42), as demonstrated by increased neuronal viability. Interestingly, our results proved that exogenous Aβ(42) could accumulate intraneuronally in a dose- and time-dependent manner, while huperzine A treatment markedly reduced the level of intracellular Aβ(42). Moreover, huperzine A treatment rescued mitochondrial dysfunction induced by oligomeric Aβ(42), including adenosine triphosphate (ATP) reduction, reactive oxygen species (ROS) overproduction and membrane potential depolarization. Further study demonstrated that huperzine A also significantly reduced the level of Aβ(42) in the mitochondria-enriched subcellular fractions, as well as the Aβ(42) fluorescent signals colocalized with mitochondrial marker. This study indicates that interfering intracellular Aβ especially mitochondrial Aβ accumulation, together with ameliorating Aβ-associated mitochondrial dysfunction, may contribute to the protective effects of huperzine A against Aβ neurotoxicity. Above results may shed more light on the pharmacological mechanisms of huperzine A and provide important clues for discovering novel therapeutic strategies for AD.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4448999PMC
http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0128366PLOS

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