Literature DB >> 24902900

Cerium oxide nanoparticles protect against Aβ-induced mitochondrial fragmentation and neuronal cell death.

J M Dowding1, W Song1, K Bossy1, A Karakoti2, A Kumar3, A Kim4, B Bossy1, S Seal3, M H Ellisman4, G Perkins4, W T Self1, E Bossy-Wetzel1.   

Abstract

Evidence indicates that nitrosative stress and mitochondrial dysfunction participate in the pathogenesis of Alzheimer's disease (AD). Amyloid beta (Aβ) and peroxynitrite induce mitochondrial fragmentation and neuronal cell death by abnormal activation of dynamin-related protein 1 (DRP1), a large GTPase that regulates mitochondrial fission. The exact mechanisms of mitochondrial fragmentation and DRP1 overactivation in AD remain unknown; however, DRP1 serine 616 (S616) phosphorylation is likely involved. Although it is clear that nitrosative stress caused by peroxynitrite has a role in AD, effective antioxidant therapies are lacking. Cerium oxide nanoparticles, or nanoceria, switch between their Ce(3+) and Ce(4+) states and are able to scavenge superoxide anions, hydrogen peroxide and peroxynitrite. Therefore, nanoceria might protect against neurodegeneration. Here we report that nanoceria are internalized by neurons and accumulate at the mitochondrial outer membrane and plasma membrane. Furthermore, nanoceria reduce levels of reactive nitrogen species and protein tyrosine nitration in neurons exposed to peroxynitrite. Importantly, nanoceria reduce endogenous peroxynitrite and Aβ-induced mitochondrial fragmentation, DRP1 S616 hyperphosphorylation and neuronal cell death.

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Year:  2014        PMID: 24902900      PMCID: PMC4158687          DOI: 10.1038/cdd.2014.72

Source DB:  PubMed          Journal:  Cell Death Differ        ISSN: 1350-9047            Impact factor:   15.828


  60 in total

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  44 in total

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6.  In vitro and in vivo biocompatibility assessment of free radical scavenging nanocomposite scaffolds for bone tissue regeneration.

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Review 9.  Cerium oxide nanoparticles in neuroprotection and considerations for efficacy and safety.

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Review 10.  Emerging Biomedical Applications of Enzyme-Like Catalytic Nanomaterials.

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