Nanosized carbon black exposure induces neural injury: effects on nicotinamide adenine dinucleotide phosphate oxidases and endoplasmic reticulum stress

Abstract: Carbon black in ambient air is believed to be the cause of many diseases; however, its potential neural toxicity and the underlying mechanisms remain poorly understood.The present study is to evaluate the toxic effects of carbon black nanoparticles, Printex 90, on the neural cell line PC-12. The study revealed that Printex 90 treatment significantly decreased cell viability, accompanied by an enormous increase in reactive oxygen species generation and a decrease in ATP. Additionally, NOX2 and NOX4, 4-hydroxyno… Show more

“…With primary cultured neurons, CBNP exposure has been revealed to induce significant neuronal damage, manifesting as decreased expression of the neuronal marker MAP2; meanwhile, CBNPs exposure results in excitotoxicity, which may be ascribed to the enhancement of the action potential frequency in neurons [3]. Our previous study also showed that CBNP treatment decreased cell viability, accompanied by an enormous increase in generation of reactive oxygen species [12]. In addition, oxidative stress, inflammation and apoptosis in CBNP-induced neuronal toxicity were also proven following in vivo exposure of chicken embryos [13].…”

Disturbance of Brain Metabolites in Mice: Potential Neuropathic Damage Mediated by Nanocarbon Black Exposure

“…With primary cultured neurons, CBNP exposure has been revealed to induce significant neuronal damage, manifesting as decreased expression of the neuronal marker MAP2; meanwhile, CBNPs exposure results in excitotoxicity, which may be ascribed to the enhancement of the action potential frequency in neurons [3]. Our previous study also showed that CBNP treatment decreased cell viability, accompanied by an enormous increase in generation of reactive oxygen species [12]. In addition, oxidative stress, inflammation and apoptosis in CBNP-induced neuronal toxicity were also proven following in vivo exposure of chicken embryos [13].…”

Disturbance of Brain Metabolites in Mice: Potential Neuropathic Damage Mediated by Nanocarbon Black Exposure

The interactions of subcellular organelles in pulmonary fibrosis induced by carbon black nanoparticles: a comprehensive review

Carbon nanostructures: a comprehensive review of potential applications and toxic effects