Research Article Highly electroconductive multiwalled carbon nanotubes as potentially useful tools for modulating calcium balancing in biological environments
2012
Aiming to explore the mechanisms modulating cell-carbon nanotube interactions, we investigated whether Ca 2+ ion balancing between intra- and extracellular environments could be affected by multiwalled carbon nanotubes (MWCNTs). We analyzed the effects induced by two different kinds of MWCNTs (as prepared and annealed at 2400°C) on the intracellular Ca 2+ ion levels in rat electrically sensitive cells and on the intercellular junction integrity of rat adenocarcinoma colon cells and platelet aggregation ability, which depend on the Ca 2+ concentration in the medium. MWCNTs, purified by annealing and more electroconductive as compared to nonannealed MWCNTs, affected Ca 2+ ion balancing between extra- and intracellular environments and induced changes on Ca 2+ ion-dependent cellular junctions and platelet aggregation, behaving as the calcium chelator ethylene glycol tetraacetic acid. This could be due to the sorption of cationic Ca 2+ ions on CNTs surface because of the excess of negatively charged electrons on the aromatic units formed on MWCNTs after annealing. From the Clinical Editor: The authors investigated whether Ca 2+ ion balance between intra- and extracellular space can be modulated by multiwalled carbon nanotubes (MWCNTs). Annealed nanotubes induced changes on Ca 2+ dependent cellular junctions and platelet
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