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Carboxylated carbon nanomaterials in cell cycle and apoptotic cell death regulation

Author:
Lee, Kuen-Chan, Lo, Pei-Ying, Lee, Guang-Yu, Zheng, Jia-Huei, Cho, Er-Chieh
Source:
Journal of biotechnology 2019 v.296 pp. 14-21
ISSN:
0168-1656
Subject:
apoptosis, bioassays, biocompatibility, carbon nanotubes, carboxylation, cell cycle, cell viability, chemical composition, graphene, humans, nanosheets, therapeutics, toxicity
Abstract:
Carbon nanomaterials, include carbon nanotubes and graphene nanosheets, have drawn an increasing amount of attention because of their potential applications in daily life or in providing novel therapeutic possibilities for treating diseases. However, the overall biocompatibility, the potential toxic effects of carbon nanomaterials toward human cells, and their modulations in cellular mechanism, are not fully understood. Herein, four types of carbon nanomaterials, include long and short carbon nanotubes and graphene nanosheets, at low and high concentrations, were functionalized and dispersed in the biocompatible buffer for assessment. The surface structure, the morphology, and chemical composition of carbon nanomaterials were characterized. Also, biological assays investigating cellular viability, vitality, cell cycle, and apoptotic cell death were applied on cells co-incubated with nanomaterials, to evaluate the biocompatibility of these nanomaterials in human cells. Our data suggested that even though co-incubation of nanomaterials did not seem to affect the viability of cells notably, high concentrations (50 ug/ml) of SW could lead to unhealthy cells, and we observed dramatic G2 arrest effect mediated by p21 induction in high SW incubated cells. Other nanomaterials at high concentration may also alter cell cycle profile of the cells. In summary, our data demonstrated that these nanomaterials could regulate cell cycle and lead to apoptosis at high concentrations, and the underling molecular mechanisms have been addressed. Caution should be taken on their concentration when nanomaterials are in used in future medical applications.
Agid:
6336242