| Literature DB >> 25852438 |
Olena M Yakymchuk1, Olena M Perepelytsina1, Alexey V Dobrydnev2, Mychailo V Sydorenko1.
Abstract
ABSTRACT: This paper describes the impact of different concentrations of single-walled carbon nanotubes (SWCNTs) on cell viability of breast adenocarcinoma, MCF-7 line, and formation of multicellular tumor spheroids (MTS). Chemical composition and purity of nanotubes is controlled by Fourier transform infrared spectroscopy. The strength and direction of the influence of SWCNTs on the tumor cell population was assessed by cell counting and measurement of the volume of multicellular tumor spheroids. Effect of SWCNTs on the formation of multicellular spheroids was compared with the results obtained by culturing tumor cells with ultra dispersed diamonds (UDDs). Our results demonstrated that SWCNTs at concentrations ranging from 12.5 to 50 μg/ml did not have cytotoxic influence on tumor cells; instead, they had weak cytostatic effect. The increasing of SWCNTs concentration to 100 to 200 μg/ml stimulated proliferation of tumor cells, especially in suspension fractions. The result of this influence was in formation of more MTS in cell culture with SWCNTs compared with UDDs and control samples. In result, the median volume of MTS after cultivation with SWCNTs at 100 to 200 μg/ml concentrations is 3 to 5 times greater than that in samples which were incubated with the UDDs and is 2.5 times greater than that in control cultures. So, if SWCNTs reduced cell adhesion to substrate and stimulated formation of tumor cell aggregates volume near 7 · 10(-3) mm(3), at the same time, UDDs reduced adhesion and cohesive ability of cells and stimulated generation of cell spheroids volume no more than 4 · 10(-3) mm(3). Our results could be useful for the control of cell growth in three-dimensional culture. PACS: 61. 46 + w; 61.48 + c; 61.48De; 87.15-v; 87.64-t.Entities:
Keywords: Carbon nanotubes; Multicellular tumor spheroids; Ultra dispersed diamonds
Year: 2015 PMID: 25852438 PMCID: PMC4385323 DOI: 10.1186/s11671-015-0858-7
Source DB: PubMed Journal: Nanoscale Res Lett ISSN: 1556-276X Impact factor: 4.703
Figure 1Three-dimensional structure of the carbon nanotubes according to the literature [ 31 , 32 ].
Compliance of FTIR analysis-based absorption peaks to types of chemical bonds in carbon nanomaterials [11]
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| Alcohol O-H | (Stretch, H-bonded) | 3, 200 to 3,600 | Strong, broad |
| Alkane C-H | Stretch | 2,850 to 3,000 | Strong |
| Acid O-H | Stretch | 2,500 to 3,300 | Strong, very broad |
| Aldehyde = C-H | Stretch | 2,820 to 2,850 and 2,720 to 2,750 | Medium, two peaks |
| Amine N-H | Stretch | 3,300 to 3,500 | Medium (primary amines have two bands; secondary have one band, often very weak) |
| Acid C = O | Stretch | 1,700 to 1,725 | Strong |
| Alkene C = C | Stretch | 1,620 to 1,680 | Variable |
| Aromatic C = C | Stretch | 1,400 to 1,600 | Medium-weak, multiple bands |
| Alkyl Halide C-F | Stretch | 1,000 to 1,400 | Strong |
| Ether C-O | Stretch | 1,000 to 1,300 (1,070 to 1,150) | Strong |
| Ester C-O | Stretch | 1,000 to 1,300 | Two bands or more |
| Alkene = C-H | Bending | 675 to 1,000 | Strong |
Figure 2FTIR spectra of SWCNTs.
Figure 3Effect of SWCNTs on the number of alive and dead cells. In adhesion and suspension fractions (A) and cell viability compare with control (B). The number of alive/dead cells was counted due to usage of trypan blue. Cell viability was analyzed by MTT assay. *p < 0.01, #p < 0.05.
Figure 4Multicellular tumor spheroids culture at different concentrations of SWCNTs. (A) Control. (B) 12.5 μg/ml. (C) 25 μg/ml. (D) 50 μg/ml. (E) 100 μg/ml. (F) 150 μg/ml. (G) 200 μg/ml. ×80 magnification.
Figure 5Number of multicellular tumor spheroids at different concentrations of SWCNTs.
Figure 6Comparison influences of different concentrations of SWCNTs and UDDs on the formation of multicellular tumor spheroids. *p < 0.01, #p < 0.05.