Yuriy Prylutskyy

Complexation of C60 Fullerene with Aromatic Drugs

The contributions of various physical factors to the energetics of complexation of aromatic drug molecules with C(60) fullerene are investigated in terms of the calculated magnitudes of equilibrium complexation constants and the components of the net Gibbs free energy. Models of complexation are developed taking into account the polydisperse nature of fullerene solutions in terms of the continuous or discrete (fractal) aggregation of C(60) molecules. Analysis of the energetics has shown that stabilization of the ligand-fullerene complexes in aqueous solution is mainly determined by intermolecular van der Waals interactions and, to lesser extent, by hydrophobic interactions. The results provide a physicochemical basis for a potentially new biotechnological application of fullerenes as modulators of biological activity of aromatic drugs.

Structure of fullerene C60 in aqueous solution

The structure of fullerene C60 in aqueous solution was investigated both experimentally and theoretically. The fullerene C60 was found to aggregate rapidly at room temperature. The aggregation kinetics results indicated that the structure of C60 aggregates in water could be described as a fractal system. The optical absorption spectra obtained testify to the crystalline character of absorption. The formation in water of fractal structures and a crystalline phase from highly stable hydrated fullerene (C60)13 clusters (Ih symmetry group) was predicted using the molecular dynamics approach.

Evidence of entropically driven C60 fullerene aggregation in aqueous solution

In the present work, we report the first experimental evidence of entropically driven C60 fullerene aggregation in aqueous solution, occurring with nearly zero enthalpy change.

Complex of C60 Fullerene with Doxorubicin as a Promising Agent in Antitumor Therapy

The main aim of this work was to evaluate the effect of doxorubicin in complex with C60 fullerene (C60 + Dox) on the growth and metastasis of Lewis lung carcinoma in mice and to perform a primary screening of the potential mechanisms of C60 + Dox complex action. We found that volume of tumor from mice treated with the C60 + Dox complex was 1.4 times less than that in control untreated animals. The number of metastatic foci in lungs of animals treated with C60 + Dox complex was two times less than that in control untreated animals. Western blot analysis of tumor lysates revealed a significant decrease in the level of heat-shock protein 70 in animals treated with C60 + Dox complex. Moreover, the treatment of tumor-bearing mice was accompanied by the increase of cytotoxic activity of immune cells. Thus, the potential mechanisms of antitumor effect of C60 + Dox complex include both its direct action on tumor cells by inducing cell death and increasing of stress sensitivity and an immunomodulating effect. The obtained results provide a scientific basis for further application of C60 + Dox nanocomplexes as treatment agents in cancer chemotherapy.

Comparative study of membranotropic action of single- and multi-walled carbon nanotubes

The aim of the present work is the investigation of the interactions of single-walled and multi-walled carbon nanotubes (further referred as SWCNTs and MWCNTs, respectively) with bimolecular lipid model membrane (BLM) and cellular plasma membrane (PM). The findings demonstrate that both SWCNTs and MWCNTs (in concentration range of 10⁻⁴ to 10⁻¹ mg ml⁻¹) are capable to penetrate through the region of hydrophobic fatty acid residues of phospholipids and to form molecular associates in the bilayer that have conductive properties of molecular pores type. The formed pores were shown to enable phosphatidylserine externalization from inner to outer PM leaflet. Both types of CNTs increase the specific conductivity and decrease the specific capacity of BLM.

Therapeutic reactive oxygen generation

An increase of the intracellular reactive oxygen species (ROS) concentration leads to the development of oxidative stress and, thus, to the damage of cell components. The cause-and-effect relations between these processes have not been fully established yet. The ability of photo excited supramolecular composites containing fullerenes C60 immobilized at nanosilica particles to generate reactive oxygen species (ROS) in cells of two types (rat thymocytes, and transformed cells of ascite Erlich carcinoma, EAC, and leucosis L1210) is demonstrated. The damaging effect of photo excited C60-composites are shown, which appeared to be selective and manifested in transformed cells, but not in thymocytes. It has been shown that after the irradiation of aqueous solutions or cell suspensions in the presence of fullerene C60, the generation of reactive oxygen species is observed. It has been shown that the influence of photo excited fullerene C60 on metabolic processes depends on the composition of C60-containing complex and on the type of the cells. The damaging effects of photo excited fullerene C60-containing composites were demonstrated to be selective. The data presented suggest that the application of fullerene C60-containing composites for the selective activation of ROS-dependent death program in certain types of tumor cells is very promising.

C60 fullerene enhances cisplatin anticancer activity and overcomes tumor cell drug resistance

We formulated and analyzed a novel nanoformulation of the anticancer drug cisplatin (Cis) with C60 fullerene (C60+Cis complex) and showed its higher toxicity toward tumor cell lines in vitro when compared to Cis alone. The highest toxicity of the complex was observed in HL-60/adr and HL-60/vinc chemotherapy-resistant human leukemia cell sublines (resistant to Adriamycin and Vinculin, respectively). We discovered that the action of the C60+Cis complex is associated with overcoming the drug resistance of the tumor cell lines through observing an increased number of apoptotic cells in the Annexin V/PI assay. Moreover, in vivo assays with Lewis lung carcinoma (LLC) C57BL/6J male mice showed that the C60+Cis complex increases tumor growth inhibition, when compared to Cis or C60 fullerenes alone. Simultaneously, we conducted a molecular docking study and performed an Ames test. Molecular docking specifies the capability of a C60 fullerene to form van der Waals interactions with potential binding sites on P-glycoprotein (P-gp), multidrug resistance protein 1 (MRP-1), and multidrug resistance protein 2 (MRP-2) molecules. The observed phenomenon revealed a possible mechanism to bypass tumor cell drug resistance by the C60+Cis complex. Additionally, the results of the Ames test show that the formation of such a complex diminishes the Cis mutagenic activity and may reduce the probability of secondary neoplasm formation. In conclusion, the C60+Cis complex effectively induced tumor cell death in vitro and inhibited tumor growth in vivo, overcoming drug resistance likely by the potential of the C60 fullerene to interact with P-gp, MRP-1, and MRP-2 molecules. Thus, the C60+Cis complex might be a potential novel chemotherapy modification.

Abnormal Electron Transport in Graphite Intercalation Compounds with Iron

The paper presents the results of experimental studies of the structure, Hall coefficient, and thermopower of a graphite intercalation compound (GIC) with iron which was obtained by the reduction of metal chloride in the GIC by C8K. It is shown that the intercalated compound of graphite with iron demonstrates the effect of charge transfer between metal and graphite layers. The revealed sharp rising of the Hall coefficient at low values of the magnetic induction is considered as the onset of the abnormal Hall effect that is inherent to the structures with an essential interaction between charge carriers and magnetic moments of intercalated atoms. The thermopower for GICs with iron is shown to contain not only the diffusion and phonon terms but also a constituent related with the onset of the Kondo effect in this system.

MODIFIED EXFOLIATED GRAPHITE AS A MATERIAL FOR SHIELDING AGAINST ELECTROMAGNETIC RADIATION

We report on the structure and morphology of thermoexfoliated graphite (TEG) powders and TEG–metal (Co, Cu, Ni) powders. Electrodynamic parameters of the compacted TEG and TEG–metal specimens have been studied along the compacting axis (c axis) within the range of electromagnetic radiation frequencies between 25.5 and 37.5 GHz. Metal particles attached to the surface of the TEG particles yield enhanced radiation shielding within the entire frequency range. Moreover, it is observed that the absorption coefficient increases with the increase in conductivity of the metal particles and is enhanced due to a high concentration of TEG–metal boundaries, which promote multiple reflections.

A nanocomplex of C60 fullerene with cisplatin: design, characterization and toxicity

The self-organization of C60 fullerene and cisplatin in aqueous solution was investigated using the computer simulation, dynamic light scattering and atomic force microscopy techniques. The results evidence the complexation between the two compounds. The genotoxicity of С60 fullerene, Cis and their complex was evaluated in vitro with the comet assay using human resting lymphocytes and lymphocytes after blast transformation. The cytotoxicity of the mentioned compounds was estimated by Annexin V/PI double staining followed by flow cytometry. The results clearly demonstrate that water-soluble C60 fullerene nanoparticles (0.1 mg/mL) do not induce DNA strand breaks in normal and transformed cells. C60 fullerene in the mixture with Cis does not influence genotoxic Cis activity in vitro, affects the cell-death mode in treated resting human lymphocytes and reduces the fraction of necrotic cells.