Effect of the solvent nature on the biological activity of gold-containing systems

A. A. Voronova; Воронова А. А.; A. V. Naumkin; Наумкин А. В.; A. Yu. Pereyaslavtsev; Переяславцев А. Ю.; T. Batsalova; Бацалова Ц.; B. Dzhambazov; Джамбазов Б.; A. Yu. Vasil’kov; Васильков А. Ю.

doi:10.31857/S2686953524010085

Effect of the solvent nature on the biological activity of gold-containing systems

Autores: Voronova A.A.¹, Naumkin A.V.¹, Pereyaslavtsev A.Y.², Batsalova T.³, Dzhambazov B.³, Vasil’kov A.Y.¹
Afiliações:
1. A.N. Nesmeyanov Institute of Organoelement Compounds, Russian Academy of Sciences
2. Dukhov Automatics Research Institute
3. Paisii Hilendarski University of Plovdiv
Edição: Volume 514, Nº 1 (2024)
Páginas: 72-80
Seção: PHYSICAL CHEMISTRY
URL: https://journals.rcsi.science/2686-9535/article/view/256434
DOI: https://doi.org/10.31857/S2686953524010085
ID: 256434

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Gold nanoparticles were prepared by metal-vapor synthesis using isopropanol, acetone or toluene as dispersion media. The electronic states of the metal and the nature of the sorbed layer on the surface of the nanoparticles were studied. The analysis of photoelectron spectra of the obtained nanoparticles showed that regardless of the synthesis conditions, gold in all samples is in the Au⁰, Au⁺ and Au³⁺ states and a carbon-containing shell is present on all types of metal particles. The study of anticancer activity of nanoparticles in vitro with human cell lines showed the dependence of biological activity on their interaction time of samples obtained in toluene dispersion medium. The metabolic activity of gold nanoparticles obtained in isopropanol or acetone medium decreased in the earliest period of testing.

Palavras-chave

gold nanoparticles, metal-vapor synthesis, cytotoxicity, X-ray photoelectron spectroscopy, transmission electron microscopy

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Sobre autores

A. Voronova

A.N. Nesmeyanov Institute of Organoelement Compounds, Russian Academy of Sciences

Email: alexandervasilkov@yandex.ru
Rússia, 119334 Moscow

A. Naumkin

A.N. Nesmeyanov Institute of Organoelement Compounds, Russian Academy of Sciences

Email: alexandervasilkov@yandex.ru
Rússia, 119334 Moscow

A. Pereyaslavtsev

Dukhov Automatics Research Institute

Email: alexandervasilkov@yandex.ru
Rússia, 127030 Moscow

T. Batsalova

Paisii Hilendarski University of Plovdiv

Email: alexandervasilkov@yandex.ru

Faculty of Biology

Bulgária, 4000 Plovdiv

B. Dzhambazov

Paisii Hilendarski University of Plovdiv

Email: alexandervasilkov@yandex.ru

Faculty of Biology

Bulgária, 4000 Plovdiv

A. Vasil’kov

A.N. Nesmeyanov Institute of Organoelement Compounds, Russian Academy of Sciences

Autor responsável pela correspondência
Email: alexandervasilkov@yandex.ru
Rússia, 119334 Moscow

Bibliografia

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2. Fig. 1. Micrographs of the AuIs sample: high-resolution TEM (a), high-resolution electronic diffraction pattern (b) and SEM (c).

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3. Fig. 2. SEM image of the morphology of AuAc (a) nanoparticles and their elemental representations: C(b), O(c) and Au (d).

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4. Fig. 3. Energy dispersive X-ray spectrum of the AiAs sample: C, 56.6 at. %; Oh, 43.3 at. %; Au, 0.1 at. %.

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5. Fig. 4. Photoelectron spectra C 1s of AuIs (a), AuAc (b), AuTol (c) and Au 4f samples of all studied samples (d).

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6. Fig. 5. Evaluation of the cytotoxicity of gold nanoparticles in vitro depending on the incubation time. Inhibition of cellular metabolic activity determined by the MTT test with cells A549 (a), FL (c), HeLa (e) and HT-29 (g). The results of the NK test for cells A549 (b), FL (d), HeLa (e) and HT-29 (h). Cells were cultured in a medium containing 200 micrograms ml–1 AuIs, AuAc or AuTol for 24, 48, 72, 96 and 120 hours. All samples were analyzed three times.

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