Citation

Hristova SH, Zhivkov AM. Cancer Nanotechnology 2021; 12(1).

Copyright

(Copyright © 2021)

DOI

10.1186/s12645-021-00095-7

PMID

unavailable

Abstract

BACKGROUND: The apoptosis (a cascade of biochemical reactions leading to suicide of damaged biological cells) is blocked in the cancer cells because of impossibility of cytochrome c (cytC) go out from the mitochondria. However, the apoptosis can be started by introducing of exogenous cytC into cytoplasm using colloid particles as a protein carrier due to ability of the cancer cells to phagocytize extracellular particles with submicron size.

RESULTS: The clay mineral montmorillonite (MM) were used to prepare aqueous suspension of protein/mineral composite particles by electrostatic adsorption of the positively charged cytC globules on the negatively charged MM colloid plates, and then added to colon cancel culture. The results shows out that separately cytC and MM have no effect but the composite cytC-MM particles kill 95% of the cancer cells after 96 h treatment using equine cytC which is 97% structurally identical with the human cytC. To reach this high cytotoxicity we have formulated requirements to: (a) bare colloid particles (electric charge, form and size), (b) conditions for protein adsorption (concentrations, pH, ionic strength), and (c) suspension with the composite particles (positive total charge and optimal concentration). Due to satisfying these requirements we have reached cytotoxicity which is 1/3 higher than the reached by other authors using different artificial particles. The cytotoxicity rapidly increases with concentration of the cytC-MM particles but further it shows tendency to saturation.

METHODS: The optimal pH 6.5 and the 10:3 mg/mg cytC/MM concentration ratio at adsorption were found out by employing computer (protein electrostatics) and physicochemical methods (microelectrophoresis and colloid electrooptics) to prepare cytC-MM suspension. The anticancer capability of cytC-MM nanoplates were investigated using cell culture of metastasizing colon cancer.

CONCLUSION: The in vitro experiments with colon cancer cell culture disclose that cytC-MM composite particles have potential for application in anticancer therapy of superficial neoplasms of the skin and the alimentary system (mouth cavity, esophagus, stomach, jejunum and colon). Graphic abstract: [Figure not available: see fulltext.] © 2021, The Author(s).

Language: en

Keywords

human; spectroscopy; X ray diffraction; apoptosis; mitochondrion; nonhuman; animal cell; pH; animal experiment; cell culture; Article; electricity; Nanoparticles; mouth cavity; antibacterial activity; molecular model; colloid; cytotoxicity; cytochrome c; colon cancer; cancer cell culture; cell viability; protein aggregation; jejunum; diffusion; Cytochrome c; Cancer cell culture; Cytotoxicity; Microelectrophoresis; Montmorillonite; Protein electrostatics; colorectal carcinoma; concentration ratio; cytotoxicity assay; Electric light scattering; electrooptics; Fourier transform; ionic strength; light scattering; microelectrophoresis; montmorillonite; relaxation time; suspension cell culture