Abstract:
Summary
Objectives. Tests for neoplastic cell transformation imitate some of the in vivo steps of multi-stage carcinogenesis process and can detect both
genotoxic and non-genotoxic carcinogens in vitro. But there are a number of issues that hamper consensus on test approval. The aim of this work
was to investigate the possibility of using biomarkers of cell transformation in culture as criteria for evaluating potential carcinogens in a test for
neoplastic cell transformation.
Materials and methods. The proposed assessment of transformed cells in culture in the described methods is purely subjective in nature
(morphological features, cell orientation relative to each other). Thus, the development of new approaches to the identification of transformed cells
will increase the prognostic efficiency of neoplastic cell transformation.
Results. Cell lines of transformed and normal embryonic muscle-skin fibroblasts of mice, a Syrian hamster were obtained and characterized. Cultures
of transformed cells were obtained at passage 8-12 of culturing cells from the “foci” of the cell layer with signs of transformation (random orientation
of cells in a monolayer, lack of contact inhibition between cells and the formation of “foci” of cells).
A comparative analysis of the levels of proliferative activity was carried out. Histochemical indices for cadherin and integrin were established. The
analysis of changes in the total area of the colonies and the morphology of transformed and normal cells after 8 days of cultivation was carried out.
Conclusions. The data obtained led to the conclusion that a change in indicators such as proliferative activity (an increase in the mitotic index
by an average of 17%), an increase in the number of cells and the area of colonies, the level of ROS in the cells, adhesive ability (changes in the
expression of adhesion molecules) are characteristic features of transformed cells and can be used as additional markers and criteria in neoplastic
cell transformation.