Cytochemical dopamine visualization as a method for estimation of globular actin content in cytosol of living cells

Abstract

The possibility to reveal globular (G-) actin in cell cytosole by means of microscopy has been studied. The applicability of this method was in particular evaluated for diagnostics of malignant cells, whose main pathocytological feature is an anomalously high content of G-actin in cytosol. The cells of a common origin but with different states of cytosolic actin were analyzed by means of cytochemical reaction for biogenic amines using Falck-Hillarp method after 40-h incubation of the cells in dopamine-containing cultivation medium. Mouse embryo cell line BALB/3T3, clone A31 with differentiated actin cytoskeleton were used as a control cell line. The same cells infected with pathogenic virus SV-40 (cell line 3T3B-SV40) exhibited a malignant phenotype; their cytosol mainly consisted of G-actin. Manifold increase in fluorescence intensity of cytosol and karyoplasms, the loci with the highest G-actin concentration, was revealed in malignant cells in comparison with their healthy prototype. Thus, it was shown that G-actin of malignant cells is a diagnostic target for dopamine, which, as it was earlier shown, penetrates into the cytosol, polymerizes G-actin, incorporating into the filaments as integral component in the 100:1 ratio, and thus fluorescently labels G-actin due to conversion into isoquinoline by reaction with formaldehyde. Besides, dopamine exhibited a strong cytotoxicity that considerably reduced the viability of malignant cells. The data suggest that the content of Gactin in cytosol of living cells can be quantitatively estimated by fluorescence intensity of cytosol following incubation of the cells in dopamine-containing medium.