Changes in surface charge of mouse neuroblastoma cells during growth and morphological differentiation of the cell population

Abstract

The surface charge of neuroblastoma cells (clone C1300-N18TG2) was studied by microelectrophoresis. The surface charge of these cells was shown to be determined mainly by anionic groups of the membrane, located in a layer about 10 mm thick, with a density of 0.2 e/nm3, covering its outer surface. These groups interact with Ca ions with a binding constant of KCa=10−50 liters/mole and titrate corresponding to pK=3.8. The electrophoretic mobility of the neuroblastoma cells is reduced by trypsin, neuraminidase, and N-bromosuccinimide, which irreversibly neutralizes carboxyl groups, and is increased on treatment of the cells with tosyl chloride — a specific reagent for amino groups. The value of the surface charge also depends on the conditions of culture of the cell population. The process of morphological differentiation of the cells (termination of division, dendrite formation), induced by removal of serum from the medium, leads to an increase of about 30% in their electrophoretic mobility. If cells are cultured in medium containing 10 and 50% of blood serum, enabling them to multiply, variations are observed in the mean electrophoretic mobility, which are opposite in phase to the 24-hourly increase in the number of cells. It is suggested that these effects are determined by partial "self-synchronization" of the cell population. It is concluded that the surface charge of neuroblastoma cells, measured by the microelectrophoresis method, is determined mainly by carboxyl groups of peripheral proteins and gangliosides of the membrane, and that the content of these compounds in the membrane depends on the phase of cell development.