Surface charge of fractionated guinea pig keratinocytes measured by free-flow cell electrophoresis.

Keratinocytes differentiate from basal cells to spinous, granular, and horny layer cells. It is known that alterations in the surface charge of cell membranes in most cases reflect the processes of differentiation. By using a continuous colloidal silica (Percoll) density gradient, keratinocytes may be separated into three fractions which correspond to their arrangement in vivo. Using a free-flow cell electrophoretic technique, we measured the electrophoretic mobility of guinea pig keratinocytes. Electrophoretic mobility histograms of basal and granular cells showed slow and fast monophasic patterns, respectively. In spinous cells, a biphasic pattern of slow and fast electrophoretic mobility was present. The electrophoretic mobility level of guinea pig keratinocytes was slightly reduced with neuraminidase digestion. Those of human red blood cells and lymphocytes, however, were markedly decreased. These results indicate that membrane charge density is lower in basal cells and higher in granular cells and that the membrane charge density of guinea pig keratinocytes involves not only neuraminic acid residues but also other substance(s). Our results illustrate the alterations of cell membrane charge properties during epidermal cell differentiation.