Emergence of flat cells from glia in stationary cultures of embryonic chick neural retina

Abstract

When embryonic retina is dissociated into a single cell suspension and maintained in stationary culture, a population of flat cells is found on the culture dish. We have carried out a morphologic and immunologic study of the emergence of this population in vitro. Ten- and fourteen-day-old chick embryo retinas were dissociated with trypsin, seeded on glass cover slips for various times, and prepared for scanning electron microscopy (SEM) and immunofluorescence (IF) for Vimentin, an intermediate filament protein. SEM indicates that the characteristic flat cell morphology is initiated in some cells in as little as 30 min after the start of the culture. Not all of the cells that attach flatten. As incubation proceeds, small clusters of cells that had formed in suspension attach to the substrate, and flat cells emerge from them. The flattened cells are positive for Vimentin by IF within 10 min of attachment. The percent of fluorescent cells found on the substrate is constant during the time in culture. This suggests that flat cells do not attach first, followed by neural cells, but that the neural cells and flat cells attach to the dish at the same rate. When aggregates that had formed in suspension attach to the substrate, they are anchored by flat cells that migrate out of the aggregate. Since Vimentin appears in the cultured cells within 10 min, it is unlikely that it has been newly synthesized. Thus, the same cells that contained Vimentin in the retina now express it as flat cells. This supports the hypothesis that flat cells derive from the same cells in the retina that give rise to Müller cells. We have also observed the emergence of a population of cells with short (0.5 micron) microvilli that appear within 8 h of culture. They seem to be a distinct subpopulation of the cells on the upper portion of attached clusters.