Abstract
The movement of epithelial cells in vitro has been studied with time lapse cinemicrography, micromanipulation, marking of the cell surface, and electron microscopy. The cells, in contrast to fibroblasts, spread as contiguous sheets. Locomotion results primarily from the activity of the marginal cells, as determined by the extent and location of cell adhesions to the plane substratum. The locomotory activity of epithelial cells as members of a sheet is similar to that of chick heart fibroblasts, consisting of a fluctuation of the flattened free edge, a backward movement of particles adhering to the upper surface of the lamellipodium, ruffling, blebbing, and microspike activity. Of these, only the first two are invariably associated with movement. These phenomena are discussed in relation to the mechanism of epithelial cell movement. The basic differences between epithelial cells and fibroblasts, as far as locomotory and adhesive properties are concerned, are the tendency of isolated epithelial cells to bleb more vigorously than fibroblasts and the more extensive and apparently stronger lateral adhesion of epithelial cells.
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