In vitro differentiation of chicken embryo skin cells transformed by Rous sarcoma virus.

The epidermal cells isolated from 14-day chicken embryo shank skin epidermis were infected in vitro with Rous sarcoma virus (RSV). Within a few weeks, rapidly growing colonies of epithelial cells appeared among the sea of transformed fibroblastic cells. When isolated and subcultured, these cells were found to possess typical markers of skin epidermis. The presence of major keratin and typical epithelial cell type morphology strongly suggested that these cells were transformed epidermal cells retaining their differentiated characteristics but having the capacity to propagate in cell culture. If RSV tsNY68, an RSV mutant having a temperature lesion in the src gene, was used, similar transformed epidermal cells were obtained at 36 degrees C (permissive temperature). At the nonpermissive temperature (41 degrees C) the growth rate of these cells decreased and additional keratin species appeared. At 41 degrees C the cells were flattened and lost the refractivity in their peripheries. All the keratins which are synthesized at the nonpermissive temperature were present in normal differentiated shank skin of 19-day old chick embryo. These cells also had "cornified envelop," indicating extensive differentiation. Viral production was as efficient as transformed fibroblasts during the rapid growth phase, while it declined significantly after the cells reached confluency, exhibiting the differentiated characteristics. Since no normal epidermal cells could be cultured under our experimental conditions, these results represent examples in which the src gene is essential for propagation of differentiated cells in cell culture while it abolishes only a part of differentiated characteristics.