Serial cultivation of normal human keratinocytes: A defined system for studying the regulation of growth and differentiation

Abstract

We have developed a defined method for human epidermal keratinocyte culture. The minimally supplemented basal medium supported establishment of primary cultures from neonatal foreskin in a defined environment. It also supported serial cultivation and rapid expansion of cell number. Casein replaced serum for defined cryopreservation. Cells were serially cultivated in medium containing 0.08 mM calcium. The rate of cell division however remained high after addition of 1.8 mM calcium. The particulate transglutaminase activity of the cultures was low at confluence, even in the presence of 1.88 mM calcium, indicating an enrichment of the basal cell population. Culture with small amounts (0.3%) of chelated serum increased particulate transglutaminase activity approximately 2.2-fold in low calcium cultures and approximately 3.5-fold in high calcium cultures. A gradual reduction in growth rate of serum-treated cultures upon serial cultivation also indicated a depletion of cells with basal cell character. Bovine hypothalamic extract and cholera toxin were able to avert, in part, the differentiation-promoting effects of serum. Keratinocytes serially cultivated in the defined medium maintained the ability to develop normally into a morphologically differentiated epidermis.