The effect of cyclosporin on human epidermal keratinocytes in vitro

Abstract

Cyclosporin A has been shown to be effective in the treatment of severe, recalcitrant psoriasis, but it is uncertain whether the mode of action is primarily by immune suppression or by other mechanisms. Cyclosporin‐dependent growth‐inhibition has recently been demonstrated in vitro using several non‐human and transformed epithelial cell lines. In this study the effect of cyclosporin on human epidermal keratinocytes and skin fibroblasts was investigated. Secondary cultures of human epidermal keratinocytes were grown on collagen‐coated dishes in the presence of increasing concentrations of cyclosporin. Inhibition of growth was observed at 6–8 μM. An almost identical dose‐response curve was obtained for the cytotoxic drug, cis‐platin. Short‐term exposure (i h) to cyclosporin did not have any effect on epidermal cell growth, suggesting that direct membrane‐related effects were not involved. Analysis of cellular proteins by SDS‐PAGE indicated no effect of continuous cyclosporin exposure on in vitro differentiation. The observation that human epidermal keratinocyte growth is inhibited by cyclosporin suggests that a topical form of therapy for psoriasis may be an effective alternative to oral treatment.