Glucocorticoid receptors in human fibroblasts derived from normal dermis and keloid tissue.

Hydrocortisone stimulates proliferation and System A amino acid transport in cultured human fibroblasts, while decreasing production of collagen. Fibroblasts isolated from keloid tissue have an unusual glucocorticoid response; they are hyporesponsive with regard to proliferation and collagen production but hyperresponsive with regard to the induction of System A amino acid transport (Russell, J. D., Russell, S. B., and Trupin, K. M. (1978) J. Cell. Physiol. 97, 221-229; Russell, S. B., Russell, J. D., and Trupin, J. S. (1982) J. Biol. Chem. 256, 9525-9531). We show here that despite these differences, the glucocorticoid receptors of keloid cells do not differ from those of normal dermal fibroblasts in steroid specificity, dissociation constant (Kd), total number of binding sites (Bmax), or nuclear binding of glucocorticoid-receptor complexes. A single glucocorticoid binding species of molecular weight 93,000 was found in both cell types. A monolayer assay for glucocorticoid receptor binding is described which facilitates analysis of multiple strains of cultured cells. This assay gives the same specificity and dissociation constants as the conventional cytosol assay, but it is more sensitive. The magnitude of induction of System A amino acid transport was found to be directly proportional to glucocorticoid receptor occupancy in both keloid-derived and normal fibroblasts. This induction requires serum, which can be replaced with 1 nM insulin.