Divergent regulation of proteoglycan and glycosaminoglycan free chain expression in human keratinocytes and melanocytes.

Keratinocytes and melanocytes, which together form units of structure and function within human epidermis, are known to differ in expression of autocrine growth factors, particularly those with heparin binding affinity. Because such cytokines could be regulated by the endogenous heparinlike glycosaminoglycan, heparan sulfate, proteoglycan synthesis was compared between human keratinocytes and melanocytes cultured from a common donor. Following steady-state isotopic labeling under conditions of active growth (low density cultures) and growth inhibition (high density cultures), the sulfated polymers were isolated from conditioned media and cell extracts. We found that keratinocytes produced substantially more sulfated glycosaminoglycans than did the melanocytes. There was no evidence for hyaluronic acid synthesis by the melanocytes. The majority of [35S]-sulfate labeling was in the heparan sulfates of the keratinocytes and in the chondroitin sulfates of the melanocytes. During the transition from active growth to growth inhibition, there was increased heparan sulfate proteoglycan and free chain synthesis by keratinocytes but not by melanocytes, and chondroitin sulfate proteoglycan production declined in both cell lineages. The differences may reflect divergent evolution as each cell type came to exploit those complex polysaccharides in different ways to regulate molecular pathways of growth and differentiation. The coupling of growth inhibition with augmented synthesis of heparan sulfates observed for the keratinocytes suggests a regulatory role in growth factor signaling in that cell type.