A serum-free primary culture system for studying cell-substrate interactions during newt epidermal cell migration.

To study the interaction of migrating newt epidermal cells with purified extracellular matrix (ECM) molecules we have developed an in vitro migration assay using pieces of newt skin explanted onto culture dishes coated with various ECM molecules and cultured for 18 h in defined serum-free medium. Newt epidermal cells migrate out from explants placed on dishes coated with either collagen, vitronectin, fibronectin, or fibrinogen but not on albumin-coated or uncoated dishes. Explant outgrowth on collagen was best in CEM 2000 medium diluted to 60% of mammalian osmolarity. Other media such as RPMI 1640 or Ex-Cell 300, diluted similarly, may also be used although in our hands CEM 2000 always allowed more migration. We found no migration on collagen when skin explants were incubated in Holtfreter's solution (an amphibian saline solution that we have previously shown allows reepithelialization on amputated newt limbs). Supplementation of Holtfreter's solution with glucose did not improve its ability to support migration. By testing various supplement combinations in conjunction with CEM 2000 and RPMI 1640 we found that neither serum, insulin, selenium, transferrin, nor L-glutamine is required for explant outgrowth. Of the additives tested, outgrowth was stimulated only by insulin. Epidermal cell outgrowth on collagen was inhibited by both puromycin and cycloheximide, indicating the necessity for protein synthesis in this system. Whether the effects of these protein synthesis inhibitors are specifically on migration-related events or on general metabolic requirements is not clear. Inasmuch as there was no correlation (r = -0.227) between DNA synthesis (measured by incorporation of tritiated thymidine) and the amount of outgrowth, we believe that our assay is a measure of cell migration alone rather than a combination of mitosis and migration. This explant outgrowth system represents a new and relatively simple assay that can be used in the study of cell-substrate interactions during newt epidermal cell migration over extracellular matrix molecules in a defined serum-free environment.