Autocrine regulation of cell cycle progression in normal human keratinocytes

Summary Removal of competence factors insulin and pituitary extract from the culture medium, concomitant with the addition of picomolar concentrations of the late-G₁ inhibitor transforming growth factor-beta, effectively arrested cell cycle progression of normal human keratinocytes prior to their entry into the DNA synthesis phase; arrest continued for a minimum of 36 h following removal of unbound inhibitor and subsequent addition of factor-deficient medium. To demonstrate the reversibility of transforming growth factor-beta-induced arrest, two dissimilar cell populations were recruited to synthesize DNA in a predictable and reproducible manner; whereas the reinstatement of omitted competence factors induced noncycling cells to begin synthesizing DNA within 24 h, addition of keratinocyte-conditioned medium prompted an immediate progression of late-G₁ cells into S phase. Studies to determine the extent that autocrine signaling regulates cell cycle progression revealed that nontransformed keratinocytes produce an endogenous factor required for DNA replication and that production of this progression factor required competence factors insulin and pituitary extract. Keratinocyte progression factor recruited late-G₁ cells into S phase within 1–2 h, reversed transforming growth factor-beta-induced arrest in the presence of bound inhibitor, and elicited a calcium mobilization response consistent with receptor-mediated signaling. Hence, these studies demonstrate that G₁ progression of nontransformed keratinocytes into S phase requires an endogenous progression factor and suggest that this factor may direct G₁ progression by modulating the activity of a calcium-dependent kinase.