158 Triggering immortalized keratinocyte growth arrest by protein kinase C delta activation

Abstract

Normal epidermal keratinocyte (KC) differentiation is marked by irreversible cell cycle exit and a step-wise transition through the suprabasal layers of the epidermis. In contrast, KCs in both actinic keratosis and squamous cell carcinomas (SCCs) continue to proliferate in the suprabasal compartment, indicating a defect in their growth arrest signaling. Activation of multiple protein kinase C (PKC) isoforms have been associated with KC cell cycle withdrawal. To study the involvement of PKC in KC growth arrest, we evaluated the effects of the PKC agonist 12-O-tetradecanoyl-phorbol-13-acetate (TPA) on normal human epidermal keratinocytes (NHEKs) and HaCaT cells, an immortalized, non-tumorigenic human keratinocyte cell line. Treating NHEKs with 10 nM TPA for as little as 15 minutes induced complete growth arrest over a 7 day period while untreated KCs underwent a 93-fold increase in cell number (p<0.005). 10 nM TPA treatment of HaCaT cells did not induce any growth arrest, indicating that immortalized KCs have defective PKC-dependent growth arrest signaling. To test if PKCδ activation was able to enforce growth arrest in HaCaT cells, we transduced HaCaT cells with retroviruses encoding either EGFP or a PKCδ-EGFP fusion and sorted EGFP positive cells by flow cytometry. HaCaT-EGFP cells behaved similar to HaCaTs and were not growth arrested by TPA treatment. In contrast, HaCaT-PKCδ-EGFP treated with TPA increased in cell number only 3-fold compared to a 15-fold increase in untreated HaCaT-PKCδ-EGFP over a 4 day growth assay. Activation of PKCδ in HaCaT-PKCδ-EGFP cells was confirmed by observing TPA-induced translocation of PKCδ-EGFP to the plasma membrane and increased S299 autophosphorylation. TPA-induced growth inhibition in HaCaT-PKCδ-EGFP cells was due to arrest in G1 and G2/M, not apoptosis. Global phosphoproteomics are being employed to identify PKCδ signaling pathways that can overcome the defective growth arrest in immortalized keratinocytes and may have therapeutic benefit for the treatment of actinic keratosis and SCCs.