PKCα mediates TGFβ-induced growth inhibition of human keratinocytes via phosphorylation of S100C/A11

Growth regulation of epithelial cells is of major concern because most human cancers arise from them. We demonstrated previously a novel signal pathway involving S100C/A11 for high Ca2+-induced growth inhibition of normal human keratinocytes (Sakaguchi, M., M. Miyazaki, M. Takaishi, Y. Sakaguchi, E. Makino, N. Kataoka, H. Yamada, M. Namba, and N.H. Huh. 2003. J. Cell Biol. 163:825–835). This paper addresses a question whether transforming growth factor β (TGFβ) shares the pathway with high Ca2+. On exposure of the cells to TGFβ1, S100C/A11 was phosphorylated, bound to nucleolin, and transferred to the nucleus, resulting in induction of p21WAF1/CIP1 and p15INK4B through activation of Sp1. Protein kinase C α (PKCα) was shown to phosphorylate 10Thr of S100C/A11, which is a critical event for the signal transduction. The TGFβ1-induced growth inhibition was almost completely mitigated when PKCα activity was blocked or when S100C/A11 was functionally sequestered. These results indicate that, in addition to the well-characterized Smad-mediated pathway, the PKCα–S100C/A11-mediated pathway is involved in and essential for the growth inhibition of normal human keratinocytes cells by TGFβ1

S100A11, an Dual Mediator for Growth Regulation of Human Keratinocytes

We previously revealed a novel signal pathway involving S100A11 for inhibition of the growth of normal human keratinocytes (NHK) caused by high Ca++ or transforming growth factor β. Exposure to either agent resulted in transfer of S100A11 to nuclei, where it induced p21WAF1. In contrast, S100A11 has been shown to be overexpressed in many human cancers. To address this apparent discrepancy, we analyzed possible new functions of S100A11, and we provide herein evidence that 1) S100A11 is actively secreted by NHK; 2) extracellular S100A11 acts on NHK to enhance the production of epidermal growth factor family proteins, resulting in growth stimulation; 3) receptor for advanced glycation end products, nuclear factor-κB, Akt, and cAMP response element-binding protein are involved in the S100A11-triggered signal transduction; and 4) production and secretion of S100A11 are markedly enhanced in human squamous cancer cells. These findings indicate that S100A11 plays a dual role in growth regulation of epithelial cells