Insights into the Role of the Calcium Sensing Receptor in Epidermal Differentiation in Vivo

While the important role of calcium (Ca++) signaling is fundamental in epidermal cell physiology, a detailed knowledge of precisely how epidermal cells respond to Ca++ levels is not clear. Using peptide-specific antibodies that we generated, we set out to evaluate the temporal and spatial distribution pattern of the Ca++-sensing receptor (CaSR) during epidermogenesis and to assess its involvement in the mature epidermis (e. g., in acute injury and tumorigenesis). Our data indicate a developmentally regulated expression of CaSR: up-regulation occurs in specific epidermal cells and cell layers in normal development or in response to injury when epidermal cells are induced to undergo commitment and early differentiation events, and down-regulation occurs in terminal differentiation stages. These results provide a new perspective on the role of the CaSR in these processes and describe a novel tool for evaluating Ca++-mediated epidermal differentiation.