Dipeptidyl Peptidase 2 is an essential survival factor in the regulation of cell quiescence

Abstract

Most cells in the body are in a resting state and undergo cell cycle progression only upon growth factor stimulation or activation. While much research on proliferation and activation has been performed, very little about signals that maintain quiescent cells in G0 is known, preventing cell cycle entry or apoptosis. In this study, the pathways of apoptosis induction in quiescent peripheral blood cells and fibroblasts mediated by inhibition or down-regulation of Dipeptidyl Peptidase 2 (DPP2) have been explored. A decrease in DPP2 activity was found to cause resting cells to exit from G0, accompanied by a decrease in p130, p27Kip1 and p21Cip1 protein levels. In addition, DPP2-inhibited or down-regulated cells exhibit an increase in early G1/S progressors, with increases in the levels of retinoblastoma (pRb), p107 and cyclin D proteins. Furthermore, decrease of DPP2 activity leads to an increase in c-Myc and a decrease in Bcl-2, two events that have been associated with apoptosis induction. This apoptosis by DPP2 down-regulation is prevented in p53-/- cells or by ectopic expression of proteins that suppress p53 or c-Myc activity. Thus, DPP2 is essential for maintaining lymphocytes and fibroblasts in G0, and its inhibition results in apoptosis mediated by induction of c-Myc and p53.